HORMESIS

  1. Hormesis defined
  2. Radiation Hormesis
  3. Hormesis in aging
  4. Hormesis: why it is important to toxicology and toxicologists
  5. Hormesis and medicine
  6. Hormesis with ionizing radiation
  7. Hormesis as a biological hypothesis.
  8. Hormesis: the dose-response revolution
  9. Hormesis and plant biology
  10. Improved empirical models describing Hormesis
  11. Is Hormesis an evolutionary expectation?
  12. Exercise, oxidative stress and Hormesis
  13. A theory for growth Hormesis
  14. Chemical Hormesis: its historical foundations as a biological hypothesis
  15. Hormesis—the stimulation of growth by low levels of inhibitors
  16. Dietary factors, Hormesis and health
  17. The marginalization of Hormesis
  18. The importance of Hormesis to public health
  19. Hormesis: a generalizable and unifying hypothesis
  20. Nutritional Hormesis
  21. Hormesis: why it is important to biogerontologists
  22. Hormesis: a revolution in biology, toxicology and medicine
  23. A perspective on the scientific, philosophical, and policy dimensions of Hormesis
  24. Stress-response Hormesis and aging:“that which does not kill us makes us stronger”
  25. Hormesis: its impact on medicine and health
  26. Defining Hormesis: evaluation of a complex concentration response phenomenon
  27. Inorganics and Hormesis
  28. Radiation Hormesis: the good, the bad, and the ugly
  29. Hormesis: changing view of the dose-response, a personal account of the history and current status
  30. Paradigm lost, paradigm found: the re-emergence of Hormesis as a fundamental dose response model in the toxicological sciences
  31. Radiation Hormesis: its historical foundations as a biological hypothesis
  32. The occurrence of chemically induced Hormesis.
  33. The occurrence of Hormesis in plants and algae
  34. Evidence for Hormesis in mutagenicity dose–response relationships
  35. Radiation Hormesis
  36. Evidence that Hormesis represents an “overcompensation” response to a disruption in homeostasis
  37. Evidence for beneficial low level radiation effects and radiation Hormesis
  38. A quantitatively‐based methodology for the evaluation of chemical Hormesis
  39. Hormesis in mixtures—can it be predicted?
  40. Neuroscience and Hormesis: overview and general findings
  41. Radiation Hormesis: data and interpretations
  42. Hormesis is central to toxicology, pharmacology and risk assessment
  43. Do toxic ions induce Hormesis in plants?
  44. Hormesis: from marginalization to mainstream: a case for Hormesis as the default dose-response model in risk assessment
  45. Exercise and Hormesis: activation of cellular antioxidant signaling pathway
  46. Radiation Hormesis: Its expression in the immune system.
  47. Hormesis: U-shaped dose responses and their centrality in toxicology
  48. Hormesis and the antiaging action of dietary restriction
  49. Fundamental flaws of Hormesis for public health decisions
  50. Hormesis provides a generalized quantitative estimate of biological plasticity
  51. Radiation Hormesis: the demise of a legitimate hypothesis
  52. Insects, insecticides and Hormesis: evidence and considerations for study
  53. Hormesis, cell death and aging
  54. Hormesis: a highly generalizable and reproducible phenomenon with important implications for risk assessment
  55. Parthenin Hormesis in plants depends on growth conditions
  56. Stress and fish reproduction: the roles of allostasis and Hormesis
  57. Exercise and Hormesis: oxidative stress-related adaptation for successful aging
  58. The dose determines the stimulation (and poison): development of a chemical Hormesis database
  59. Hormesis, aging and longevity
  60. UV Hormesis in fruits: a concept ripe for commercialisation
  61. Hormesis and aging in Caenorhabditis elegans
  62. Cellular stress responses, the Hormesis paradigm, and vitagenes: novel targets for therapeutic intervention in neurodegenerative disorders
  63. Ecological risk assessment (ERA) and Hormesis
  64. Exposure to nanoparticles and Hormesis
  65. Applications of Hormesis in toxicology, risk assessment and chemotherapeutics
  66. Statistical tests for Hormesis and effective dosages in herbicide dose response
  67. The influences of diet and exercise on mental health through Hormesis
  68. The occurrence of hormetic dose responses in the toxicological literature, the Hormesis database: an overview
  69. Getting the dose–response wrong: why Hormesis became marginalized and the threshold model accepted
  70. Hormesis: is it an important factor in herbicide use and allelopathy?
  71. Hormesis: a revolution in toxicology, risk assessment and medicine: Re‐framing the dose–response relationship
  72. Herbicide Hormesis–can it be useful in crop production?
  73. Hormesis and epigenetics: is there a link?
  74. Longevity Hormesis. A review
  75. Linear no-threshold model vs. radiation Hormesis
  76. Tales of two similar hypotheses: the rise and fall of chemical and radiation Hormesis
  77. A brief review of radiation Hormesis
  78. What is Hormesis and why haven’t we heard about it before?
  79. How increased oxidative stress promotes longevity and metabolic health: The concept of mitochondrial Hormesis (mitoHormesis)
  80. Aging, anti-aging, and Hormesis
  81. Hormesis, cellular stress response and vitagenes as critical determinants in aging and longevity
  82. The Hormesis database: the occurrence of hormetic dose responses in the toxicological literature
  83. Awareness of Hormesis will enhance future research in basic and applied neuroscience
  84. Establishing cellular stress response profiles as biomarkers of homeodynamics, health and Hormesis
  85. Hormesis/preconditioning mechanisms, the nervous system and aging
  86. Vitagenes, cellular stress response, and acetylcarnitine: relevance to Hormesis
  87. Hormesis can and does work in humans
  88. Converging concepts: adaptive response, preconditioning, and the Yerkes–Dodson Law are manifestations of Hormesis
  89. Radiation Hormesis overview
  90. Radiation Hormesis: historical perspective and implications for low-dose cancer risk assessment
  91. Hormesis and synergy: pathways and mechanisms of quercetin in cancer prevention and management
  92. Hormesis and disease resistance: activation of cellular stress response pathways
  93. Toxicological awakenings: the rebirth of Hormesis as a central pillar of toxicology
  94. Growth Hormesis: a by-product of control.
  95. Resveratrol commonly displays Hormesis: occurrence and biomedical significance
  96. Stress biology and Hormesis: the Yerkes–Dodson law in psychology—a special case of the Hormesis dose response
  97. On radiation Hormesis expressed in the immune system
  98. Hormesis and high-risk groups
  99. Hormesis on life-history traits: is there such thing as a free lunch?
  100. Radiation Hormesis and the linear-no-threshold assumption
  101. Hormesis, an update of the present position
  102. Multiple Stressors in Caenorhabditis elegans Induce Stress Hormesis and Extended Longevity
  103. The future of Hormesis: where do we go from here?
  104. It’s time for a new low-dose-radiation risk assessment paradigm—one that acknowledges Hormesis
  105. Hormesis predicts low-dose responses better than threshold models
  106. Hormesis and a chemical raison d’ětre for secondary plant metabolites
  107. A method to evaluate Hormesis in nanoparticle dose-responses
  108. Hormesis does not make sense except in the light of TOR-driven aging
  109. Mitochondrial Hormesis links low‐dose arsenite exposure to lifespan extension
  110. Hormesis outperforms threshold model in National Cancer Institute antitumor drug screening database
  111. Aflatoxicosis in chickens (Gallus gallus): An example of Hormesis?
  112. Reproductive stimulation by low doses of xenoestrogens contrasts with the view of Hormesis as an adaptive response
  113. Radiation Hormesis-A remedy for fear
  114. Radiation Hormesis in plants.
  115. Lifespan extension of Drosophila melanogaster through Hormesis by repeated mild heat stress
  116. Plant Hormesis induced by ultraviolet light-C for controlling postharvest diseases of tree fruits
  117. The future of aging interventions: aging intervention, prevention, and therapy through Hormesis
  118. Homeopathy: clarifying its relationship to Hormesis
  119. Genetic variation for stress-response Hormesis in C. elegans lifespan
  120. The role of Hormesis in life extension by dietary restriction
  121. Applying Hormesis in aging research and therapy
  122. Radiation Hormesis: autophagy and other cellular mechanisms
  123. Altruistic cell suicide in relation to radiation Hormesis
  124. Hormesis and adaptive cellular control systems
  125. Sipping from a poisoned chalice: people have believed since antiquity that tiny doses of toxicants can be healthful. Now Hormesis, a concept once discredited in …
  126. Agricultural implications of pesticide-induced Hormesis of insects and mites
  127. Evaluating the evidence for Hormesis: a statistical perspective
  128. Hormesis, adaptive epigenetic reorganization, and implications for human health and longevity
  129. Hormesis: protecting neurons against cellular stress in Parkinson disease
  130. Dietary isoflavones and vascular protection: activation of cellular antioxidant defenses by SERMs or Hormesis?
  131. Stress responses, vitagenes and Hormesis as critical determinants in aging and longevity: Mitochondria as a “chi”
  132. Signaling and damaging functions of free radicals in aging—free radical theory, Hormesis, and TOR
  133. Hormesis: an adaptive expectation with emphasis on ionizing radiation
  134. Nuclear energy and health: and the benefits of low-dose radiation Hormesis
  135. Biologic responses to low doses of ionizing radiation: Detriment versus Hormesis–Part 2. Dose responses of organisms
  136. Activation of mitochondrial biogenesis by Hormesis
  137. Cancer biology and Hormesis: human tumor cell lines commonly display hormetic (biphasic) dose responses
  138. Influence of postharvest UV-C Hormesis on the bioactive components of tomato during post-treatment handling
  139. A mechanism for Hormesis—a problem in the wrong discipline
  140. Mild stress and healthy aging: applying Hormesis in aging research and interventions
  141. Hormesis: a response to low environmental concentrations of petroleum hydrocarbons
  142. Biologic responses to low doses of ionizing radiation: Detriment versus Hormesis–part 1. Dose responses of cells and tissues
  143. Hormesis and its relationship with homeopathy
  144. Hormesis by low dose radiation effects: low-dose cancer risk modeling must recognize up-regulation of protection
  145. A stochastic model of Hormesis
  146. Hormesis and its place in nonmonotonic dose–response relationships: some scientific reality checks
  147. Extension of lifespan in C. elegans by naphthoquinones that act through stress Hormesis mechanisms
  148. Sex specific effects of heat induced Hormesis in Hsf-deficient Drosophila melanogaster
  149. The Hormesis effect of BDE-47 in HepG2 cells and the potential molecular mechanism
  150. Hormesis: a stress response in cells exposed to low levels of heavy metals
  151. Ethanol and Hormesis
  152. Hormesis with glyphosate depends on coffee growth stage
  153. Role of Hormesis in life extension by caloric restriction
  154. Radiation Hormesis and radioadaptive response in Drosophila melanogaster flies with different genetic backgrounds: the role of cellular stress-resistance mechanisms
  155. Radiation Hormesis and cancer
  156. Hormesis and amyloid-β protein: physiology or pathology?
  157. Tolerance and Hormesis—increased resistance to copper in hydroids linked to Hormesis
  158. Defining, explaining and understanding Hormesis
  159. The notion of Hormesis and the dose–response theory: a unified approach
  160. Cellular stress responses, mitostress and carnitine insufficiencies as critical determinants in aging and neurodegenerative disorders: role of Hormesis and vitagenes
  161. Model of Hormesis and Its Toxicity Mechanism Based on Quorum Sensing: A Case Study on the Toxicity of Sulfonamides to Photobacterium phosphoreum
  162. Hormesis—stimulation of colony growth in Campanularia flexuosa (hydrozoa) by copper, cadmium and other toxicants
  163. Hormesis in aging and neurodegeneration—a prodigy awaiting dissection
  164. Hormetic effects in pharmacology: pharmacological inversions as prototypes for Hormesis.
  165. Hormesis in high-throughput screening of antibacterial compounds in E coli
  166. Radiation Hormesis, or, could all that radiation be good for us?
  167. The maturing of Hormesis as a credible dose-response model
  168. Hormesis: a conversation with a critic
  169. Deconstructing radiation Hormesis
  170. Hormesis: how it could affect the risk assessment process
  171. Hormesis responses of free and immobilized light-emitting bacteria
  172. Heat stress and hormetin-induced Hormesis in human cells: effects on aging, wound healing, angiogenesis, and differentiation
