Jeffrey Mogil

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Jeffrey Mogil
Born
Jeffrey Steven Mogil

(1966-08-24) August 24, 1966 (age 57)
Toronto, Ontario, Canada
NationalityCanadian
Alma materUniversity of Toronto, UCLA
Known forPain research, transdisciplinary research, sex differences
AwardsFellow of the Canadian Academy of Health Sciences, Fellow of the Royal Society of Canada, Distinguished Career Award of the Canadian Pain Society, Bennet Cohen Award from the International Council for Laboratory Animal Science, SGV Award, Frederick W.L. Kerr Basic Science Research Award and Elizabeth Narcessian Award for Outstanding Educational Achievement from the American Pain Society
Scientific career
FieldsNeuroscience, neurogenetics
InstitutionsUniversity of Illinois at Urbana–Champaign, McGill University
Doctoral advisorJohn Liebeskind
WebsiteMOGILab.ca

Jeffrey S. Mogil, FCAHS, FRSC (born August 24, 1966) is a Canadian neuroscientist and the E.P. Taylor Professor of Pain Studies and Canada Research Chair in the Genetics of Pain (Tier I) at McGill University.[1] He is known for his work in the genetics of pain,[2] for being among the first scientists to demonstrate sex differences in pain perception,[3] and for identifying previously unknown factors and confounds that affect the integrity of contemporary pain research.[4] He has an h-index of 90.[5]

Biography[edit]

Jeffrey Mogil was born in Toronto, Ontario, Canada. He obtained his B.Sc. (Hons.) from the University of Toronto, and his Ph.D. from the University of California, Los Angeles in 1993. Following a postdoctoral fellowship at Oregon Health Sciences University, he obtained a faculty position at the University of Illinois at Urbana-Champaign from 1996 to 2001 before moving to McGill University in 2001 as full professor.

Positions[edit]

  • Director of the Alan Edwards Centre for Research on Pain
  • Founder and director of the North American Pain School (NAPS)
  • Canada Research Chair in the Genetics of Pain (Tier I)

Awards[edit]

Scientific contributions[edit]

Sex differences in pain mechanisms[edit]

Mogil and colleagues have published many papers detailing how the physiological mechanisms underlying pain perception differ by sex in laboratory rodents and humans,[6] and he was among the first to call for the inclusion of female rodents in biomedical research.[7][8] He was the founding Co-Chair of the Special Interest Group in Sex, Gender and Pain at the International Association for the Study of Pain. His team showed in 2015[9] that male and female mice were employing wholly different immune cells—microglia and T cells, respectively—in the spinal cord to process chronic pain. This finding was immediately influential within the scientific community[10] and widely covered in the media.[11][12][13] It was voted the #1 discovery of 2015 by Quebec Science magazine,[14] inspired an editorial in the New York Times,[15] was chosen as one of 10 milestones in pain research from 2000 BC to the present by Nature,[16] and was cited by funding agencies in Canada[17] and the United States[18] in support of new Sex as a Biological Variable policies.

Other notable sex difference findings from his group include a meta-analysis showing that women are more sensitive to pain than men;[19] morphine analgesia, stress-induced analgesia, and opioid-induced hyperalgesia are mediated by different neurochemical receptors in the two sexes (NMDA receptors and V1AR receptors in males, and MC1Rs in females) in male and female mice and humans;[20][21][22][23][24] male and female mice have equivalent variability in pain sensitivity;[8] pain variability is due to different genes in both sexes;[25][26][23] female mice are more sensitive to itch than male mice;[27] pain reduces sexual desire in male but not female mice;[28] sex differences in morphine analgesia may be mediated by T cells;[29] pain affects dominance hierarchy in male but not female mice;[30] and, male but not female mice and humans display classically conditioned pain hypersensitivity.[31]

Development of rodent "Grimace scale"[edit]

