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The Hierarchical Taxonomy of Psychopathology (HiTOP) in psychiatric practice and research
- Roman Kotov, David C. Cicero, Christopher C. Conway, Colin G. DeYoung, Alexandre Dombrovski, Nicholas R. Eaton, Michael B. First, Miriam K. Forbes, Steven E. Hyman, Katherine G. Jonas, Robert F. Krueger, Robert D. Latzman, James J. Li, Brady D. Nelson, Darrel A. Regier, Craig Rodriguez-Seijas, Camilo J. Ruggero, Leonard J. Simms, Andrew E. Skodol, Irwin D. Waldman, Monika A. Waszczuk, David Watson, Thomas A. Widiger, Sylia Wilson, Aidan G. C. Wright
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- Journal:
- Psychological Medicine / Volume 52 / Issue 9 / July 2022
- Published online by Cambridge University Press:
- 02 June 2022, pp. 1666-1678
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- Article
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The Hierarchical Taxonomy of Psychopathology (HiTOP) has emerged out of the quantitative approach to psychiatric nosology. This approach identifies psychopathology constructs based on patterns of co-variation among signs and symptoms. The initial HiTOP model, which was published in 2017, is based on a large literature that spans decades of research. HiTOP is a living model that undergoes revision as new data become available. Here we discuss advantages and practical considerations of using this system in psychiatric practice and research. We especially highlight limitations of HiTOP and ongoing efforts to address them. We describe differences and similarities between HiTOP and existing diagnostic systems. Next, we review the types of evidence that informed development of HiTOP, including populations in which it has been studied and data on its validity. The paper also describes how HiTOP can facilitate research on genetic and environmental causes of psychopathology as well as the search for neurobiologic mechanisms and novel treatments. Furthermore, we consider implications for public health programs and prevention of mental disorders. We also review data on clinical utility and illustrate clinical application of HiTOP. Importantly, the model is based on measures and practices that are already used widely in clinical settings. HiTOP offers a way to organize and formalize these techniques. This model already can contribute to progress in psychiatry and complement traditional nosologies. Moreover, HiTOP seeks to facilitate research on linkages between phenotypes and biological processes, which may enable construction of a system that encompasses both biomarkers and precise clinical description.
Contributors
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- By Michael H. Allen, Leora Amira, Victoria Arango, David W. Ayer, Helene Bach, Christopher R. Bailey, Ross J. Baldessarini, Kelsey Ball, Alan L. Berman, Marian E. Betz, Emily A. Biggs, R. Warwick Blood, Kathleen T. Brady, David A. Brent, Jeffrey A. Bridge, Gregory K. Brown, Anat Brunstein Klomek, A. Jacqueline Buchanan, Michelle J. Chandley, Tim Coffey, Jessica Coker, Yeates Conwell, Scott J. Crow, Collin L. Davidson, Yogesh Dwivedi, Stacey Espaillat, Jan Fawcett, Steven J. Garlow, Robert D. Gibbons, Catherine R. Glenn, Deborah Goebert, Erica Goldstein, Tina R. Goldstein, Madelyn S. Gould, Kelly L. Green, Alison M. Greene, Philip D. Harvey, Robert M. A. Hirschfeld, Donna Holland Barnes, Andres M. Kanner, Gary J. Kennedy, Stephen H. Koslow, Benoit Labonté, Alison M. Lake, William B. Lawson, Steve Leifman, Adam Lesser, Timothy W. Lineberry, Amanda L. McMillan, Herbert Y. Meltzer, Michael Craig Miller, Michael J. Miller, James A. Naifeh, Katharine J. Nelson, Charles B. Nemeroff, Alexander Neumeister, Matthew K. Nock, Jennifer H. Olson-Madden, Gregory A. Ordway, Michael W. Otto, Ghanshyam N. Pandey, Giampaolo Perna, Jane Pirkis, Kelly Posner, Anne Rohs, Pedro Ruiz, Molly Ryan, Alan F. Schatzberg, S. Charles Schulz, M. Katherine Shear, Morton M. Silverman, April R. Smith, Marcus Sokolowski, Barbara Stanley, Zachary N. Stowe, Sarah A. Struthers, Leonardo Tondo, Gustavo Turecki, Robert J. Ursano, Kimberly Van Orden, Anne C. Ward, Danuta Wasserman, Jerzy Wasserman, Melinda K. Westlund, Tracy K. Witte, Kseniya Yershova, Alexandra Zagoloff, Sidney Zisook
- Edited by Stephen H. Koslow, University of Miami, Pedro Ruiz, University of Miami, Charles B. Nemeroff, University of Miami
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- Book:
- A Concise Guide to Understanding Suicide
- Published online:
- 05 October 2014
- Print publication:
- 18 September 2014, pp vii-x
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6 - Neurophysiological studies of alterations in seizure susceptibility during brain development
- from Section 2 - Features of the epileptogenic brain
- Edited by Philip A. Schwartzkroin, University of Washington
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- Book:
- Epilepsy
- Published online:
- 03 May 2010
- Print publication:
- 17 June 1993, pp 209-243
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Summary
Introduction
The basic processes responsible for seizures in an infant's brain are likely to be quite different from those in the central nervous system of an adult. The nervous system of a neonate is so unlike its mature counterpart in basic anatomical, physiological, and metabolic properties that it is obvious even to the most casual observer that many critical issues of pediatric epileptology are different from those addressed by epileptologists concerned with controlling seizures in adults.
Many epileptic syndromes in children occur during restricted phases of nervous system development (O'Donohoue, 1985; Aicardi, 1986; Tharp, 1987); the phrase ‘age-specific epilepsies’, therefore, has been used to describe these disorders. For example, infantile spasms are observed usually between three months and three years of age (Lacy & Penry, 1976). Thereafter this seizure disorder may evolve into a different form of epilepsy only later to emerge as another syndrome in adulthood. At each stage the seizures are likely to differ not only in their clinical and electrographic features but also in their response to medication (Freeman, 1987).
On the other hand some seizure disorders of childhood have clear counterparts in adulthood. Simple and complex partial seizures are examples (Holmes, 1986, 1987; Wyllie et al., 1989). Characteristically, these seizures arise from localized regions of the brain and are often referred to in experimental epilepsy research as focal seizures. In both infants and adults, the complex partial epilepsies commonly originate from the temporal lobe.