  173. Hormesis and stage specific toxicity induced by cadmium in an insect model, the queen blowfly, Phormia regina Meig.
  174. Can the concept of Hormesis be generalized to carcinogenesis?
  175. Chemotherapeutics and Hormesis
  176. How prevalent is chemical Hormesis in the natural and experimental worlds?
  177. Hormesis effects and implicative application in assessment of lead-contaminated soils in roots of Vicia faba seedlings
  178. The implications of Hormesis to ecotoxicology and ecological risk assessment
  179. Hormesis phenomena under Cd stress in a hyperaccumulator—Lonicera japonica Thunb
  180. Hormesis: Biphasic dose-responses to fungicides in plant pathogens and their potential threat to agriculture
  181. Mathematical modelling of dose-response relationship (Hormesis) in allelopathy and its application
  182. Hormesis-based anti-aging products: a case study of a novel cosmetic
  183. What is Hormesis?
  184. Insecticide‐induced Hormesis in an insecticide‐resistant strain of the maize weevil, Sitophilus zeamais
  185. Hormesis and dose–response-mediated mechanisms in carcinogenesis: evidence for a threshold in carcinogenicity of non-genotoxic carcinogens
  186. Transgenerational shifts in reproduction Hormesis in green peach aphid exposed to low concentrations of imidacloprid
  187. The Good, the Bad, and the Toxic: Approaching Hormesis in Daphnia magna Exposed to an Energetic Compound
  188. Hormesis”—an inappropriate extrapolation from the specific to the universal
  189. Radiation Hormesis, public health, and public policy: a commentary.
  190. Evidence for Radiation Hormesis after In Vitro Exposure of Human Lymphocytes to Low Doses of Ionizing Radiation
  191. Detection and Assessment of Chemical Hormesis on the Radial Growth in Vitro of Oomycetes and Fungal Plant Pathogens
  192. Hormesis: an evolutionary “predict and prepare” survival mechanism
  193. Postconditioning Hormesis put in perspective: an overview of experimental and clinical studies
  194. Induction of cell-proliferation Hormesis and cell-survival adaptive response in mouse hematopoietic cells by whole-body low-dose radiation
  195. Hormesis: Toxicological foundations and role in aging research
  196. Beyond selectivity: are behavioral avoidance and Hormesis likely causes of pyrethroid-induced outbreaks of the southern red mite Oligonychus ilicis?
  197. Postconditioning Hormesis and the similia principle.
  198. Transcription‐blocking DNA damage in aging: a mechanism for Hormesis
  199. Stimulatory sublethal response of a generalist predator to permethrin: Hormesis, hormoligosis, or homeostatic regulation?
  200. Smoking and Hormesis as confounding factors in radiation pulmonary carcinogenesis
  201. Induced resistance of sweetpotato to Fusarium root rot by UV-C Hormesis
  202. Low-dose radiation (LDR) induces hematopoietic Hormesis: LDR-induced mobilization of hematopoietic progenitor cells into peripheral blood circulation
  203. Imidacloprid-induced Hormesis on the fecundity and juvenile hormone levels of the green peach aphid Myzus persicae (Sulzer)
  204. Exercise-induced Hormesis may help healthy aging
  205. Detecting and estimating Hormesis using a model-based approach
  206. Hormesis and exercise: how the cell copes with oxidative stress
  207. Permethrin-induced Hormesis on the predator Supputius cincticeps (Stål, 1860)(Heteroptera: Pentatomidae)
  208. Biological effects of low-dose radiation: of harm and Hormesis
  209. Chromium (VI)-induced Hormesis and genotoxicity are mediated through oxidative stress in root cells of Allium cepa L.
  210. Vegetable and synthetic tannins induce Hormesis/toxicity in sea urchin early development and in algal growth
  211. Ageing, gerontogenes, and Hormesis
  212. Hormesis and cellular quality control: a possible explanation for the molecular mechanisms that underlie the benefits of mild stress
  213. Evidence supporting radiation Hormesis in atomic bomb survivor cancer mortality data
  214. Low dose effects of dichlorodiphenyltrichloroethane (DDT) on gene transcription and DNA methylation in the hypothalamus of young male rats: implication of Hormesis
  215. The role of oxidative stress in Hormesis induced by sodium arsenite in human embryo lung fibroblast (HELF) cellular proliferation model
  216. Apoptotic cell death induced by low-dose radiation in male germ cells: Hormesis and adaptation
  217. Resveratrol and cancer treatment: Is Hormesis a yet unsolved matter
  218. The influence of post-harvest UV-C Hormesis on lycopene, β-carotene, and phenolic content and antioxidant activity of breaker tomatoes
  219. Commentary: Hormesis can be used in enhancing plant productivity and health; but not as previously envisaged
  220. Postconditioning Hormesis and the homeopathic Similia principle: molecular aspects
  221. The origin of Hormesis: historical background and driving forces
  222. Potential roles of PI3K/Akt and Nrf2–Keap1 pathways in regulating Hormesis of Z-ligustilide in PC12 cells against oxygen and glucose deprivation
  223. Hormesis response of marine and freshwater luminescent bacteria to metal exposure
  224. Hormesis: dose-dependent reverse effects of low and very low doses
  225. Radiation Hormesis. A new concept in radiological science.
  226. Life extension after heat shock exposure: assessing meta-analytic evidence for Hormesis
  227. Hormesis and toxicological risk assessment
  228. Hormesis and health: a little of what you fancy may be good for you.
  229. Low-dose radiation induces antitumor effects and erythrocyte system Hormesis
  230. Hormesis and radiation safety norms
  231. Hormesis, adaptation, and the sandpile model
  232. Chemical Hormesis in cell growth: a molecular target at the cell surface
  233. Radiation Hormesis: an evolutionary expectation and the evidence
  234. Defining Hormesis: comments on Calabrese and Baldwin (2002)
  235. Does caloric restriction induce Hormesis?
  236. Drug development and Hormesis: changing conceptual understanding of the dose response creates new challenges and opportunities for more effective drugs.
  237. The Longevity Effect of Tannic Acid in Caenorhabditis elegans: Disposable Soma Meets Hormesis
  238. Is the integration of Hormesis and essentiality into ecotoxicology now opening Pandora’s Box?
  239. Hormesis in Caenorhabditis elegans dauer-defective mutants
  240. Epidemiological Evidence for Possible Radiation Hormesis from Radon Exposure: A Case-Control Study Conducted in Worcester, MA.
  241. The definition of Hormesis and its implications for in vitro to in vivo extrapolation and risk assessment
  242. Hormesis, Gompertz functions, and risk assessment
  243. Science, Hormesis and regulation
  244. Hormesis and debilitation effects in stress experiments using the nematode worm Caenorhabditis elegans: the model of balance between cell damage and HSP levels
  245. Hormesis: what it is and why it matters
  246. The sandpile model: optimal stress and Hormesis
  247. Scientific foundations of Hormesis. Part 2. Maturation, strengths, limitations, and possible applications in toxicology, pharmacology, and epidemiology
  248. The Hormesis concept and risk assessment: are there unique ethical and policy considerations?
  249. Hormesis, allostatic buffering capacity and physiological mechanism of physical activity: a new theoretic framework
  250. Hormesis is biology, not religion
  251. Dietary restriction, glycolysis, Hormesis and ageing
  252. Phenobarbital at low dose exerts Hormesis in rat hepatocarcinogenesis by reducing oxidative DNA damage, altering cell proliferation, apoptosis and gene expression
  253. Biological basis for radiation Hormesis in mammalian cellular communities
  254. Short-term anoxic conditioning Hormesis boosts antioxidant defenses, lowers oxidative damage following irradiation and enhances male sexual performance in the …
  255. Hormesis as a pro-healthy aging intervention in human beings?
  256. Inflammatory modulation of exercise salience: using Hormesis to return to a healthy lifestyle
  257. Hormesis: a promising strategy to sustain endogenous neuronal survival pathways against neurodegenerative disorders
  258. Ad hoc and fast forward: the science of Hormesis growth and development
  259. Peptides and Hormesis
  260. Hormesis effect of trace metals on cultured normal and immortal human mammary cells
  261. Hormesis in biogerontology
  262. Hormesis—basic, generalizable, central to toxicology and a method to improve the risk-assessment process
  263. Radiation Hormesis: challenging LNT theory via ecological and evolutionary considerations
  264. The myth and reality of reversal of aging by Hormesis
  265. Should we explore the clinical utility of Hormesis?
  266. Mathematical modeling of plant allelopathic Hormesis based on ecological-limiting-factor models
  267. Dioxin cancer risk—example of Hormesis?
  268. Mitochondrial Hormesis in pancreatic β cells: does uncoupling protein 2 play a role?
  269. Metabolic efficiency in response to environmental agents predicts Hormesis and invalidates the linear no-threshold premise: ionizing radiation as a case study
  270. Some implications for quantitative risk assessment if Hormesis exists
  271. Mechanisms of Hormesis through mild heat stress on human cells
  272. Quantification of Hormesis in anticancer-agent dose-responses
  273. Pest insect olfaction in an insecticide-contaminated environment: info-disruption or Hormesis effect
  274. Hormesis: a new religion?
  275. Hormesis for fine particulate matter (PM 2.5)
  276. Effect of lithium and lanthanum on herbicide induced Hormesis in hydroponically‐grown cotton and corn
  277. Radiation-Induced Neoplastic Transformation in vitro, Hormesis and Risk Assessment
  278. A critique of the use of Hormesis in risk assessment
  279. Bioreactivity of municipal solid waste landfill leachates—Hormesis and DNA damage
  280. Possible role of NF-κB in Hormesis during ageing
  281. Hormesis: improving predictions in the low-dose zone
  282. Slow‐down of age‐dependent telomere shortening is executed in human skin keratinocytes by Hormesis‐like‐effects of trace hydrogen peroxide or by anti‐oxidative …
  283. Hormesis and homeopathy: introduction
  284. Characterization of oxidized low-density lipoprotein-induced Hormesis-like effects in osteoblastic cells
  285. Remarkable Hormesis induced by 1-ethyl-3-methyl imidazolium tetrafluoroborate on Vibrio qinghaiensis sp.-Q67
  286. Hormesis: implications for public policy regarding toxicants
  287. Heat-induced Hormesis in longevity of two sibling Drosophila species
  288. Hormesis associated with a low dose of methylmercury injected into mallard eggs
  289. A meta-analysis of evidence for Hormesis in animal radiation carcinogenesis, including a discussion of potential pitfalls in statistical analyses to detect Hormesis
  290. Order from chaos: observing Hormesis at the proteome level
  291. Radiation Hormesis. Its emerging significance in medical practice.
  292. Demonstration of Hormesis (increase in fatality rate) by penicillin
  293. Hormesis as a default parameter in RfD derivation
  294. Peptides and Hormesis
  295. Incorporating Hormesis in the routine testing of hazards
  296. Hormesis—its relevance in phytotoxicology
  297. Hormesis pervasiveness and its potential implications for pharmaceutical research and development
  298. Interpreting ‘dose-response’curves using homeodynamic data: with an improved explanation for Hormesis
  299. Establishing links between endoplasmic reticulum-mediated Hormesis and cancer
  300. Hormesis without cell killing
  301. Hormesis in humans exposed to low-level ionising radiation
  302. State of research and perspective on radiation Hormesis in Japan
  303. Enhanced reproduction in mallards fed a low level of methylmercury: an apparent case of Hormesis
  304. Hormesis: the new approach in risk assessment?
  305. Possible examples of chemical Hormesis in a previously published study
  306. Factors controlling the Hormesis response in irradiated seed.
  307. Hazard assessment of chemical carcinogens: the impact of Hormesis
  308. Miasmas, germs, homeopathy and Hormesis: Commentary on the relationship between homeopathy and Hormesis
  309. The role and mode of action of UV-C Hormesis in reducing cellular oxidative stress and the consequential chilling injury of banana fruit peel.