For the past century, the measurement of pain in rodent biomedical research was considered complicated and imprecise, and many researchers suggested there is a mismatch between human clinical pain symptoms and established procedures in rodents.[32][33] Based on the human Neonatal Facial Coding Scale,[34] which is itself based on the Facial Action Coding System, Mogil and colleagues developed the Mouse Grimace Scale[35] and the Rat Grimace Scale. The original findings were highly cited,[36] widely covered in the scientific press,[37] and Mogil was awarded the Bennet Cohen Award from the International Council for Laboratory Animal Science[38] and the SGV Award from the Swiss Laboratory Animal Science Association[39] for the finding. Grimace scales are now routinely used in institutional veterinary settings for the determination of post-operative pain in animals, and have been developed for 10 species: mice, rats, rabbits, cats, horses, cows, pigs, sheep, ferret, and seal.[40]

Mogil's laboratory has made a number of other advances in algesiometry or dolorimetry (i.e., pain testing in animals) including the development of an animal model of vulvodynia.[41][42][43]

Demonstration of empathy in mice[edit]

Although a handful of controversial papers from the 1950s and 1960s had suggested that non-primate mammals might be capable of altruism,[44][45] Mogil's group was the first to provide modern evidence that mice were capable of emotional contagion of pain, a form of empathy.[46][47] They showed that mice display more pain behavior if they are tested in close proximity to other mice also in pain, but only if the two mice are familiar with each other. This finding, which was also widely covered in the press,[48] launched a renaissance of new research into the topic of rodent social abilities.[49]

Mogil's lab subsequently showed[50] that familiar (but not stranger) humans also demonstrate highly similar emotional contagion of pain, and that reduction of stress via metyrapone treatment or a shared social experience (playing the videogame Rock Band together) can elicit empathy in strangers. This study was covered in the popular press,[51] including an episode of the TED Radio Hour.[52]

Discovery of pain genes[edit]

Using both quantitative trait locus mapping and genetic association study (including GWAS) techniques, Mogil's laboratory has provided evidence for the involvement of over 25 genes with pain and analgesia. The most notable of these was the demonstration in 2003[23] that the MC1R gene, most well known for its mutations causing red hair,[53] is associated with Κ-opioid analgesia in women but not men. This finding was featured in the popular press.[54][55]

Discovery of factors affecting experiments[edit]

Mogil and colleagues revealed a number of previously unidentified factors affecting the conclusions drawn from biomedical experiments. In 1996, they demonstrated  that the newly discovered orphan opioid peptide, orphanin FQ/nociception, did not produce hyperalgesia as originally reported,[56][57] but rather was reversing the stress-induced analgesia resulting from the intracerebroventricular injection through which it was administered.[58] In 1999, they showed that different inbred strains of mice displayed very different pain sensitivity.[59]

Chief among these methodological confounds was the observation that mice display a stress response to the presence of nearby males of a number of mammalian species, including human male experimenters,[4] calling into question the results of thousands of studies in the animal literature when the sex of the experimenter was not controlled, an animal equivalent to the "sweaty t-shirt study" in humans. This finding led to torrent of media activity, with articles on the finding in The New York Times,[60] National Geographic,[61] The Atlantic,[62] The Economist,[63] The New Yorker,[64] Time,[65] and U.S. News & World Report,[66] among others, and radio appearances on NPR’s Science Friday,[67] BBC World Service’s “Newsday[68] and CBC’s “As It Happens”.[69]

References[edit]

