FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2028178001> ?p ?o ?g. }

• W2028178001 endingPage "403" @default.
• W2028178001 startingPage "398" @default.
• W2028178001 abstract "What's Missing in Posttraumatic Stress Disorder Research? Studies of Human Postmortem TissueJohn H. Krystal and Ronald DumanJohn H. Krystal1. Clinical Neurosciences Division, National Center for PTSD (116–A), VA Connecticut Healthcare System, West Haven, Connecticut, the Department of Psychiatry, Yale University School of Medicine, New Haven, Connecticut, and the Abraham Ribicoff Research Facilities, Connecticut Mental Health Center, New Haven, Connecticut.Search for more papers by this author and Ronald Duman2. Clinical Neurosciences Division, National Center for PTSD (116–A), VA Connecticut Healthcare System, West Haven, Connecticut, the Department of Psychiatry, Yale University School of Medicine, New Haven, Connecticut, and the Abraham Ribicoff Research Facilities, Connecticut Mental Health Center, New Haven, Connecticut.Search for more papers by this authorPublished Online:June 2005https://doi.org/10.1521/psyc.67.4.398.56567PDFPDF PLUS ShareShare onFacebookTwitterLinkedInRedditEmail ToolsAdd to favoritesDownload CitationsTrack Citations AboutReferencesBonne , O., Brandes, D., Gilboa, A., et al. (2001). Longitudinal MRI study of hippocampal volume in trauma survivors with PTSD. American Journal of Psychiatry, 158(8), 1248–1251. Crossref Medline, Google ScholarBremner , J. D. (1999). Does stress damage the brain? Biological Psychiatry, 45(7), 797–805. Crossref Medline, Google ScholarBremner , J. D., and Narayan, M. (1998). The effects of stress on memory and the hippocampus throughout the life cycle: Implications for childhood development and aging. Development & Psychopathology, 10(4), 871–885. Crossref Medline, Google ScholarBremner , J. D., Randall, P., Scott, T. M., et al. (1995). MRI–based measurement of hippocampal volume in patients with combat–related posttraumatic stress disorder [See Comments]. American Journal of Psychiatry, 152(7), 973–981. Crossref Medline, Google ScholarBremner , J. D., Randall, P., Vermetten, E., et al. (1997). Magnetic resonance imaging–based measurement of hippocampal volume in posttraumatic stress disorder related to childhood physical and sexual abuse—a preliminary report. Biological Psychiatry, 41(1), 23–32. Crossref Medline, Google ScholarBremner , J. D., Southwick, S. M., Darnell, A., et al. (1996). Chronic PTSD in Vietnam combat veterans: Course of illness and substance abuse. American Journal of Psychiatry, 153(3), 369–375. Crossref Medline, Google ScholarBreslau , N., and Kessler, R. C. (2001). The stressor criterion in DSM–IV posttraumatic stress disorder: An empirical investigation. Biological Psychiatry, 50(9), 699–704. Crossref Medline, Google ScholarDe Bellis , M. D., Keshavan, M. S., Clark, D. B., et al. (1999). A.E. Bennett Research Award. Developmental traumatology. Part II: Brain development. Biological Psychiatry, 45(10), 1271–1284. Crossref Medline, Google ScholarDekaris , D., Sabioncello, A., Mazuran, R., et al. (1993). Multiple changes of immunologic parameters in prisoners of war: Assessments after release from a camp in Manjaca, Bosnia. Journal of the American Medical Association, 270(5), 595–599. Crossref, Google ScholarDuman , R. S., Malberg, J., and Thome, J. (1999). Neural plasticity to stress and antidepressant treatment. Biological Psychiatry, 46(9), 1181–1191. Crossref Medline, Google ScholarElzinga , B. M., and Bremner, J. D. (2002). Are the neural substrates of memory the final common pathway in posttraumatic stress disorder (PTSD)? Journal of Affective Disorders, 70(1), 1–17. Crossref Medline, Google ScholarGilbertson , M. W., Shenton, M. E., Ciszewski, A., et al. (2002). Smaller hippocampal volume predicts pathologic vulnerability to psychological trauma. Nature Neuroscience, 5(11), 1242–1247. Crossref Medline, Google ScholarGould , E., Tanapat, P., Rydel, T., et al. (2000). Regulation of hippocampal neurogenesis in adulthood. Biological Psychiatry, 48(8), 715–720. Crossref Medline, Google ScholarGurvits , T. V., Shenton, M. E., Hokama, H., et al. (1996). Magnetic resonance imaging study of hippocampal volume in chronic, combat–related posttraumatic stress disorder. Biological Psychiatry, 40(11), 1091–1099. Crossref Medline, Google ScholarHakak , Y., Walker, J. R., Li, C., et al. (2001). Genome–wide expression analysis reveals dysregulation of myelination–related genes in chronic schizophrenia. Proceedings of the National Academy of Sciences