  310. Temperature-induced Hormesis in Drosophila
  311. Does homeopathy have anything to contribute to Hormesis?
  312. Radiation Hormesis: demonstrated, deconstructed, denied, dismissed, and some implications for public policy
  313. Identifying apoptosis-evasion proteins/pathways in human hepatoma cells via induction of cellular Hormesis by UV irradiation
  314. Radiation Hormesis in cancer mortality.
  315. Hormesis: are low doses of ionizing radiation harmful or beneficial?
  316. Hormesis at the National Toxicology Program (NTP): evidence of hormetic dose responses in NTP dose-range studies
  317. The importance of Hormesis to public health
  318. Hormesis: interpreting the β‐curve using control theory
  319. Hormesis and risk communication
  320. Herbicide phosphinothricin causes direct stimulation Hormesis
  321. Hormesis—does it have relevance at the population, community or ecosystem levels of organization?
  322. Non-linear uptake and Hormesis effects of selenium in red-winged blackbirds (Agelaius phoeniceus)
  323. Targeting the age‐related occurrence, removal, and accumulation of molecular damage by Hormesis
  324. Alpha-benzene hexachloride exerts Hormesis in preneoplastic lesion formation of rat hepatocarcinogenesis with the possible role for hepatic detoxifying enzymes
  325. Hormesis and the law: introduction
  326. The future of Hormesis: What is the clinical relevance to Hormesis?
  327. Defining Hormesis: the necessary tool to clarify experimentally the low dose–response relationship
  328. Radiation Hormesis
  329. An Introduction to radiation Hormesis
  330. Nutritional Hormesis and aging
  331. Low‐dose risk, Hormesis, analogical and logical thinking
  332. Evidence of depleted uranium‐induced Hormesis and differential plant response in three grasses
  333. Limits to chemical Hormesis as a dose–response model in health risk assessment
  334. The ecological stress theory of aging and Hormesis: an energetic evolutionary model
  335. Biological responses to low dose radiation–Hormesis and adaptive responses
  336. What becomes of nuclear risk assessment in light of radiation Hormesis?
  337. Heat-induced Hormesis in longevity as correlated response to thermal-stress selection in Drosophila buzzatii
  338. Phytotchemical phytotoxins and Hormesis–a commentary
  339. Another view of the scientific foundations of Hormesis
  340. Hormesis as a mechanism for the anti-aging effects of calorie restriction
  341. The role of receptors in radiation Hormesis
  342. Hormesis with ionizing radiation
  343. The temporal Hormesis of drug therapies
  344. Legal implications of Hormesis
  345. Hormesis and longevity with tannins: Free of charge or cost-intensive?
  346. Hormesis and pharmacology
  347. Hormesis controversy
  348. Chloramphenicol, European Legislation and Hormesis-Commentary
  349. Irradiation and Hormesis
  350. Hormesis, the precautionary principle, and legal regulation
  351. Stress to the rescue: is Hormesis a ‘cure’for aging?
  352. An examination of radiation Hormesis mechanisms using a multistage carcinogenesis model
  353. Approach of evolutionary theories of ageing, stress, senescence-like phenotypes, calorie restriction and Hormesis from the view point of far-from-equilibrium …
  354. Hormesis influence of glyphosate in between increasing growth, yield and controlling weeds in faba bean
  355. Regulatory implications of Hormesis
  356. Examining the risks and benefits of replacing traditional dose-response with Hormesis
  357. Microdosimetric concepts applied to Hormesis.
  358. Hormesis in aging and longevity
  359. Hormesis-Implications for risk assessment caloric intake (body weight) as an exemplar
  360. Hormesis-A pharmaceutical industry perspective
  361. Implications of Hormesis for biomedical aging research
  362. Hormesis—a new hope for ageing studies or a poor second to genetics?
  363. Current status and perspectives of research on radiation Hormesis in Japan.
  364. Implications of the Hormesis hypothesis for risk perception and communication
  365. Hormesis and aging: what’s the deal?
  366. Hormesis: Implications for cancer risk assessment
  367. Invited response to definition of Hormesis (EJ Calabrese and LA Baldwin)
  368. Radiation Hormesis: evidence for radiation stimulation and speculation regarding mechanisms
  369. Economic implications of Hormesis
  370. Gompertz mortality analysis: aging, longevity Hormesis and toxicity
  371. Use of concept of Hormesis phenomenon to explain the law of diminishing returns. Part II
  372. Hormesis, aging and longevity determination
  373. MAP Kinases and Heat Shock–Induced Hormesis in Human Fibroblasts during Serial Passaging in Vitro
  374. The key mechanisms of radiation Hormesis
  375. Delaying aging: could the study of Hormesis be more helpful than that of the genetic pathway used to survive starvation?
  376. Cell mechanics and stress: from molecular details to the ‘universal cell reaction’and Hormesis
  377. Caloric restriction, metabolic efflciency and Hormesis
  378. Hyperoxia exposure induced Hormesis decreases mitochondrial superoxide radical levels via Ins/IGF-1 signaling pathway in a long-lived age-1 mutant of …
  379. Neutron activation analysis of trace elements in Japanese Hormesis cosmetics
  380. Nonlinear stimulation and Hormesis in human aging: practical examples and action mechanisms
  381. A critique of “the scientific foundations of Hormesis
  382. Resistance to type 2 diabetes mellitus: a matter of Hormesis?
  383. Hormesis in precautionary regulatory culture: models preferences and the advancement of science
  384. Hormesis, epitaxy, the structure of liquid water, and the science of homeopathy
  385. Feeding a ROS-generator to Caenorhabditis elegans leads to increased expression of small heat shock protein HSP-16.2 and Hormesis
  386. Hormesis and female sex hormones
  387. An illusion of Hormesis in the Ames test: Statistical significance is not equivalent to biological significance
  388. Adaptive response and its relationship to Hormesis and low dose cancer risk estimation
  389. Commentary: Hormesis and Radiation Protection
  390. Hormesis in carcinogenicity of non-genotoxic carcinogens
  391. “Is Hormesis Applicable as a Pro-Healthy Aging Intervention in Mammals and Human Beings, and How?” Introduction to a Special Issue of Dose-Response
  392. A Gompertz age-specific mortality rate model of aging, Hormesis, and toxicity: Fixed-dose studies
  393. Hormesis and ecological risk assessment: Fact or fantasy?
  394. Hormesis and aging
  395. Cadmium acclimation and Hormesis in Fundulus heteroclitus during fin regeneration
  396. Hormesis and the radical moderation of law
  397. Hormesis, resveratrol and plant-derived polyphenols: some comments
  398. Cell survival programs and ischemia/reperfusion: Hormesis, preconditioning, and cardioprotection
  399. Adaptive responses account for the β-curve—Hormesis is linked to acquired tolerance
  400. Ecological risk assessment: implications of Hormesis
  401. Hormesis and homeopathy: Bridge over troubled waters
  402. Optimal experimental design strategies for detecting Hormesis
  403. Hormesis and vitagenes in aging and longevity: mitochondrial control and hormonal regulation
  404. Tumor resistance explained by Hormesis
  405. … ‐1,3,5‐triazine, and octahydro‐1,3,5,7‐tetranitro‐1,3,5,7‐tetrazocine in sediments to Chironomus tentans and Hyalella azteca: Low‐dose Hormesis and high‐dose …
  406. Radiation Hormesis of seedlings and seeds, simply elusive or an artifact?
  407. Current status of research on radiation Hormesis in the immune system after low level radiation
  408. Hormesis is applicable as a pro-healthy aging intervention in mammals and human beings
  409. Hormesis: once marginalized, evidence now supports Hormesis as the most fundamental dose response
  410. Decrease of rice plant resistance and induction of Hormesis and carboxylesterase titre in brown planthopper, Nilaparvata lugens (Stål) by xenobiotics
  411. Hormesis: policy implications
  412. Antioxidant genes, Hormesis, and demographic longevity
  413. A noncanonical NF-κB pathway through the p50 subunit regulates Bcl-2 overexpression during an oxidative-conditioning Hormesis response
  414. Hormesis and high throughput studies: Crump’s analysis lacks credibility
  415. Aging, MnSOD, and Hormesis mechanisms converge on liver mUPR
  416. Commentary on Hormesis and public risk communication: is there a basis for public discussions?
  417. Hormesis, cell death, and regenerative medicine for neurodegenerative diseases
  418. Implications of Hormesis on the bioassay and hazard assessment of chemical carcinogens
  419. A biomathematical modeling approach to explain the phenomenon of radiation Hormesis
  420. Radiation Hormesis: Incredible or inevitable?
  421. An investigation of Hormesis of trichloroethylene in L-02 liver cells by differential proteomic analysis
  422. Radiobiological Hormesis, methodological value judgments, and metascience
  423. Sub-lethal effects of copper spiked sediments on the marine amphipod Gammarus locusta: evidence of Hormesis
  424. Hormesis and risk assessment
  425. Exposure to low level environmental agents: the induction of Hormesis
  426. Cyclic GMP-dependent protein kinase regulates the expression of thioredoxin and thioredoxin peroxidase-1 during Hormesis in response to oxidative stress …
  427. Acetaldehyde utilization in Drosophila: an example of Hormesis
  428. Sigmoid growth and the assessment of Hormesis: a case for caution.
  429. Conceptual clarification and policy-related science: The case of chemical Hormesis
  430. Respect for lay perceptions of risk in the Hormesis case
  431. Detecting Hormesis using a non-parametric rank test
  432. Principles and practice of Hormesis as an aging intervention
  433. Testing threshold and Hormesis in a random effects dose‐response model applied to developmental toxicity data
  434. Dietary restriction, Hormesis, and small molecule mimetics
  435. THE Hormesis OF THE GREEN MACROALGA ULVA FASCIATA WITH LOW‐DOSE 60COBALT GAMMA RADIATION1
  436. Is the hygiene hypothesis an example of Hormesis?
  437. Implications of Hormesis for industrial hygiene
  438. Another California milestone: the first application of Hormesis in litigation and regulation
  439. Experiments, analyses and decisions: Hormesis in ecotoxicology
  440. Hormesis: fact or fiction?
  441. Alcohol: friend or foe? Alcoholic beverage Hormesis for cataract and atherosclerosis is related to plasma antioxidant activity
  442. Epidemiological assessment of Hormesis in studies with low-level exposure
  443. State of research on radiation Hormesis by CRIEPI
  444. Hormesis, ethics, and public policy: an overview
  445. Effect of CO2 laser irradiation on Hormesis induction in cultured oral cells
  446. Potential solutions in radiation Hormesis
  447. Clinical significance of low-dose radiation therapy: radiation Hormesis
  448. Hormesis and risk assessment
  449. Significance of UV-C Hormesis and its relation to some phytochemicals in ripening and senescence process
  450. Radiation Hormesis in relation to radiation protection.
  451. Hormesis: a brief reply to an advocate
  452. An ethical appraisal of Hormesis: towards a rational discourse on the acceptability of risks and benefits
  453. Radiation Hormesis
  454. The problem of low-level radiation and Hormesis in radiobiology
  455. Radiation Hormesis: an ecological and energetic perspective
  456. Hormesis [biological effects of low level exposures (BELLE)] and dermatology
  457. Hormesis: a quest for virtuality?
  458. Reflection on the future of Hormesis
  459. Detection of Hormesis effect in longevity: simulation approach for heterogeneous population
  460. Hormesis in ecology and ecological assessments
  461. … 4-hydroxy-2-nonenal in microalga Chlorella kessleri acts as a bioactive indicator of pollution with common herbicides and growth regulating factor of Hormesis
  462. The search for Hormesis in the nervous system
  463. Effect of Hormesis in Dunaliella viridis Teodor. (Chlorophyta) Under the Influence of Copper Sulfate
  464. Metal-induced Hormesis requires cPKC dependent glucose transport and lowered respiration
  465. Homeopathy: clarifying its relationship to Hormesis by EJ Calabrese and WB Jonas
  466. A case for deliberation in response to Hormesis research
  467. Evolutionary theory and studies of model organisms predict a cautiously positive perspective on the therapeutic use of Hormesis for healthy aging in humans
  468. Hormesis and intervention of aging
  469. Micronutrients, Hormesis and the aptitude for the maturation of regulation
  470. Challenging dose-response dogma: Hormesis presents a good model for toxicological risk assessment–and it’s not homeopathy
  471. A case for caution: an evaluation of Calabrese and Baldwin’s studies of chemical Hormesis
  472. Research Status of the Mechanism of Hormesis [J]
  473. Effect of CO2 laser irradiation on Hormesis induction in human pulp and periodontal ligament fibroblasts
  474. The biological Hormesis-effects of rare earths and potential effects of application of rare earths on agricultural eco-environment [J]
  475. Radiation Hormesis, cancer, and freedom in American medicine
  476. Vascular aging and oxidative stress: Hormesis and adaptive cellular pathways
  477. Biphasic toxicodynamic features of some antimicrobial agents on microbial growth: a dynamic mathematical model and its implications on Hormesis