  1. ^ "Pain Genetics Lab". www.psych.mcgill.ca. Retrieved 2020-07-05.
  2. ^ "Jeffrey Mogil: Not just a disco-loving geneticist". STAT. 2016-03-19. Retrieved 2020-07-05.
  3. ^ Dance, Amber (2019-03-27). "Why the sexes don't feel pain the same way". Nature. 567 (7749): 448–450. Bibcode:2019Natur.567..448D. doi:10.1038/d41586-019-00895-3. PMID 30918396. S2CID 85527866.
  4. ^ a b Sorge, Robert E; Martin, Loren J; Isbester, Kelsey A; Sotocinal, Susana G; Rosen, Sarah; Tuttle, Alexander H; Wieskopf, Jeffrey S; Acland, Erinn L; Dokova, Anastassia; Sternberg, Wendy; Mogil, Jeffrey S. (2014-04-28). "Olfactory exposure to males, including men, causes stress and related analgesia in rodents". Nature Methods. 11 (6): 629–632. doi:10.1038/nmeth.2935. ISSN 1548-7091. PMID 24776635. S2CID 8163498.
  5. ^ "Jeffrey Mogil - Google Scholar Citations". scholar.google.com. Retrieved 2021-07-27.
  6. ^ Mogil, Jeffrey S. (2020-05-21). "Qualitative sex differences in pain processing: emerging evidence of a biased literature". Nature Reviews Neuroscience. 21 (7): 353–365. doi:10.1038/s41583-020-0310-6. ISSN 1471-003X. PMID 32440016. S2CID 218772997.
  7. ^ Mogil, Jeffrey S. (2016). "Perspective: Equality need not be painful". Nature. 535 (7611): S7. Bibcode:2016Natur.535S...7M. doi:10.1038/535s7a. ISSN 0028-0836. PMID 27410531. S2CID 4468810.
  8. ^ a b Mogil, Jeffrey S.; Chanda, Mona Lisa (2005). "The case for the inclusion of female subjects in basic science studies of pain". Pain. 117 (1): 1–5. doi:10.1016/j.pain.2005.06.020. ISSN 0304-3959. PMID 16098670. S2CID 40135860.
  9. ^ Sorge, Robert E; Mapplebeck, Josiane C S; Rosen, Sarah; Beggs, Simon; Taves, Sarah; Alexander, Jessica K; Martin, Loren J; Austin, Jean-Sebastien; Sotocinal, Susana G; Chen, Di; Yang, Mu (2015-06-29). "Different immune cells mediate mechanical pain hypersensitivity in male and female mice". Nature Neuroscience. 18 (8): 1081–1083. doi:10.1038/nn.4053. ISSN 1097-6256. PMC 4772157. PMID 26120961.
  10. ^ "Google Scholar". scholar.google.com. Retrieved 2020-07-04.
  11. ^ "Sex Differences in Pain Pathway". The Scientist Magazine®. Retrieved 2020-07-04.
  12. ^ "Sexism in mouse research can lead to medical harm to women, scientists warn". CBC. Apr 20, 2016. Retrieved July 4, 2020.
  13. ^ "A Fix For Gender-Bias In Animal Research Could Help Humans". NPR. Feb 10, 2016. Retrieved July 4, 2020.
  14. ^ "Les découvertes de l'année édition 2015".
  15. ^ The Editorial Board (July 18, 2015). "Why Science Needs Female Mice". The New York Times.
  16. ^ Pain, Stephanie (2016). "Painful progress". Nature. 535 (7611): S18–S19. Bibcode:2016Natur.535S..18P. doi:10.1038/535s18a. ISSN 0028-0836. PMID 27410528. S2CID 4394866.
  17. ^ "Does sex make a difference in preclinical research". Canadian Institutes of Health Research. 2 September 2015.
  18. ^ Clayton, Janine Austin (2015-10-29). "Studying both sexes: a guiding principle for biomedicine". The FASEB Journal. 30 (2): 519–524. doi:10.1096/fj.15-279554. ISSN 0892-6638. PMC 4714546. PMID 26514164.