of the United States of America, 98(8), 4746–4751. Crossref Medline, Google ScholarKawamura , N., Kim, Y., and Asukai, N. (2001). Suppression of cellular immunity in men with a past history of posttraumatic stress disorder. American Journal of Psychiatry, 158(3), 484–486. Crossref Medline, Google ScholarKrystal, J. H., Nagy, L. M., Southwick, S. M., et al. (1998). Initial clinical evidence of genetic contributions to posttraumatic stress disorder. In Y. Danieli (Ed.), An International Handbook of Multigenerational Legacies of Trauma. New York: Plenum. Google ScholarLewis , D. A. (2002). The human brain revisited: Opportunities and challenges in postmortem studies of psychiatric disorders. Neuropsychopharmacology, 26(2), 143–154. Crossref Medline, Google ScholarLucassen , P. J., Vollmann–Honsdorf, G. K., Gleisberg, M., et al. (2001). Chronic psychosocial stress differentially affects apoptosis in hippocampal subregions and cortex of the adult tree shrew. European Journal of Neuroscience, 14(1), 161–166. Crossref Medline, Google ScholarMagarinos , A. M., Verdugo, J. M., and McEwen, B. S. (1997). Chronic stress alters synaptic terminal structure in hippocampus. Proceedings of the National Academy of Sciences of the United States of America, 94(25), 14002–14008. Crossref Medline, Google ScholarMcEwen , B. S. (2000). Effects of adverse experiences for brain structure and function. Biological Psychiatry, 48(8), 721–731. Crossref Medline, Google ScholarOngur , D., Drevets, W. C., and Price, J. L. (1998). Glial reduction in the subgenual prefrontal cortex in mood disorders. Proceedings of the National Academy of Sciences of the United States of America, 95(22), 13290–13295. Crossref Medline, Google ScholarRajkowska , G., Miguel–Hidalgo, J. J., Wei, J., et al. (1999). Morphometric evidence for neuronal and glial prefrontal cell pathology in major depression. Biological Psychiatry, 45(9), 1085–1098. Crossref Medline, Google ScholarSapolsky , R. M. (2000). Glucocorticoids and hippocampal atrophy in neuropsychiatric disorders. Archives of General Psychiatry, 57(10), 925–935. Crossref Medline, Google ScholarSegman , R. H., Cooper–Kazaz, R., Macciardi, F., et al. (2002). Association between the dopamine transporter gene and posttraumatic stress disorder. Molecular Psychiatry, 7(8), 903–907. Crossref Medline, Google ScholarStein , M. B., Jang, K. L., Taylor, S., et al. (2002). Genetic and environmental influences on trauma exposure and posttraumatic stress disorder symptoms: A twin study. American Journal of Psychiatry, 159 (10), 1675–1681. Crossref Medline, Google ScholarStein , M. B., Koverola, C., Hanna, C., et al. (1997). Hippocampal volume in women victimized by childhood sexual abuse. Psychological Medicine, 27(4), 951–959. Crossref Medline, Google ScholarUrsano , R. J. (1997). Disaster: Stress, immunologic function, and health behavior. Psychosomatic Medicine, 59(2), 142–143. Crossref Medline, Google Scholar Previous article Next article FiguresReferencesRelatedDetails Cited byCited by1. Matthew J. Friedman, M.D., Ph.D. and His Legacy of Leadership in the Field of Post-traumatic Stress DisorderOnline publication date: 19 May 2022. Go to citation Crossref Google Scholar2. Two Decades of Progress “Toward a National PTSD Brain Bank,” on the Occasion of Dr. Matthew J. Friedman’s RetirementOnline publication date: 19 May 2022. Go to citation Crossref Google Scholar3. The National PTSD Brain Bank: Honoring the Vision and Contributions of Dr. Matthew FriedmanOnline publication date: 19 May 2022. Go to citation Crossref Google Scholar4. Online publication date: Go to citation Crossref Google Scholar5. DNA methylation correlates of PTSD: Recent findings and technical challengesOnline publication date: Go to citation Crossref Google Scholar6. Longitudinal in vivo Diffusion Tensor Imaging Detects Differential Microstructural Alterations in the Hippocampus of Chronic Social Defeat Stress-Susceptible and Resilient MiceOnline publication date: 29 August 2018. Go to citation Crossref Google Scholar7. VA’s National PTSD Brain Bank: a National Resource for ResearchOnline publication date: 25 August 2017. Go to citation Crossref Google Scholar8. Stress, PTSD, and dementiaOnline publication date: 1 June 2014. Go to citation Crossref Google Scholar9. Region-Specific Involvement of BDNF Secretion and Synthesis in Conditioned Taste Aversion Memory FormationOnline publication date: 9 February 2011. Go to citation Crossref Google Scholar Volume 67Issue 4Dec 2004 Information© Guilford Publications Inc.PDF download" @default.