  478. Hormesis and precaution: the twain shall meet
  479. Complex mixture-associated Hormesis and toxicity: the case of leather tanning industry
  480. Toxicology of cupric salts in honeybees: I. Hormesis effects of organic derivatives on lethality parameters
  481. Some effects of radiation Hormesis for bacterial and yeast cells
  482. Molecular and cellular aspects of radiation Hormesis in Drosophila melanogaster
  483. Physical activity: a strong stimulant for Hormesis during aging
  484. Hypotheses on mammalian aging, toxicity, and longevity Hormesis: Explication by a generalized Gompertz function
  485. Hormesis in ecological risk assessment: a useful concept, a confusing term, and/or a distraction?
  486. An ethical appraisal of Hormesis: toward a rational discourse on the acceptability of risks and benefits
  487. Hormesis and its application in medicinal plant growing
  488. Hormesis: considerations and implications for human health risk assessment
  489. Commentary on ‘resveratrol commonly displays Hormesis: occurrence and biomedical significance’
  490. Radiation Hormesis—fact or fiction?
  491. Mimotope-Hormesis and mortalin/grp75/mthsp70: a new hypothesis on how infectious disease-associated epitope mimicry may explain low cancer burden in …
  492. Hormesis against aging and diseases: using properties of biological adaptation for health and survival improvement
  493. Hormesis and industrial hygiene: a new hypothesis for low-dose response in occupational risk assessment
  494. The implications of Hormesis to ecotoxicology and ecological risk assessment (ERA)
  495. Hormesis, hotspots and emissions trading
  496. Radiation Hormesis research findings and therapeutic applications
  497. Risk assessment and risk management implications of Hormesis
  498. A Gompertz age-specific mortality rate model of aging, Hormesis, and toxicity: dose-response studies
  499. What is Hormesis?
  500. Cancer biology and Hormesis: comments on Calabrese (2005)
  501. Limitations in the National Cancer Institute antitumor drug screening database for evaluating Hormesis
  502. Exposure of healthcare personnel to ionizing radiation in the light of radiation Hormesis hypothesis
  503. Risk assessment and risk management implications of Hormesis
  504. A possible path forward for Hormesis
  505. BELLE Article: Hormesis, non-linearity, and risk communication
  506. Commentary on Resveratrol and Hormesis: Resveratrol—a hormetic marvel in waiting?
  507. Hormesis: Calabrese Responds
  508. Legal criteria and judicial precedents relevant to incorporation of Hormesis into regulatory decision-making
  509. The fundamental role of Hormesis in evolution
  510. Environmental law applications of Hormesis concepts: risk assessment and cost–benefit implications
  511. Biphasic mortality response of chipmunks in the wild to single doses of ionizing radiation: toxicity and longevity Hormesis
  512. Molecular evidence of radiation Hormesis at occupational exposure
  513. Cancer biology and Hormesis: commentary
  514. Clinical applications of low-dose whole body irradiation Hormesis
  515. What every dermatologist should know about homeopathy, Hormesis, and pharmacological inversion
  516. A regulatory precedent for Hormesis
  517. Critical values of linear energy transfer, dose rates and doses for radiation Hormesis.
  518. How much is enough to accept Hormesis as the default? or ‘At what point, if ever, could/should Hormesis be employed as the principal dose-response default …
  519. A proposed working definition for the novel concept of neurobehavioral Hormesis
  520. The concept of Hormesis in developmental toxicology
  521. Economic implications of Hormesis: some additional thoughts
  522. Dose estimation of radiation exposure from Hormesis cosmetics
  523. Cellular bystander effects and radiation Hormesis
  524. Hormesis revisited: New insights concerning the biological effects of low-dose exposures to toxins
  525. Hormesis of Streptomycin on 6 Species of Marine Microalgae [J]
  526. Incorporating Hormesis in risk regulation
  527. A personal perspective on Hormesis
  528. Low-dose rate irradiation induced Hormesis, hypersensitivity and adaptive response in Drosophila melanogaster of radiosensitive strains
  529. Reference dose (RfD): the possible impact of Hormesis
  530. Photobiological effects of radiation Hormesis on the control of postharvest decay and delayed senescence and ripening of postharvest crops.
  531. Comments on the article ‘Defining Hormesis‘, by EJ Calabrese and LA Baldwin
  532. Radiation Hormesis: the validity of the linear no-threshold hypothesis
  533. Dose and litter allocations in the design of teratological studies for detecting Hormesis
  534. Hormesis: Implications for risk assessment
  535. Applying Hormesis in aging research and therapy: a sensible hope?
  536. Hormesis and regulatory policy
  537. Hormesis: the Arndt-Schulz lawrediscovered
  538. Transcript Expression Patterns Illuminate the Mechanistic Background of Hormesis in Caenorhabditis Elegans Maupas
  539. Problems of the mechanism of radiation and chemical Hormesis
  540. Hormesis effect of cadmium on Lonicera japonica.
  541. Getting ahead of ourselves: a comment on Professor Cross’s legal implications of Hormesis
  542. In vitro Hormesis effects of sodium fluoride on kidney cells of three-day-old male rats
  543. Commentary on White Paper The Future of Hormesis: Where Do We Go from Here? Edward J. Calabrese
  544. Influence of dose rate on radiation Hormesis with low dose exposure
  545. Hormesis and environmental policy: an ethical analysis
  546. On the mechanism of the nonspecific cell response to the action of damaging agents and the nature of Hormesis
  547. Radiation Hormesis
  548. The effects of selected agricultural chemicals on freshwater microalgae and cladocerans in laboratory studies, with particular emphasis on Hormesis
  549. Why the concept of Hormesis has not been incorporated into mainstream radiation health theory: Radiation perspective
  550. The Hormesis of blood samples irradiated in vitro by X-rays to low doses
  551. Economic implications of Hormesis in policy making
  552. Radiation Hormesis: radioactive waste for health
  553. Can Hormesis be a default for dose-response?
  554. Radiation Hormesis and its potential to manage radiation injuries
  555. Hormesis and toxic torts
  556. Transcriptional mediators of cellular Hormesis
  557. Radiation Hormesis and nuclear safety
  558. Dietary restriction and longevity extension as a manifestation of Hormesis
  559. Should Hormesis be the default model in risk assessment?
  560. Radon and lung cancer in Finland: are there signs of radiation Hormesis?
  561. Comments: implications of Hormesis for industrial hygienists
  562. Study on Hormesis of Superoxide Dismutase and Adaptive Response of Low Dose Radiation [J]
  563. Radiation Hormesis on the growth of Chinese cabbage and radish
  564. The Maturing of Hormesis as a Credible Dose-Response Model
  565. Radiation Hormesis
  566. Commentary on ‘resveratrol commonly displays Hormesis: Occurrence and biomedical significance’
  567. A NIEHS-oriented perspective on Hormesis
  568. The occurrence of Hormesis during gamma-irradiation of developing rat pups
  569. Role of ERK in the Hormesis induced by cadmium chloride in HEK293 cells
  570. Hormesis: Why It Is Important to Toxicology & Toxicologists
  571. Comments to paper by S. Rattan: applying Hormesis in aging research and therapy—a perspective from evolutionary biology
  572. WITHDRAWN: dietary factors, Hormesis and health
  573. Advances in the Hormesis of pesticides to the natural enemies
  574. Trivialization of radiation Hormesis
  575. Hormesis and risk assessment: a risky proposal
  576. Examining the risks and benefits of considering both the traditional dose–response and Hormesis in arriving at an acceptable exposure level
  577. The basic molecular biology underlying radiation Hormesis. Der molekularbiologische Hintergrund der Strahlen-Hormesis
  578. Hormesis as a confounding factor in epidemiological studies of radiation carcinogenesis
  579. Study on the mechanism of Hormesis of Lanthanum nitrate on learning and memory of mice
  580. Radiation Hormesis. Stimulatory effects of low level ionizing radiation on plant
  581. Heat and starvation induced Hormesis in longevity of Oomyzus sokolowskii (Kurdjumov)(Hymenoptera: Eulophidae) adult females
  582. Hormesis [Biological Effects of Low-Level Exposure (BELLE)] and Dermatology
  583. Radiation Hormesis
  584. Radon and radiative Hormesis or from enthusiasm to damnation-one hundred years of opinion changing
  585. Molecular mechanisms and time-dependent dynamics of Hormesis, antagonism and radioprotective effects at combined ionizing irradiation of biological systems
  586. Geroprotectors: specific action or Hormesis?
  587. Age variations of melatonin level and its Hormesis; implications for AIS and osteoporosis
  588. Radiation Hormesis in humans exposed to low level ionizing radiation
  589. Radiation Hormesis: Stimulatory effects of low doses ionizing radiation
  590. Ethical principles for Hormesis policies
  591. Hormesis in regulatory risk assessment-science and science policy
  592. The role of MAPK in the Hormesis induced by CdCl_2 and HgCl_2 in RAW264. 7 cells
  593. Radiation Hormesis
  594. Commentary on ‘Resveratrol commonly displays Hormesis: Occurrence and biomedical significance’
  595. Advance of study on Hormesis of low dose radiation
  596. Occurrence of trace metal induced Hormesis
  597. The ethics of Hormesis–no fuss?
  598. Hormesis and the salk polio vaccine
  599. Radiation Hormesis using an x-ray radiography device. The fourth report. Radiation Hormesis of salad rocket
  600. Hormesis effect of low dose radiation on cellular DNA repair
  601. The ‘Holy Grail’and ‘Poisoned Chalice’Effects of Antipsychotics on Oxidative Stress in Schizophrenia: Can ‘Hormesis‘ Explain this Paradox?
  602. Hormesis: public health policy, organizational safety and risk communication
  603. Hormesis: Real effect, weak excuse
  604. Hormesis and toxic torts
  605. Hormesis and risk communication: a comment to Ortwin Renn
  606. Dietary energy intake, Hormesis, and health
  607. Whipsaw cancer treatments: The role of Hormesis in endocrine and immune therapies
  608. lonizing Radiation Hormesis in Crops
  609. Hormesis has emerged as a more common and fundamental dose-response model than the threshold or linear-no-threshold (LNT) models
  610. Hormesis: A peep in to the human nature
  611. Commentary on’Resveratrol commonly displays Hormesis: Occurrence and biomedical significance’by Calabrese et al
  612. Exercise and inflammatory diseases: beneficial effects of exercise as a stimulus of Hormesis
  613. The study of low dose radiation inducing Hormesis effect on hematopoietic system
  614. Is radiation-induced gene expression responsible for radiation Hormesis?
  615. Hormesis and Integrated Medicine
  616. Developing insights on the nature of the dose-response relationship in the low dose zone: Hormesis as a biological hypothesis
  617. What Toxicologists and Risk Assessors Think About Hormesis: Results of a Knowledge and Opintion Survey
  618. Differential response to Hormesis by laboratory evolved short-lived and long-lived cytoraces of nasuta-albomicans complex of Drosophila
  619. Hormesis in effect of low uranium doses on organisms.
  620. What is Hormesis. Was ist Hormesis
  621. Current status of research on radiation Hormesis in the immune system after low level radiation
  622. Commentary on ‘Resveratrol commonly displays Hormesis: Occurrence and biomedical significance’by Calabrese et al
  623. Exercise-induced Hormesis
  624. Couch potato: the antithesis of Hormesis
  625. Chemical Hormesis: Beneficial Effects at Low Exposures Adverse Effects at High Exposures
  626. The relationship between Hormesis of proliferation and oxidative stress induced by sodium arsenite in human embryo lung fibroblasts
  627. A mathematical modeling approach to characterize Hormesis, caloric restriction and toxicity in mortality data from toxicity studies