  19. ^ Mogil, Jeffrey S. (2012-11-20). "Sex differences in pain and pain inhibition: multiple explanations of a controversial phenomenon". Nature Reviews Neuroscience. 13 (12): 859–866. doi:10.1038/nrn3360. ISSN 1471-003X. PMID 23165262. S2CID 205508189.
  20. ^ Juni, Aaron; Cai, Minying; Stankova, Magda; Waxman, Amanda R.; Arout, Caroline; Klein, Gad; Dahan, Albert; Hruby, Victor J.; Mogil, Jeffrey S.; Kest, Benjamin (2010). "Sex-specific Mediation of Opioid-induced Hyperalgesia by the Melanocortin-1 Receptor". Anesthesiology. 112 (1): 181–188. doi:10.1097/aln.0b013e3181c53849. ISSN 0003-3022. PMC 4642894. PMID 19996949.
  21. ^ Mogil, Jeffrey S; Sorge, Robert E; LaCroix-Fralish, Michael L; Smith, Shad B; Fortin, Anny; Sotocinal, Susana G; Ritchie, Jennifer; Austin, Jean-Sebastien; Schorscher-Petcu, Ara; Melmed, Kara; Czerminski, Jan (2011-10-23). "Pain sensitivity and vasopressin analgesia are mediated by a gene-sex-environment interaction". Nature Neuroscience. 14 (12): 1569–1573. doi:10.1038/nn.2941. ISSN 1097-6256. PMC 3225498. PMID 22019732.
  22. ^ Mogil, Jeffrey S.; Sternberg, Wendy F.; Kest, Benjamin; Marek, Przemyslaw; Liebeskind, John C. (1993). "Sex differences in the antagonism of swim stress-induced analgesia: effects of gonadectomy and estrogen replacement". Pain. 53 (1): 17–25. doi:10.1016/0304-3959(93)90050-y. ISSN 0304-3959. PMID 8316385. S2CID 9554241.
  23. ^ a b c Mogil, J. S.; Wilson, S. G.; Chesler, E. J.; Rankin, A. L.; Nemmani, K. V. S.; Lariviere, W. R.; Groce, M. K.; Wallace, M. R.; Kaplan, L.; Staud, R.; Ness, T. J. (2003-03-27). "The melanocortin-1 receptor gene mediates female-specific mechanisms of analgesia in mice and humans". Proceedings of the National Academy of Sciences. 100 (8): 4867–4872. Bibcode:2003PNAS..100.4867M. doi:10.1073/pnas.0730053100. ISSN 0027-8424. PMC 153647. PMID 12663858.
  24. ^ Nemmani, Kumar V.S.; Grisel, Judith E.; Stowe, Jennifer R.; Smith-Carliss, Richard; Mogil, Jeffrey S. (2004). "Modulation of morphine analgesia by site-specific N-methyl-d-aspartate receptor antagonists: dependence on sex, site of antagonism, morphine dose, and time". Pain. 109 (3): 274–283. doi:10.1016/j.pain.2004.01.035. ISSN 0304-3959. PMID 15157688. S2CID 39388974.
  25. ^ Mogil, Jeffrey S; Richards, Susan P; OʼToole, Laurie A; Helms, Melinda L; Mitchell, Steve R; Belknap, John K (1997). "Genetic sensitivity to hot-plate nociception in DBA/2J and C57BL/6J inbred mouse strains: possible sex-specific mediation by δ2-opioid receptors". Pain. 70 (2): 267–277. doi:10.1016/s0304-3959(97)03333-2. ISSN 0304-3959. PMID 9150302. S2CID 40024813.
  26. ^ Mogil, Jeffrey S.; Richards, Susan P.; O’Toole, Laurie A.; Helms, Melinda L.; Mitchell, Steve R.; Kest, Benjamin; Belknap, John K. (1997-10-15). "Identification of a Sex-Specific Quantitative Trait Locus Mediating Nonopioid Stress-Induced Analgesia in Female Mice". The Journal of Neuroscience. 17 (20): 7995–8002. doi:10.1523/jneurosci.17-20-07995.1997. ISSN 0270-6474. PMC 6793900. PMID 9315917. S2CID 7661162.