• W2028178001 created "2016-06-24" @default.
• W2028178001 creator A5071039477 @default.
• W2028178001 creator A5087594298 @default.
• W2028178001 date "2004-12-01" @default.
• W2028178001 modified "2023-09-27" @default.
• W2028178001 title "What's Missing in Posttraumatic Stress Disorder Research? Studies of Human Postmortem Tissue" @default.
• W2028178001 cites W1624194901 @default.
• W2028178001 cites W170792860 @default.
• W2028178001 cites W1973125755 @default.
• W2028178001 cites W1974629262 @default.
• W2028178001 cites W1991903108 @default.
• W2028178001 cites W1998934862 @default.
• W2028178001 cites W2011811675 @default.
• W2028178001 cites W2020897240 @default.
• W2028178001 cites W2037238565 @default.
• W2028178001 cites W2045217506 @default.
• W2028178001 cites W2048595403 @default.
• W2028178001 cites W2061428806 @default.
• W2028178001 cites W2064212981 @default.
• W2028178001 cites W2076123050 @default.
• W2028178001 cites W2077164692 @default.
• W2028178001 cites W2094106822 @default.
• W2028178001 cites W2105097410 @default.
• W2028178001 cites W2112763160 @default.
• W2028178001 cites W2116116525 @default.
• W2028178001 cites W2118439943 @default.
• W2028178001 cites W2126041442 @default.
• W2028178001 cites W2151602227 @default.
• W2028178001 cites W2152541584 @default.
• W2028178001 cites W2159699558 @default.
• W2028178001 cites W2168084483 @default.
• W2028178001 cites W2335225131 @default.
• W2028178001 cites W4233328637 @default.
• W2028178001 doi "https://doi.org/10.1521/psyc.67.4.398.56567" @default.
• W2028178001 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/15801380" @default.
• W2028178001 hasPublicationYear "2004" @default.
• W2028178001 type Work @default.
• W2028178001 sameAs 2028178001 @default.
• W2028178001 citedByCount "11" @default.
• W2028178001 countsByYear W20281780012014 @default.
• W2028178001 countsByYear W20281780012017 @default.
• W2028178001 countsByYear W20281780012018 @default.
• W2028178001 countsByYear W20281780012019 @default.
• W2028178001 countsByYear W20281780012020 @default.
• W2028178001 countsByYear W20281780012022 @default.
• W2028178001 countsByYear W20281780012023 @default.
• W2028178001 crossrefType "journal-article" @default.
• W2028178001 hasAuthorship W2028178001A5071039477 @default.
• W2028178001 hasAuthorship W2028178001A5087594298 @default.
• W2028178001 hasConcept C118552586 @default.
• W2028178001 hasConcept C15744967 @default.
• W2028178001 hasConcept C169760540 @default.
• W2028178001 hasConcept C2991847609 @default.
• W2028178001 hasConcept C70097482 @default.
• W2028178001 hasConcept C70410870 @default.
• W2028178001 hasConcept C71924100 @default.
• W2028178001 hasConceptScore W2028178001C118552586 @default.
• W2028178001 hasConceptScore W2028178001C15744967 @default.
• W2028178001 hasConceptScore W2028178001C169760540 @default.
• W2028178001 hasConceptScore W2028178001C2991847609 @default.
• W2028178001 hasConceptScore W2028178001C70097482 @default.
• W2028178001 hasConceptScore W2028178001C70410870 @default.
• W2028178001 hasConceptScore W2028178001C71924100 @default.
• W2028178001 hasIssue "4" @default.
• W2028178001 hasLocation W20281780011 @default.
• W2028178001 hasLocation W20281780012 @default.
• W2028178001 hasOpenAccess W2028178001 @default.
• W2028178001 hasPrimaryLocation W20281780011 @default.
• W2028178001 hasRelatedWork W2054723510 @default.
• W2028178001 hasRelatedWork W2082891917 @default.
• W2028178001 hasRelatedWork W2147740381 @default.
• W2028178001 hasRelatedWork W2155138768 @default.
• W2028178001 hasRelatedWork W2416758480 @default.
• W2028178001 hasRelatedWork W2515615111 @default.
• W2028178001 hasRelatedWork W2748952813 @default.
• W2028178001 hasRelatedWork W2899084033 @default.
• W2028178001 hasRelatedWork W3017063527 @default.
• W2028178001 hasRelatedWork W2994342817 @default.
• W2028178001 hasVolume "67" @default.
• W2028178001 isParatext "false" @default.
• W2028178001 isRetracted "false" @default.
• W2028178001 magId "2028178001" @default.
• W2028178001 workType "article" @default.