  628. Letter to the editor on ethics of expertise, informed consent, and Hormesis
  629. Economics and Hormesis
  630. Advance of study on Hormesis of low dose radiation
  631. The effect of JNK/SAPK signal transduction on Hormesis induced by cadmium
  632. Commentary on ‘Resveratrol commonly displays Hormesis: Occurrence and biomedical significance’
  633. Hormesis and ethics: introduction
  634. Application of chemical Hormesis concept to risk assessment: reproductive toxicity as an example
  635. Experimental Study on Hormesis of Formaldehyde and Its Damage Effect [J]
  636. Commentary on ‘Resveratrol commonly displays Hormesis: Occurrence and biomedical significance’by Calabrese et al
  637. Comments on “legal implications of Hormesis
  638. Research findings on radiation Hormesis and radon therapy
  639. Is the hygiene hypothesis an example of Hormesis?
  640. Analysis of a Hormesis effect in the leukemia-caused mortality among atomic bomb survivors
  641. Details and current status of the study on radioactive ray Hormesis. Hoshasen Hormesis kenkyu no keii to genjo
  642. Harmonization of Radiation for Human Life-Summary Report of Radiation Hormesis Research
  643. Radiation Hormesis
  644. The Effect of Low Dose Radiation on Tumor Growth and Hormesis in Erythrocyte System in the Tumor Bearing-Mice
  645. Hormesis, hypotheses and facts. Hormesis, Hypothesen and Fakten
  646. BSELLE newsletter commentary: does caloric restriction induce Hormesis?
  647. Hormesis and stress responses of human cells to chemical and physical hazards present at work places
  648. Statistical Approach to Detect and Estimate Hormesis
  649. L’Hormesis: Introduction
  650. Biomedical implications of Hormesis: Part I
  651. Legal implications of Hormesis?
  652. Radonotherapy and radiation Hormesis
  653. Comments on Ortwin Renn’s article ‘Hormesis and risk communication’: considerations about uncertainity, ignorance and governance
  654. Research status on radiation Hormesis at CRIEPI
  655. Samuel Hahnemann, Hormesis and a Probable Mechanism of Action of Homeopathic Remedies.
  656. Comment on “Legal implications of Hormesis” by Frank B. Cross
  657. Using nonlinear fixed and mixed models with switching functions to allow for Hormesis in growth of Escherichia coli
  658. Prediction of Hormesis in radon carcinogenesis
  659. Radiation Hormesis-retrospectivity and modernity
  660. SCIENCE, REGULATION, AND Hormesis
  661. Radiation Hormesis
  662. Problems of the mechanism of radiation and chemical Hormesis; Problemy mekhanizma radiatsionnogo i khimicheskogo gormezisa
  663. Radiation Hormesis
  664. Hormesis in aging: approaching cautiously
  665. Radiation Hormesis: high-radiation dose equivalents in hot springs enhancing curative practices
  666. Biomedical implications of Hormesis: Part II
  667. Hormesis: the benefical effects of radiation; Gormezis: blagopriyatnye ehffekty izlucheniya
  668. Secondary UV radiation from biota as a proof of radiation Hormesis and Gurwitsch phenomena
  669. 24A. Hormesis and Integrative Medicine
  670. Hormesis and toxic torts: traditional torts and claims for subclinical harm
  671. Physical improvements using Hormesis
  672. Radiation Hormesis: may the force be with you
  673. Human radio cancers and Hormesis an if we talk about it again?; Radiocancers humains et Hormesis et si on en reparlait
  674. Radiation Hormesis
  675. The study of Hormesis effection on mice by Zuibyougan
  676. Quantitative assessment of radiation Hormesis
  677. What is radiation Hormesis and how do you explain it?
  678. Hormesis, and the radiation effects paradigm
  679. Hormesis: the benefical effects of radiation
  680. Comments on “legal implications of Hormesis” by Frank B. Cross
  681. Response to questions on Hormesis and ethics
  682. Hormesis-hypotheses and facts
  683. Hormesis and dermatology
  684. Studies of regulative function of pineal gland on radiation Hormesis in the immune system after low dose radiation [J]
  685. RADIATION Hormesis (BENEFIT) REVISITED
  686. Hormesis–fact or fiction?
  687. Hormesis in plants, rather a rule then exception
  688. How living organisms detect very low doses? A new approach to homeopathy and Hormesis
  689. Comments on ‘Implications of Hormesis for industrial hygiene’
  690. Hormesis effect of glyphosate on common bean cultivars
  691. Hormesis is central to biology and medicine
  692. Hormesis makes a splash
  693. Hormesis effect of low dose radiation on cellular DNA repair
  694. RADIATION Hormesis; POSSIBILITIES AND CHALLENGES.
  695. The Hormesis challenge for environmental health regulators
  696. Radiation Hormesis in higher plants
  697. Radiation Hormesis in plant
  698. Mathematical model for assessing radiation Hormesis
  699. RADIATION Hormesis WITH INTERNAL AND EXTERNAL SOURCES
  700. Radiation Hormesis as a biological hypothesis
  701. Hormesis with Ionizing Radiation
  702. Radiation Hormesis at occupational exposure
  703. Review of ‘Implications of Hormesis for industrial hygiene’
  704. The basic molecular biology underlying radiation Hormesis
  705. Apitherapy, Hormesis and Homeopathy
  706. Verification of radiation Hormesis. Ask new paradigm
  707. Hormesis with Ionizing Radiation
  708. An explanation of radiation Hormesis for low-LET and high-LET radiation with the random coincidence model
  709. Whatever Doesn’t Kill You Might Make You Stronger: Hormesis
  710. Acetaldehyde burst protection of ADH1B* 2 against alcoholism: an additional Hormesis protection against esophageal cancers following alcohol consumption?
  711. The dynamics of radiation stimulated Hormesis and processes of DNA self-reparation at the combined action of ionizing irradiation on biological systems
  712. JP8 Induced Mutagenesis and Hormesis
  713. … of sublethal concentrations of imidacloprid and precocene on green peach aphid, Myzus persicae (Sulzer)(Hemiptera: Aphididae): A study of Hormesis at the gene …
  714. Human radio cancers and Hormesis an if we talk about it again?
  715. Postconditioning Hormesis
  716. Radiation Hormesis at occupational exposure
  717. Ways to identify and evaluate the Hormesis induced by toxic substances
  718. Hormesis: A New Lens for Improved Health & Resilience
  719. The notion of Hormesis and the dose-response theory: A unified approach
  720. opics in Toxicology: Hormesis and Toxicological Risk Assessment
  721. Crisis of radiobiology and its prospects associated with Hormesis studies
  722. A model to explain radiation Hormesis, its underlying mechanisms and comparisons with experimental data
  723. Hormesis: implications for policy making and risk communication: a reply
  724. Potential role of Hormesis in risk assessment in occupational toxicology
  725. Radiation Hormesis: a Useful Modality in Human Health
  726. Hormesis and the Law: Toxic Torts: A Reprint from” Belle Newsletter”
  727. … Annual International Conference on Hormesis: Implications for Toxicology, Medicine and Risk Assessment. The annual Meeting of the International Hormesis
  728. Radiation Hormesis in potatoes (Solanum tuberosum L.) part 1: Laboratory research
  729. Regulatory implementation and indeterminate Hormesis effects
  730. Radiation Hormesis and its future implications for radiological services in developing countries
  731. Detection of Hormesis by empirical data as an ill-posed problem
  732. Ultraviolet radiation: questions of hazard, homeostasis, or Hormesis?
  733. Medical and Therapeutic Radiation Hormesis: Preventing and Curing Cancer
  734. Enhancement of bio-functions by low-dose irradiation; A proposal of working hypothesis for mechanism of radiation Hormesis and its experimental study
  735. Radiation Hormesis: Beneficial effects of exposure to low levels of ionizing radiation. A critical review
  736. Studies on growth Hormesis and on altered sensitivity of mammalian cells during pathology
  737. Hormesis effects in pinto beans from ⁶⁰Co gamma radiation
  738. Hormesis on cell proliferation induced by MTBE and its significance [J]
  739. Radiation Hormesis: Magic Stones and Cancer, Part One
  740. Low level radiation: Hormesis and adaptive response
  741. The importance of the Hormesis-LNT controversy for practical radiation protection
  742. Impact of Hormesis by antimicrobials in Stenotrophomonas maltophilia
  743. Chemical/Radiation Hormesis Database, Evaluation of Hormetic Mechanisms and their Biomedical and Risk Assessment Implications
  744. Toxicity vs. Hormesis in evaluating health effects: applications to bioassays using marine organisms
  745. Radiation-induced reactions of the lungs: Hormesis, guideline on radiation protection in medicine
  746. Mild Stress and Healthy Aging: Applying Hormesis in Aging Research and Interventions
  747. Radiation Hormesis of radish (kaiwaredaikon) using an X-ray radiography device (the second report)
  748. Low dose radiation induced Hormesis and its mechanism of free radicals
  749. Experimental Studies and Human Epidemiological Evidence for Beneficial Low Level Radiation Effects and Radiation Hormesis: Review of Literature
  750. Role of ploidy of yeast cells under manifestation of radiation Hormesis
  751. Remarks about the LNT-Hormesis discrepancy and Cohen’s theory on indoor radon
  752. Hormesis of cell proliferation induced by sodium nitrite in L929 fibroblasts
  753. Dose Estimation of Radiation Exposure from Hormesis Cosmetics
  754. Age-specific mortality rate analyses suggest response from caloric restriction and Hormesis are due to separate mechanisms
  755. Hormesis of low dose radiation on the expression of cytokines in umbilical cord blood
  756. The Challenging Issue of Low Dose Radiation, Hormesis and Adaptive Response: Findings From Earth to Space
  757. Thermal stress responses in Caenorhabditis elegans: reproductive effects, natural variation and the costs of Hormesis
  758. Exhibition of Hormesis during allelopathic investigations in turnip (Brassica rapa L.)
  759. The effect of low dose radiation Hormesis in erythrocyte system metabolism in the tumor bearing-mice
  760. Search for Target Gene of Insulin-like Signal Transduction Pathway Related in the Lifespan Extension by Radiation Hormesis
  761. Hormesis by oxygen radicals that causes the life-span extension decreases in concentration of intracellular superoxide anion.
  762. RADIATION Hormesis: AN EVOLUTIONARY EXPECTATION INVALIDATING THE LINEAR NO-THRESHOLD (LNT) PREMISE.
  763. Hormesis effect of three nematicides on the dispersal of Ditylenchus destructor
  764. Phenomenon of Hormesis on γ-irradiated developing rat pups
  765. Hormesis of streptomycin on 6 species of marine microalgae
  766. Biphasic effect of alpha benzene hexachloride (α-BHC) on diethylnitrosamine-intiated hepatocarcinogenesis and possible Hormesis mechanism in rats.
  767. Using nonlinear non-monotonic hormetic models and designs for detecting and estimating Hormesis
  768. Hormesis effect of serum antioxidative system after low dose human whole blood gamma ray irradiation
  769. Developments of high physiological function technique for vegetable and flower nursery trees using radiation Hormesis and chemical analysis of the physiological …
  770. Hormesis of free radical detoxiication in bone marrow cells after low-dose gamma-ray radiation
  771. Precaution, institutions, incentives, heuristics, regulation and Hormesis: Comments onHormesis in precautionary regulatory culture: models preferences and the …
  772. Signal transduction mechanism on Hormesis of human marrow mesenchymal stem cell induced by low dose radiation
  773. Effect of a calcium ionophore in the process of Hormesis at the Crayfish Neuromuscular Junction
  774. Hormesis effect of organophosphorus pesticide glyphosate-isopropy lammonium on Heterosigma akashiwo
  775. Profiling of candidate target genes of insulin-like signal pathway related to lifespan extension due to Hormesis
  776. Chlordecone-CCl4 interactive hepatotoxicity-suppression of Hormesis and recovery
  777. PLANT Hormesis INDUCED BY ULTRAVIOLET LIGHT-C FOR INDUCING RESISTANCE OF BROWN ROT OF PEACHES
  778. Hormesis and adaptive response of survival in Hela cells induced by low dose X-ray irradiation
  779. Bimodality of x-radiation Hormesis effect on flax seedlings Linum Usitatissimum L., F Elongata
  780. Biphasic toxicodynamic features of some antimicrobial agents on microbial growth: a dynamic mathematical model and its implications on Hormesis
  781. Molecular mechanisms and reasons of radiation antagonism, self-induced radioprotective effect and Hormesis at combined action of ionizing radiation and free …
  782. Role of FOXO transcription factor in radiation adaptive response and Hormesis in Drosophila melanogaster
  783. Hormesis of specific IgG antibody to rabies virus in serum of mice irradiated with low dose γ-rays
  784. INDUCED RESISTANCE RESPONSE OF SWEETPOTATO TO FUSARIUM ROOT ROT BY UV-Hormesis
  785. The direct physico-molecular (nonenzyme) mechanism of Hormesis and dose-response self-induced radioprotective effect at combined action of weak ionizing …
  786. PS 69-125: Hormesis in Bromus rubens at multiple dose levels of glyphosate
  787. Observation of the pH-Induced Hormesis for the LDH Cytotoxicity Test of MSWI Baghouse Ash Extract
  788. Commentary on “Cancer Biology and Hormesis: Human Tumor Cell Lines Commonly Display Hormetic (Biphasic) Dose Responses” by Edward J. Calabrese
  789. Kinases-dependent metabolic shift towards the Phgdh-mediated serine synthesis enhances cardioprotection to oxidative stress as Hormesis to aldehydes
  790. Mitogen-responsive CD4+CD8- and CD4-CD8+ T cells are target of Hormesis induced by chronic low dose ionizing radiation dose (LDR) in mice
  791. Role of kinase JNK, SIRT deacetylase and transcriptional factor FOXO in radiation-induced aging, Hormesis and adaptive response in Drosophila melanogaster
  792. 2006 Conference of the International Hormesis Society: Stress Response Mechanisms: From Single Cells to Multinational Organizations
  793. … of low doses of gamma radiation of Co-60 (radio-Hormesis) in tomato seeds; Efeitos de baixas doses de radiacao gama do Co-60 (radio-Hormesis) em sementes de …
  794. 148 MELATONIN Hormesis AND ITS ROLE IN IDIOPATHIC SCOLIOSIS AND OSTEOPOROSIS PATHOGENESIS.