  27. ^ Green, Amanda D.; Young, Katrina K.; Lehto, Sonya G.; Smith, Shad B.; Mogil, Jeffrey S. (2006). "Influence of genotype, dose and sex on pruritogen-induced scratching behavior in the mouse". Pain. 124 (1): 50–58. doi:10.1016/j.pain.2006.03.023. ISSN 0304-3959. PMID 16697529. S2CID 37352122.
  28. ^ Farmer, M. A.; Leja, A.; Foxen-Craft, E.; Chan, L.; MacIntyre, L. C.; Niaki, T.; Chen, M.; Mapplebeck, J. C. S.; Tabry, V.; Topham, L.; Sukosd, M. (2014-04-23). "Pain Reduces Sexual Motivation in Female But Not Male Mice". Journal of Neuroscience. 34 (17): 5747–5753. doi:10.1523/jneurosci.5337-13.2014. ISSN 0270-6474. PMC 3996207. PMID 24760835.
  29. ^ Rosen, Sarah F.; Ham, Boram; Haichin, Michael; Walters, Ilana C.; Tohyama, Sarasa; Sotocinal, Susana G.; Mogil, Jeffrey S. (2019). "Increased pain sensitivity and decreased opioid analgesia in T-cell-deficient mice and implications for sex differences". PAIN. 160 (2): 358–366. doi:10.1097/j.pain.0000000000001420. ISSN 0304-3959. PMID 30335680. S2CID 53011244.
  30. ^ Tansley, Shannon N.; Tuttle, Alexander H.; Wu, Neil; Tohyama, Sarasa; Dossett, Kimberly; Gerstein, Lindsay; Ham, Boram; Austin, Jean-Sebastien; Sotocinal, Susana G.; Mogil, Jeffrey S. (2018-09-19). "Modulation of social behavior and dominance status by chronic pain in mice". Genes, Brain and Behavior. 18 (1): e12514. doi:10.1111/gbb.12514. ISSN 1601-1848. PMID 30125473. S2CID 52050642.
  31. ^ Martin, Loren J.; Acland, Erinn L.; Cho, Chulmin; Gandhi, Wiebke; Chen, Di; Corley, Elizabeth; Kadoura, Basil; Levy, Tess; Mirali, Sara; Tohyama, Sarasa; Khan, Sana (2020). "Male-Specific Conditioned Pain Hypersensitivity in Mice and Humans". Current Biology. 30 (3): 556–559. Bibcode:2020CBio...30..556M. doi:10.1016/j.cub.2020.01.022. ISSN 0960-9822. PMID 32017873. S2CID 211019337.
  32. ^ Mogil, Jeffrey S.; Crager, Sara E. (2004). "What should we be measuring in behavioral studies of chronic pain in animals?". Pain. 112 (1): 12–15. doi:10.1016/j.pain.2004.09.028. ISSN 0304-3959. PMID 15494180. S2CID 28596745.
  33. ^ Vierck, C. J.; Hansson, P. T.; Yezierski, R. P. (2008). "Clinical and pre-clinical pain assessment: Are we measuring the same thing?". Pain. 135 (1): 7–10. doi:10.1016/j.pain.2007.12.008. ISSN 0304-3959. PMID 18215466. S2CID 28168956.
  34. ^ Grunau, Ruth V.E.; Craig, Kenneth D. (1987). "Pain expression in neonates: facial action and cry". Pain. 28 (3): 395–410. doi:10.1016/0304-3959(87)90073-x. ISSN 0304-3959. PMID 3574966. S2CID 24318807.
  35. ^ Langford, Dale J; Bailey, Andrea L; Chanda, Mona Lisa; Clarke, Sarah E; Drummond, Tanya E; Echols, Stephanie; Glick, Sarah; Ingrao, Joelle; Klassen-Ross, Tammy; LaCroix-Fralish, Michael L; Matsumiya, Lynn (2010-05-09). "Coding of facial expressions of pain in the laboratory mouse". Nature Methods. 7 (6): 447–449. doi:10.1038/nmeth.1455. ISSN 1548-7091. PMID 20453868. S2CID 16703705.
  36. ^ "Google Scholar". Google Scholar.
  37. ^ "Mice pull pained expressions". Scientific American. Retrieved 2020-07-04.
  38. ^ "Bennet Cohen Award".
  39. ^ "SGV Award".
  40. ^ Chambers, Christine T.; Mogil, Jeffrey S. (2015). "Ontogeny and phylogeny of facial expression of pain". PAIN. 156 (5): 798–799. doi:10.1097/j.pain.0000000000000133. ISSN 0304-3959. PMID 25887392. S2CID 2060896.
  41. ^ Farmer, M. A.; Taylor, A. M.; Bailey, A. L.; Tuttle, A. H.; MacIntyre, L. C.; Milagrosa, Z. E.; Crissman, H. P.; Bennett, G. J.; Ribeiro-da-Silva, A.; Binik, Y. M.; Mogil, J. S. (2011-09-21). "Repeated Vulvovaginal Fungal Infections Cause Persistent Pain in a Mouse Model of Vulvodynia". Science Translational Medicine. 3 (101): 101ra91. doi:10.1126/scitranslmed.3002613. ISSN 1946-6234. PMC 3243907. PMID 21937756.
  42. ^ Mogil, Jeffrey S. (2009-03-04). "Animal models of pain: progress and challenges". Nature Reviews Neuroscience. 10 (4): 283–294. doi:10.1038/nrn2606. ISSN 1471-003X. PMID 19259101. S2CID 205504814.
  43. ^ Mogil, Jeffrey S. (2020), Wood, John N (ed.), "The Measurement of Pain in the Laboratory Rodent", The Oxford Handbook of the Neurobiology of Pain, Oxford University Press, pp. 27–60, doi:10.1093/oxfordhb/9780190860509.013.21, ISBN 978-0-19-086050-9
  44. ^ Church, Russell M. (1959). "Emotional reactions of rats to the pain of others". Journal of Comparative and Physiological Psychology. 52 (2): 132–134. doi:10.1037/h0043531. ISSN 0021-9940. PMID 13654562.
  45. ^ Rice, George E.; Gainer, Priscilla (1962). ""Altruism" in the albino rat". Journal of Comparative and Physiological Psychology. 55 (1): 123–125. doi:10.1037/h0042276. ISSN 0021-9940. PMID 14491896.
  46. ^ Langford, D. J. (2006-06-30). "Social Modulation of Pain as Evidence for Empathy in Mice". Science. 312 (5782): 1967–1970. Bibcode:2006Sci...312.1967L. doi:10.1126/science.1128322. ISSN 0036-8075. PMID 16809545. S2CID 26027821.
  47. ^ Preston, Stephanie D.; de Waal, Frans B. M. (2002). "Empathy: Its ultimate and proximate bases". Behavioral and Brain Sciences. 25 (1): 1–20. doi:10.1017/s0140525x02000018. ISSN 0140-525X. PMID 12625087.
  48. ^ Carey, Benedict (2006-07-04). "Message From Mouse to Mouse: I Feel Your Pain". The New York Times. ISSN 0362-4331. Retrieved 2020-07-05.
  49. ^ Panksepp, Jaak; Panksepp, Jules B. (2013). "Toward a cross-species understanding of empathy". Trends in Neurosciences. 36 (8): 489–496. doi:10.1016/j.tins.2013.04.009. ISSN 0166-2236. PMC 3839944. PMID 23746460.
  50. ^ Martin, L.J.; Hathaway, G.; Isbester, K.; Mirali, S.; Acland, E.L.; Niederstrasser, N.; Slepian, P.M.; Trost, Z.; Bartz, J.A.; Sapolsky, R.M.; Sternberg, W.F. (2015). "Reducing Social Stress Elicits Emotional Contagion of Pain in Mouse and Human Strangers" (PDF). Current Biology. 25 (3): 326–332. Bibcode:2015CBio...25..326M. doi:10.1016/j.cub.2014.11.028. ISSN 0960-9822. PMID 25601547. S2CID 1082428.