  795. … fuel masculinizes fishEPA to monitor air from animal feedlotsCleanup hazards of 9/11Insurer fights climate change| Hormesis gets massive data support …
  796. Effect of low doses of gamma radiation of Co-60 (radio-Hormesis) in tomato seeds
  797. How does Hormesis impact biology, toxicology, and medicine?
  798. Hormesis: a compelling platform for sophisticated plant science
  799. Hormesis: a fundamental concept in biology
  800. Hormesis: path and progression to significance
  801. Hormesis: principles and applications
  802. Herbicides and plant Hormesis
  803. Oxidative stress and Hormesis in evolutionary ecology and physiology
  804. Radiation Hormesis: historical and current perspectives
  805. Hormesis within a mechanistic context
  806. Overview of biological, epidemiological, and clinical evidence of radiation Hormesis
  807. Hormesis: the dose response for the 21st century: the future has arrived
  808. How do nutritional antioxidants really work: nucleophilic tone and para-Hormesis versus free radical scavenging in vivo
  809. Insecticide‐induced Hormesis and arthropod pest management
  810. Curcumin, Hormesis and the nervous system
  811. Hormesis and Ginkgo biloba (GB): Numerous biological effects of GB are mediated via Hormesis
  812. What is Hormesis and its relevance to healthy aging and longevity?
  813. Hormesis: from mainstream to therapy
  814. Mitochondrial Hormesis and diabetic complications
  815. Building biological shields via Hormesis
  816. Environmental Hormesis and its fundamental biological basis: rewriting the history of toxicology
  817. Temperature-induced Hormesis in plants
  818. Hormesis can enhance agricultural sustainability in a changing world
  819. Hormesis in plants under Cd exposure: from toxic to beneficial element?
  820. The two faces of nanomaterials: A quantification of Hormesis in algae and plants
  821. Hormesis and radiation safety norms: Comments for an update
  822. Environmental Hormesis, a fundamental non-monotonic biological phenomenon with implications in ecotoxicology and environmental safety
  823. Hormesis promotes evolutionary change
  824. Hydrocarbon-induced Hormesis: 101 years of evidence at the margin?
  825. Exercise-induced Hormesis and skeletal muscle health
  826. Modulating exercise-induced Hormesis: does less equal more?
  827. Hormesis: decoding two sides of the same coin
  828. Is “preparation for oxidative stress” a case of physiological conditioning Hormesis?
  829. Human and veterinary antibiotics induce Hormesis in plants: scientific and regulatory issues and an environmental perspective
  830. Hormesis as a mechanistic approach to understanding herbal treatments in traditional Chinese medicine
  831. Preconditioning is Hormesis part I: Documentation, dose-response features and mechanistic foundations
  832. Health effects of intermittent fasting: Hormesis or harm? A systematic review
  833. Hormesis in health and disease
  834. Blood flow restriction pressure recommendations: the Hormesis hypothesis
  835. Curcumin and Hormesis with particular emphasis on neural cells
  836. Hormesis: a fundamental concept with widespread biological and biomedical applications
  837. Reactive oxygen species, ageing and the Hormesis police
  838. Time in redox adaptation processes: from evolution to Hormesis
  839. Herbicide-mediated Hormesis
  840. Does Green Tea Induce Hormesis?
  841. The science of Hormesis in health and longevity
  842. Exercise, oxidants, and antioxidants change the shape of the bell-shaped Hormesis curve
  843. A general model of Hormesis in biological systems and its application to pest management
  844. Heat shock proteins and Hormesis in the diagnosis and treatment of neurodegenerative diseases
  845. Hormesis in plants: Physiological and biochemical responses
  846. Hormesis results in trade‐offs with immunity
  847. Plant Hormesis management with biostimulants of biotic origin in agriculture
  848. Inflammasomes, Hormesis, and antioxidants in neuroinflammation: Role of NRLP3 in Alzheimer disease
  849. Mediterranean diet and inflammaging within the Hormesis paradigm
  850. Chlorophyll Hormesis: are chlorophylls major components of stress biology in higher plants?
  851. Hormesis effects of silver nanoparticles at non-cytotoxic doses to human hepatoma cells
  852. Hormesis and defense of infectious disease
  853. Sex hormonal regulation and Hormesis in aging and longevity: role of vitagenes
  854. The role of Hormesis in the functional performance and protection of neural systems
  855. Occurrence and significance of insecticide-induced Hormesis in insects
  856. A dose of experimental Hormesis: When mild stress protects and improves animal performance
  857. Radiobiology and Radiation Hormesis
  858. The rare earth element (REE) lanthanum (La) induces Hormesis in plants
  859. Preconditioning is Hormesis part II: How the conditioning dose mediates protection: Dose optimization within temporal and mechanistic frameworks
  860. Radiation-Hormesis phenotypes, the related mechanisms and implications for disease prevention and therapy
  861. Hormesis mediates dose-sensitive shifts in macrophage activation patterns
  862. Life history trade-offs within the context of mitochondrial Hormesis
  863. Meta-analytic evidence for the anti-aging effect of Hormesis on Caenorhabditis elegans
  864. Does Hormesis foster organism resistance to extreme events?
  865. Dietary restriction improves proteostasis and increases life span through endoplasmic reticulum Hormesis
  866. Stress response and population dynamics: Is Allee effect Hormesis?
  867. Radiation Hormesis: the link to nanomolar hydrogen peroxide
  868. Progress in the studies on Hormesis of low-dose pollutants
  869. Major pathogenic mechanisms in vascular dementia: roles of cellular stress response and Hormesis in neuroprotection
  870. When less is more: Hormesis against stress and disease
  871. Lung cancer Hormesis in high impact states where nuclear testing occurred
  872. Reductive stress impairs myoblasts mitochondrial function and triggers mitochondrial Hormesis
  873. Ethylenediurea induces Hormesis in plants
  874. Selective mitochondrial superoxide generation in vivo is cardioprotective through Hormesis
  875. Similarities between the Yin/Yang doctrine and Hormesis in toxicology and pharmacology
  876. Lithium promotes longevity through GSK3/NRF2-dependent Hormesis
  877. Inflammaging, Hormesis and the rationale for anti-aging strategies
  878. Can poisons stimulate bees? Appreciating the potential of Hormesis in bee–pesticide research
  879. Hormesis-induced gap between the guidelines and reality in ecological risk assessment
  880. Insights into the role of energy source in Hormesis through diauxic growth of bacteria in mixed cultivation systems
  881. Inverse Hormesis of cancer growth mediated by narrow ranges of tumor-directed antibodies
  882. Silver nanoparticles induce Hormesis in A549 human epithelial cells
  883. Hormesis and ginseng: ginseng mixtures and individual constituents commonly display Hormesis dose responses, especially for neuroprotective effects
  884. Hormesis commonly observed in the assessment of aneuploidy in yeast
  885. Effect of low-dose ionizing radiation on luminous marine bacteria: radiation Hormesis and toxicity
  886. Evaluation of insecticides induced Hormesis on the demographic parameters of Myzus persicae and expression changes of metabolic resistance …
  887. Historical foundations of Hormesis
  888. Evolutionarily adapted Hormesis-inducing stressors can be a practical solution to mitigate harmful effects of chronic exposure to low dose chemical mixtures
  889. Can Hormesis of plant-released phytotoxins be used to boost and sustain crop production?
  890. Molecular mechanisms of low dose ionizing radiation-induced Hormesis, adaptive responses, radioresistance, bystander effects, and genomic instability
  891. Stimulating hair growth via Hormesis: Experimental foundations and clinical implications
  892. The linear no-threshold model is less realistic than threshold or Hormesis-based models: an evolutionary perspective
  893. Pre-and post-conditioning Hormesis in elderly mice, rats, and humans: its loss and restoration
  894. Glyphosate Hormesis in broad-leaved weeds: a challenge for weed management
  895. Hormesis effects of phosphorus on the viability of Chlorella regularis cells under nitrogen limitation
  896. Hormesis effects induced by cadmium on growth and photosynthetic performance in a Hyperaccumulator, Lonicera japonica Thunb.
  897. Sublethal and Hormesis effects of imidacloprid on the soybean aphid Aphis glycines
  898. Aging in the Perspective of Integrative Medicine, Psychoneuroendocrineimmunology and Hormesis
  899. Curcumin Hormesis mediates a cross-talk between autophagy and cell death
  900. PERM hypothesis: the fundamental machinery able to elucidate the role of xenobiotics and Hormesis in cell survival and homeostasis
  901. Hormesis in health and chronic diseases
  902. Changes of RNA N6-methyladenosine in the Hormesis effect induced by arsenite on human keratinocyte cells
  903. Intracellular second messengers mediate stress inducible Hormesis and Programmed Cell Death: A review
  904. Elimination of the Hormesis phenomenon by the use of synthetic sea water in a toxicity test towards Aliivibrio fischeri
  905. Hormesis, cellular stress response, and redox homeostasis in autism spectrum disorders
  906. Accumulator plants and Hormesis
  907. Hormesis in plants: The role of oxidative stress, auxins and photosynthesis in corn treated with Cd or Pb
  908. Model uncertainty via the integration of Hormesis and LNT as the default in cancer risk assessment
  909. Bt-induced Hormesis in Bt-resistant insects: Theoretical possibility or factual concern?
  910. UV-C Hormesis in broccoli florets: Preservation, phyto-compounds and gene expression
  911. Hormesis and Paradoxical Effects of Wheat Seedling (Triticum Aestivum L.) Parameters upon Exposure to Different Pollutants in a Wide Range of Doses
  912. Hormesis: highly generalizable and beyond laboratory
  913. Thiamethoxam induces transgenerational Hormesis effects and alteration of genes expression in Aphis gossypii
  914. Hormesis, cellular stress response and neuroinflammation in schizophrenia: early onset versus late onset state
  915. Targeting metabolic syndrome with phytochemicals: Focus on the role of molecular chaperones and Hormesis in drug discovery
  916. Regular time-dependent cross-phenomena induced by Hormesis: A case study of binary antibacterial mixtures to Aliivibrio fischeri
  917. Glyphosate Hormesis increases growth and yield of chickpea (Cicer arietinum l.)
  918. Hormesis depends upon the life-stage and duration of exposure: Examples for a pesticide and a nanomaterial
  919. A concept of radiation Hormesis: stimulation of antioxidant machinery in rats by low dose ionizing radiation.
  920. Mitochondrial stress extends lifespan in C. elegans through neuronal Hormesis
  921. The phytoprotective agent sulforaphane prevents inflammatory degenerative diseases and age-related pathologies via Nrf2-mediated Hormesis
  922. Predicting the Hormesis and toxicological interaction of mixtures by an improved inverse distance weighted interpolation
  923. Anti-oxidative cellular protection effect of fasting-induced autophagy as a mechanism for Hormesis
  924. Bt-toxin susceptibility and Hormesis-like response in the invasive southern armyworm (Spodoptera eridania)
  925. Mobile phone signal exposure triggers a Hormesis-like effect in Atm+/+ and Atm−/− mouse embryonic fibroblasts
  926. Lysosomes, autophagy, and Hormesis in cell physiology, pathology, and age-related disease
  927. Controlled abiotic stresses revisited: from homeostasis through Hormesis to extreme stresses and the impact on nutraceuticals and quality during pre-and postharvest …
  928. Mitochondrial toxins and healthy lifestyle meet at the crossroad of Hormesis
  929. Phytochemicals-induced Hormesis protects Caenorhabditis elegans against α-synuclein protein aggregation and stress through modulating HSF-1 and SKN-1 …
  930. Molecular gerontology: from homeodynamics to Hormesis
  931. Mitochondrial Hormesis links nutrient restriction to improved metabolism in fat cell
  932. Sulfonated graphene-induced Hormesis is mediated through oxidative stress in the roots of maize seedlings
  933. Sexual Success after Stress? Imidacloprid-Induced Hormesis in Males of the Neotropical Stink Bug Euschistus heros
  934. Transcriptomic analysis of Raphidocelis subcapitata exposed to erythromycin: The role of DNA replication in Hormesis and growth inhibition
  935. Low doses of fenoxaprop-p-ethyl cause Hormesis in littleseed canarygrass and wild oat
  936. Hormetic effects of metal ions upon V. fischeri and the application of a new parameter for the quantitative assessment of Hormesis
  937. Benefits from hazards: Mixture Hormesis induced by [emim] Cl despite its individual inhibitions
  938. Estimating the frequency of Hormesis and other non-monotonic responses in plants experiencing road traffic pollution in urban areas and experimental pollutant …