  51. ^ Sapolsky, Robert M. (2015-01-16). "When Stress Rises, Empathy Suffers". Wall Street Journal. ISSN 0099-9660. Retrieved 2020-07-05.
  52. ^ "Jeff Mogil: How Can Playing A Game Make You More Empathetic?". NPR.org. Retrieved 2020-07-05.
  53. ^ Valverde, Paloma; Healy, Eugene; Jackson, Ian; Rees, Jonathan L.; Thody, Anthony J. (1995). "Variants of the melanocyte–stimulating hormone receptor gene are associated with red hair and fair skin in humans". Nature Genetics. 11 (3): 328–330. doi:10.1038/ng1195-328. ISSN 1061-4036. PMID 7581459. S2CID 7980311.
  54. ^ "Sex and drugs". The Economist. ISSN 0013-0613. Retrieved 2020-07-05.
  55. ^ Sullivan, Amy (11 December 2005). "Stoic Redheads". The New York Times. Archived from the original on 29 May 2015. Retrieved 22 May 2010.
  56. ^ Meunier, Jean-Claude (1997). "Nociceptin/orphanin FQ and the opioid receptor-like ORL1 receptor". European Journal of Pharmacology. 340 (1): 1–15. doi:10.1016/s0014-2999(97)01411-8. ISSN 0014-2999. PMID 9527501.
  57. ^ Reinscheid, R. K.; Nothacker, H.-P.; Bourson, A.; Ardati, A.; Henningsen, R. A.; Bunzow, J. R.; Grandy, D. K.; Langen, H.; Monsma, F. J.; Civelli, O. (1995-11-03). "Orphanin FQ: A Neuropeptide That Activates an Opioidlike G Protein-Coupled Receptor". Science. 270 (5237): 792–794. Bibcode:1995Sci...270..792R. doi:10.1126/science.270.5237.792. ISSN 0036-8075. PMID 7481766. S2CID 38117854.
  58. ^ Mogil, J.S; Grisel, J.E; Reinscheid, R.K; Civelli, O; Belknap, J.K; Grandy, D.K (1996). "Orphanin FQ is a functional anti-opioid peptide". Neuroscience. 75 (2): 333–337. doi:10.1016/0306-4522(96)00338-7. ISSN 0306-4522. PMID 8930999. S2CID 30046252.
  59. ^ Mogil, Jeffrey S; Wilson, Sonya G; Bon, Karine; Eun Lee, Seo; Chung, Kyungsoon; Raber, Pnina; Pieper, Jeanne O; Hain, Heather S; Belknap, John K; Hubert, Lawrence; Elmer, Greg I (1999). "Heritability of nociception I: Responses of 11 inbred mouse strains on 12 measures of nociception". Pain. 80 (1): 67–82. doi:10.1016/s0304-3959(98)00197-3. ISSN 0304-3959. PMID 10204719. S2CID 17604906.
  60. ^ Quenqua, Douglas (2014-04-28). "For Lab Rats, a 'Male Scientist' Effect". The New York Times. ISSN 0362-4331. Retrieved 2020-07-05.
  61. ^ "Lab Animals Stressed Out by Men, Study Finds". April 29, 2014.
  62. ^ Ohikuare, Judith (2014-04-30). "Male Scientists' Threat to the Integrity of Research". The Atlantic. Retrieved 2020-07-05.
  63. ^ "Sex, writhes and videotape". The Economist. ISSN 0013-0613. Retrieved 2020-07-05.
  64. ^ Morris, B. (May 2, 2014). "Why do mice fear men?". The New Yorker.
  65. ^ "Study: The Smell of Men Stresses Out Lab Mice". Time. Retrieved 2020-07-05.
  66. ^ Preidt, R. (April 28, 2014). "Lab Mice Stressed Out By Men, But Not Women, Study Finds".
  67. ^ "Male researchers may increase stress in lab mice". May 2, 2014.
  68. ^ "BBC News". World Service. April 30, 2014.
  69. ^ "CBC News". As It Happens. April 29, 2014.

External links[edit]

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