  939. Update on Hormesis and its relation to homeopathy
  940. The concept of Hormesis in cancer therapy–Is less more?
  941. Hormesis and immunity: a review
  942. Pollen biology and Hormesis: Pollen germination and pollen tube elongation
  943. Silver nanoparticle-induced Hormesis of astroglioma cells: A Mu-2-related death-inducing protein-orchestrated modus operandi
  944. Low concentrations of Al (III) accelerate the formation of biofilm: Multiple effects of Hormesis and flocculation
  945. Is use of radiation Hormesis the missing link to a better cancer treatment?
  946. A trigger mechanism of herbicides to phytoplankton blooms: From the standpoint of Hormesis involving cytochrome b559, reactive oxygen species and nitric oxide
  947. Antibiotic contaminants reduced the treatment efficiency of UV-C on Microcystis aeruginosa through Hormesis
  948. Radiation Safety and Hormesis
  949. Natural oxygenation of Champagne wine during ageing on lees: a metabolomics picture of Hormesis
  950. Hormesis and paradoxical effects of pea (Pisum sativum L.) parameters upon exposure to formaldehyde in a wide range of doses
  951. Herbicide Hormesis can act as a driver of resistance evolution in weeds – PSII‐target site resistance in Chenopodium album L. as a case study
  952. Hormesis: A potential strategic approach to the treatment of neurodegenerative disease
  953. Age-dependent Hormesis-like effects of the synthetic cannabinoid CP55940 in C57BL/6 mice
  954. Nutritional Hormesis in a Modern Environment
  955. Hormesis and homeopathy: The artificial twins
  956. Sublethal and Hormesis effects of clothianidin on the black cutworm (Lepidoptera: Noctuidae)
  957. Hormesis-like effect of mild larval crowding on thermotolerance in Drosophila flies
  958. Sublethal and Hormesis effects of beta-cypermethrin on the biology, life table parameters and reproductive potential of soybean aphid Aphis glycines
  959. Is Gcn4-induced autophagy the ultimate downstream mechanism by which Hormesis extends yeast replicative lifespan?
  960. Hormesis enables cells to handle accumulating toxic metabolites during increased energy flux
  961. The role of bacterial communities in shaping Cd-induced Hormesis in ‘living’soil as a function of land-use change
  962. Hormesis and public health: can glutathione depletion and mitochondrial dysfunction due to very low-dose chronic exposure to persistent organic pollutants be …
  963. … in the Dose Dependence of Separate and Combined In Vitro Cardiotoxicity Effects Induced by CdS and PbS Nanoparticles With Special Attention to Hormesis
  964. Hormesis Effects of Nano-and Micro-sized Copper Oxide
  965. Novel segmented concentration addition method to predict mixture Hormesis of chlortetracycline hydrochloride and oxytetracycline hydrochloride to Aliivibrio fischeri
  966. Time to reject the linear-no threshold hypothesis and accept thresholds and Hormesis: a petition to the US Nuclear Regulatory Commission
  967. A swinging seesaw as a novel model mechanism for time-dependent Hormesis under dose-dependent stimulatory and inhibitory effects: A case study on the toxicity of …
  968. Statistical models for biphasic dose-response relationships (Hormesis) in toxicological studies
  969. Adaptation to acrolein through upregulating the protection by glutathione in human bronchial epithelial cells: the materialization of the Hormesis concept
  970. Hormesis under oil-induced stress in Leersia hexandra Sw. used as phytoremediator in clay soils of the Mexican humid tropic
  971. Is There a Possibility to Involve the Hormesis Effect on the Soybean with Glyphosate Sub-Lethal Amounts Used to Control Weed Species Amaranthus retroflexus L.?
  972. Time-dependent Hormesis of chemical mixtures: a case study on sulfa antibiotics and a quorum-sensing inhibitor of Vibrio fischeri
  973. An analogous wood barrel theory to explain the occurrence of Hormesis: A case study of sulfonamides and erythromycin on Escherichia coli growth
  974. Allelopathic Hormesis and potent allelochemicals from multipurpose tree Moringa oleifera leaf extract
  975. Gene expression during imidacloprid-induced Hormesis in green peach aphid
  976. Hormesis in cancer immunology: Does the quantity of an immune reactant matter?
  977. Selective toxin effects on faster and slower growing individuals in the formation of Hormesis at the population level—A case study with Lactuca sativa and PCIB
  978. UV-B radiation Hormesis in broccoli florets: Glucosinolates and hydroxy-cinnamates are enhanced by UV-B in florets during storage
  979. The prospective mathematical idea satisfying both radiation Hormesis under low radiation doses and linear non-threshold theory under high radiation doses
  980. A comparison of the molecular mechanisms underpinning high-intensity, pulsed polychromatic light and low-intensity UV-C Hormesis in tomato fruit
  981. Azadirachtin-induced Hormesis mediating shift in fecundity-longevity trade-off in the Mexican bean weevil (Chrysomelidae: Bruchinae)
  982. The integration of LNT and Hormesis for cancer risk assessment optimizes public health protection
  983. Hormesis: umbrella mechanism only for agents present in the environment
  984. Exercise-induced oxidative stress: A tool for “Hormesis” and “adaptive response”
  985. Hormesis through low-dose radiation
  986. Low concentrations of FA exhibits the Hormesis effect by affecting cell division and the warburg effect
  987. Hormesis and homeopathy: a step forward
  988. pH affects the Hormesis profiles of personal care product components on luminescence of the bacteria Vibrio qinghaiensis sp.-Q67
  989. Umbelliprenin mediates its apoptotic effect by Hormesis: a commentary
  990. A comparison of low intensity UV-C and high intensity pulsed polychromatic sources as elicitors of Hormesis in tomato fruit
  991. Chemical Hormesis on plant pathogenic fungi and oomycetes
  992. Hormesis Effects of Amoxicillin on Growth and Cellular Biosynthesis of Microcystis aeruginosa at Different Nitrogen Levels
  993. Larval crowding results in Hormesis-like effects on longevity in Drosophila: timing of eclosion as a model
  994. Abiotic stress Hormesis: An approach to maintain quality, extend storability, and enhance phytochemicals on fresh produce during postharvest
  995. Is Hormesis an underestimated factor in the development of herbicide resistance?
  996. Does selective Hormesis impact herbicide resistance evolution in weeds? ACCase‐resistant populations of Alopecurus myosuroides Huds. as a case study
  997. Phosphatidylserine modulates response to oxidative stress through Hormesis and increases lifespan via DAF-16 in Caenorhabditis elegans
  998. Replacing LNT: the integrated LNT-Hormesis model
  999. Prediction of mixture toxicity from the Hormesis of a single chemical: A case study of combinations of antibiotics and quorum-sensing inhibitors with gram-negative …
  1000. Hormesis and trade-offs: a comment
  1001. Toxin-induced Hormesis may restrain aging
  1002. Hormesis with pesticides
  1003. Hormesis-Mediated Mechanisms Underlying Bioactivities of Phytochemicals
  1004. Exercise and Hormesis
  1005. Microbial influences on Hormesis, oncogenesis, and therapy: a review of the literature
  1006. Interspecies variability of plant Hormesis by the antiauxin PCIB in a laboratory bioassay
  1007. Hormesis of 2, 4-D Choline Salt in Biometric Aspects of Cotton
  1008. Weak intervention backfire and criminal Hormesis: Why some otherwise effective crime prevention interventions can fail at low doses
  1009. Post-conditioning Hormesis creates a “subtraction to background” disease process: biological, aging, and environmental risk assessment implications
  1010. Hormesis and Paradoxical Effects of Drooping Birch (Betula pendula Roth) Parameters Under Motor Traffic Pollution
  1011. Glyphosate Hormesis mitigates the effect of water deficit in safflower (Carthamus tinctorius L.)
  1012. Cysteine-induced Hormesis effect of silver nanoparticles
  1013. The effects of tissue regenerative status on Hormesis in dogs irradiated during their lifespan
  1014. Non‐targeted insecticidal stress in a pest species: insecticides, sexual fitness and Hormesis in the Neotropical brown stink bug Euschistus heros
  1015. Cereal grass juice in wound healing: Hormesis and cell-survival in normal fibroblasts, in contrast to toxic events in cancer cells
  1016. Exercise and intestinal permeability: another form of exercise-induced Hormesis?
  1017. Oxidative stress and the kidney: riding on the curve of Hormesis
  1018. Hormesis to segregate a weed population?–A case study with Tripleurospermum perforatum (Mérat) Lainz: Kann Herbizid-Hormesis eine Unkrautpopulation spalten …
  1019. Influence of Individual Radiosensitivity on the Hormesis Phenomenon: Toward a Mechanistic Explanation Based on the Nucleoshuttling of ATM Protein
  1020. Isoliquiritigenin Pretreatment Induces Endoplasmic Reticulum Stress-Mediated Hormesis and Attenuates Cisplatin-Induced Oxidative Stress and Damage in LLC-PK1 …
  1021. Hormesis effect of dichlorophenoxy acetic acid sub-doses and mepiquat chloride on cotton plant
  1022. Quantitative Evaluation of Hormesis in Breast Cancer Using Histoculture Drug Response Assay
  1023. … on biology and evolution v. 2.0:“Nothing in biology makes sense except in light of evolution and evolution’s dependence on Hormesis-mediated acquired resilience …
  1024. The Hormesis effect of plasma-elevated intracellular ROS on HaCaT cells
  1025. Not merely noxious? Time-dependent Hormesis and differential toxic effects systematically induced by rare earth elements in Escherichia coli
  1026. Studying Gene Expression in Irradiated Barley Cultivars: PM19L-like and CML31-like Expression as Possible Determinants of Radiation Hormesis Effect
  1027. Hormesis of glyceollin I, an induced phytoalexin from soybean, on budding yeast chronological lifespan extension
  1028. Glyphosate-induced Hormesis: impact on seedling growth and reproductive potential of common sowthistle (Sonchus oleraceus)
  1029. Hormesis of mercuric chloride-human serum albumin adduct on N9 microglial cells via the ERK/MAPKs and JAK/STAT3 signaling pathways
  1030. Logistic Regression Models with Unspecified Low Dose–Response Relationships and Experimental Designs for Hormesis Studies
  1031. Myocardial redox Hormesis protects the heart of female mice in sepsis
  1032. 7-Isopenthenyloxycoumarin, arctigenin, and hesperidin modify myeloid cell leukemia type-1 (Mcl-1) gene expression by Hormesis in K562 cell line
  1033. Hormesis of methylmercury-human serum albumin conjugate on N9 microglia via ERK/MAPKs and STAT3 signaling pathways
  1034. Low Dose Astaxanthin Treatments Trigger the Hormesis of Human Astroglioma Cells by Up-Regulating the Cyclin-Dependent Kinase and Down-Regulated the Tumor …
  1035. Overview of Hematopoietic Stem Cells in Systemic Cancer Treatment, Aging, Pregnancy, and Radiation Hormesis
  1036. Herbicide toxicity, selectivity and Hormesis of nicosulfuron on 10 Trichogrammatidae (Hymenoptera) species parasitizing Anagasta ( = Ephestia) kuehniella …
  1037. Para-Hormesis: an innovative mechanism for the health protection brought by antioxidants in wine
  1038. Trans-Generational Impacts of Paternal Irradiation in a Cricket: Damage, Life-History Features and Hormesis in F1 Offspring
  1039. Resilience in developmental science: A case for Hormesis
  1040. Radiation safety standards and Hormesis
  1041. Hormesis in cholestatic liver disease; preconditioning with low bile acid concentrations protects against bile acid-induced toxicity
  1042. Traces of Imidacloprid Induce Hormesis as a Stimulatory Conditioned Response of Sweetpotato Whitefly (Hemiptera: Aleyrodidae)
  1043. Homeopathy, Hormesis, nanoparticles and nanostructures
  1044. Ionizing Radiation and Translation Control: A Link to Radiation Hormesis?
  1045. Anoxia-conditioning Hormesis alters the relationship between irradiation doses for survival and sterility in the cactus moth, Cactoblastis cactorum (Lepidoptera …
  1046. Hormesis for healthy aging
  1047. Unequal brothers: are homeopathy and Hormesis linked?
  1048. Temporal stability of chemical Hormesis (CH): Is CH just a temporary stop on the road to thresholds and toxic responses?
  1049. Nutrient removal by Chlorella vulgaris F1068 under cetyltrimethyl ammonium bromide induced Hormesis
  1050. Hormesis of some organic solvents on Vibrio qinghaiensis sp.-Q67 from first binding to the β subunit of luciferase
  1051. The influence of nitrogen and phosphorous status on glyphosate Hormesis in Lemna minor and Hordeum vulgare
  1052. The materialist view of homeopathy: an alternative hypothesis and the connection with Hormesis
  1053. Protection against renal ischemia–reperfusion injury through Hormesis? Dietary intervention versus cold exposure
  1054. The dose–response revolution: how Hormesis became significant: an historical and personal reflection
  1055. Originator of the Hormesis concept: Rudolf Virchow or Hugo Schulz
  1056. Two decades (1998–2018) of research Progress on Hormesis: advancing biological understanding and enabling novel applications
  1057. The Hormesis of thinking: A deeper quantum thermodynamic perspective?
  1058. A web-based tool for designing experimental studies to detect Hormesis and estimate the threshold dose
  1059. Look different: effect of radiation Hormesis on the survival rate of immunosuppressed mice
  1060. The Caenorhabditis elegans HP1 family protein HPL-2 maintains ER homeostasis through the UPR and Hormesis
  1061. New understanding of the low-dose radiation-induced Hormesis
  1062. Natural background radiations, radioadaptive response and radiation Hormesis
  1063. Proteomic profile changes associated with diminished expression of T-cell intracellular antigens reveal a Hormesis response
  1064. Metabolic memory enhances Hormesis effect to the copper ions in age-depended manner
  1065. Hormesis and homeopathy: toward a new self-consciousness
  1066. The impact of water regimes on Hormesis by glyphosate on common bean
  1067. Chlorpyrifos-induced Hormesis in insecticide-resistant and-susceptible Plutella xylostella under normal and high temperatures
  1068. Kinase inhibition leads to Hormesis in a dual phosphorylation-dephosphorylation cycle
  1069. Perspectives on Hormesis and Implications for Pesticides
  1070. Linear no-threshold (LNT) vs. Hormesis: paradigms, assumptions, and mathematical conventions that bias the conclusions in favor of LNT and against Hormesis
  1071. Lepidium sativum L. Hormesis induced by heavy metal stress for seed germination and seedling growth
  1072. Antioxidants and cancer: A debate on prevention, progression, Hormesis, and cruciferous vegetables
  1073. … and environment: memoir of establishing the Japanese environmental mutagen society and a proposal for a new collaborative study on mutagenic Hormesis
  1074. 2, 4-D Hormesis effect on soybean
  1075. Primary Stress Response Pathways for Preconditioning and Physiological Hormesis
  1076. Hormesis, Resilience and Mental Health: Enhancing Public Health and Therapeutic Options
  1077. The synthetic elicitor 2-(5-bromo-2-hydroxy-phenyl)-thiazolidine-4-carboxylic acid links plant immunity to Hormesis
  1078. Hormesis in the brown citrus aphid, Toxoptera citricida (Kirkaldy)(Hemiptera: Aphididae) exposed to sublethal doses of imidacloprid
  1079. Estimation of a benchmark dose in the presence or absence of Hormesis using posterior averaging
  1080. Hormesis in cancer immunology.
  1081. A catechin-enriched green tea extract prevents glucose-induced survival reduction in Caenorhabditis elegans through sir-2.1 and uba-1 dependent Hormesis
  1082. Hormesis in Health and Disease: Molecular Mechanisms
  1083. Oxidative Stress: An Example of Hormesis.
  1084. Generation of BSA-capsaicin Nanoparticles and Their Hormesis Effect on the Rhodotorula mucilaginosa Yeast
  1085. Hormesis effect of hydrogen peroxide on the promoter activity of neuropeptide receptor PAC1‐R
  1086. Hormesis
  1087. Effect of photon Hormesis on dose responses to alpha particles in zebrafish embryos
  1088. Nicosulfuron plus atrazine herbicides and Trichogrammatidae (Hymenoptera) in no-choice test: selectivity and Hormesis
  1089. Hormesis Mediates Acquired Resilience: Using Plant-Derived Chemicals to Enhance Health
  1090. An enzymatic Hormesis box
  1091. Stimulatory Effects of Boscalid on Virulence of Sclerotinia sclerotiorum Indicate Hormesis May Be Masked by Inhibitions
  1092. First study of Hormesis effect on mushroom cultivation
  1093. Nitrogen availability and glyphosate Hormesis on white oat
  1094. Provocation of life functions at a unicellular eukaryote level by extremely low doses of mammalian hormones: Evidences of Hormesis
  1095. Evidence of Hormesis on human neuronal SK-N-BE cells treated with sodium arsenate: impact at the mitochondrial level
  1096. Biological effects of a radiation Hormesis sheet emitting very low-dose-rate γ rays
  1097. What is Hormesis?
  1098. Hormesis running hot and cold
  1099. Effect of Hormesis in Food
  1100. Hormesis and hormetins for healthy ageing and longevity
  1101. Remote Ischemic Conditioning as a Form of Hormesis
  1102. Radiation Hormesis in the light of the laws of quantum thermodynamics
  1103. Structured development and promotion of a research field: Hormesis in biology, toxicology, and environmental regulatory science
  1104. Mitochondrial Hormesis
  1105. Variation in oxidative stress threats and Hormesis across environments
  1106. Study of some biochemical and molecular changes induced by radiation Hormesis in testicular tissues of male rats
  1107. Challenging Aging The Anti-senescence Effects of Hormesis, Environmental Enrichment and Information Exposure
  1108. Hormesis-Like Benefits of Physical Exercises Due To Increased Reactive Oxygen Species
  1109. The Hormesis effects of low-dose 60Co gamma irradiation on high-temperature tolerance in cultivated Sargassum horneri (Fucales, Phaeophyceae)
  1110. Reproductive ability enhancement of housefly (Musca domestica Linn)(Diptera: Muscidae) through Hormesis by application of sublethal doses of imidacloprid …
  1111. Hormesis Effect of Herbicides Subdoses on Submerged Macrophytes in Microassay Conditions
  1112. The cost of Hormesis
  1113. 3-Bromopyruvate elevates ROS and induces Hormesis to exert a caloric restriction mimetic effect in young and old rats
  1114. Epigenetic-based Hormesis and age-dependent altruism: Additions to the behavioural constellation of deprivation
  1115. Historical and Contemporary Issues of Oxidative Stress, Hormesis and Life-History Evolution
  1116. Ionizing Radiation: Dose Tolerability and Hormesis
  1117. Hormesis and cognitive function: an evolutionary/adaptive arabesque leading to longevity
  1118. Hormesis, mithridatism and Paracelsus: A little oxidative stress goes a long way
  1119. Hormesis method for increasing oat straw with a view to viability of direct-seeding systems1
  1120. Iron, Hormesis, and protection in acute kidney injury
  1121. Hormesis phenomena of some parameter aspect in usage of water lettuce (Pistia stratiotes L.) for phytoremediation process of petroleum liquid waste
  1122. Early-life Hormesis and oxidative experiences fine-tune the adult phenotype
  1123. Assessment of changes in organic acid and sugar profiles of tomato fruits induced by uv-c Hormesis
  1124. Toxicological effects of drugs (Diclofenac, Ibuprofen, mixture) and Hormesis on a non-target organism: Paramecium sp
  1125. Abiotic stress Hormesis: hormetic stresses to maintain quality and enhance glucosinolates and phenolic compounds in broccoli (Brassica oleracea var. italica) during …
  1126. On an extended understanding of the term” Hormesis” for denoting alternating directions of the organism’s response to increasing adverse exposures.
  1127. Cellular Stress Response, Hormesis, and Vitagens in Aging and Longevity: Role of mitochondrial “Chi”
  1128. Radiobiology and radiation Hormesis: New evidence and its implications for medicine and society
  1129. Photon Hormesis deactivates alpha-particle induced bystander effects between zebrafish embryos
  1130. Erratum: Mitochondrial Hormesis links nutrient restriction to improved metabolism in fat cell
  1131. Oxidative stress response pathways: role of redox signaling in Hormesis
  1132. Glyphosate herbicide causes Hormesis in wheat.
  1133. Life history trade-offs and the role of ectothermy in Hormesis
  1134. Glyphosate Hormesis variation in common bean due to nitrogen coverage
  1135. PEK-1 is crucial for Hormesis induced by inhibition of the IRE-1/XBP-1 pathway in the Caenorhabditis elegans mev-1 mutant
  1136. Hormesis is induced in the red flour beetle Tribolium castaneum through ingestion of charred toast
  1137. Lifelong diet including common unsaturated fatty acids extends the lifespan and affects oxidation in Caenorhabditis elegans consistently with Hormesis model
  1138. Whole Body Hyperthermia Induced Phenomenon of Hormesis (Experimental Study)
  1139. Movers of Radiation Hormesis
  1140. Modeling Hormesis Using a Non-Monotonic Copula Method
  1141. 22. The French paradox revisited: cardioprotection via Hormesis, red wine and resveratrol
  1142. Radiation induced Hormesis and its cytological evaluation in sunnhemp Crotalaria juncea L.
  1143. Mild Stress-Induced Hormesis: Hopes and Challenges
  1144. RADIATION Hormesis
  1145. SUPPLEMENTARY INFORMATION: KINASE INHIBITION LEADS TO Hormesis IN A DUAL PHOSPHORYLATION-DEPHOSPHORYLATION CYCLE
  1146. Radiation Hormesis: fact or myth?
  1147. Circadian Regulation of Hormesis for Health and Longevity
  1148. 12 Molecular Stress Response Pathways as the Basis of Hormesis
  1149. Hormesis effects of spraying lanthanum and cerium on membrane permeability of soyabean.
  1150. Model Averaging with AIC Weights for Hypothesis Testing of Hormesis at Low Doses
  1151. Hormesis of drugs for infectious diseases
  1152. Hormesis with the aid of dynamic systems
  1153. … radiation energy technology Truth of the environmental pollution and impact on the human bod Low level (ionizing) radiation Hormesis (health promotion and curing …
  1154. Hormesis ultraviolet radiation and its effects on Drosophila melanogaster performance
  1155. Transgenerational effects of herbicide Hormesis in PSII target-site-resistant Chenopodium album L.
  1156. Emergence of Hormesis in a simple enzyme kinetic model
  1157. Evaluation of maize submitted to Hormesis.
  1158. Investigating the Relationship Between DNA Damage and Hormesis in Saccharomyces cerevisiae Chronological Aging
  1159. Low-Dose Ionizing Radiation Solid Cancer Risk in Adults: Radiation Hormesis Study Design
  1160. Controversy Hormesis or linear model without threshold: Review or inaction
  1161. The SkepDoc: Is Low-Dose Radiation Good for You? The Questionable Claims for Hormesis
  1162. Exploring Concentration and Duration Dependence in Hormesis
  1163. The effects of low dose radiation. Radiation Hormesis
  1164. Hormesis Arising in a Simple Enzyme Kinetic Model
  1165. Predicting Hormesis in mixtures of herbicidal compounds-where are we and how far can we go?
  1166. Glyphosate Hormesis mitigates the effect of water deficit in safflower (Carthamus tinctorius L.)
  1167. Modeling Hormesis Using a Non-Monotonic Copula Method
  1168. Effects of photon Hormesis on cells irradiated by alpha particles
  1169. TGH: Trans-Generational Hormesis and the Inheritance of Aging Resistance
  1170. Research on Hormesis of Heavy Metal Enrichment in Organisms
  1171. Radioactive Hormesis: definitions, misconceptions, debates and its relevance to risk assesment and environmental safety technologies. Proceedings
  1172. Hormesis in Aging Research and Therapy-Suresh IS Rattan Practical Limitations of Prescribing Stress as an Anti-aging Treatment-Valery E. Forbes Hormesis, Aging …
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