If you've been a victim of any type of sexual violence, you belong here. What you see below represents just a fraction of the resources and survivor support available. Register now to join our community and take full advantage of what this online support group has to offer you as you heal and recover, or sign in to remove this message.
You are not alone, we can support you as you heal, and you've made an important step toward recovery by reaching out. If you are unable to register or have any questions, please contact the staff or view our home page.
The Invisible Epidemic: Post-Traumatic Stress Disorder, Memory and the Brain PTSD is not just psychological!
Posted 18 January 2007 - 01:51 PM
The Invisible Epidemic: Post-Traumatic Stress Disorder,
Memory and the Brain
By: J. Douglas Bremner, M.D.
Dr. Bremner is a faculty member of the Departments of Diagnostic Radiology and Psychiatry, Yale University School of Medicine, Yale Psychiatric Institute, and National Center for PTSD-VA Connecticut Healthcare System.
The research reviewed in this article was supported by an NIH-sponsored General Clinical Research Center (GCRC) Clinical Associate Physician (CAP) Award and a VA Research Career Development Award to Dr. Bremner, and the National Center for PTSD Grant.
Post-traumatic Stress Disorder (PTSD) is something of an invisible epidemic. The events underlying it are often mysterious and always unpleasant. It is certainly far more widespread than most people realize. For example, a prime cause of PTSD is childhood sexual abuse. About 16% of American women (about 40 million) are sexually abused (including rape, attempted rape, or other form of molestation) before they reach their 18th birthday.1
Childhood abuse may be the most common cause of PTSD in American women, 10% of whom suffer from PTSD (compared to 5% for men) at some time in their lives,2 but many other types of psychological trauma can cause the disorder -- car accidents, military combat, rape and assault. Symptoms of PTSD include intrusive memories, nightmares, flashbacks, increased vigilance, social impairment and problems with memory and concentration.
It's Not Just Psychological
While such symptoms are commonly understood to be psychological problems, some or all of them may well be related to the physical effects of extreme stress on the brain.3,4
Recent studies have shown that victims of childhood abuse and combat veterans actually experience physical changes to the hippocampus, a part of the brain involved in learning and memory, as well as in the handling of stress.5 The hippocampus also works closely with the medial prefrontal cortex, an area of the brain that regulates our emotional response to fear and stress. PTSD sufferers often have impairments in one or both of these brain regions. Studies of children have found that these impairments can lead to problems with learning and academic achievement.
Other typical symptoms of PTSD in children, including fragmentation of memory, intrusive memories, flashbacks, dissociation (or the unconscious separation of some mental processes from the others, e.g., a mismatch between facial expression and thought or mood), and pathological ("sick") emotions, may also be related to impairment of the hippocampus.6 Damage to the hippocampus, which processes memory, may explain why victims of childhood abuse often seem to have incomplete or delayed recall of their abusive experiences.7
A Disease of Memory
Memory problems play a large part in PTSD. PTSD patients report deficits in declarative memory (remembering facts or lists -- see below), fragmentation of memory and dissociative amnesia (gaps in memory lasting from minutes to days that are not caused by ordinary forgetting).
Psychiatric Symptoms Associated with Childhood Abuse
* Memory and concentration problems
* Intrusive memories
* Abnormal startle reponses
* Feeling worse when reminded of trauma
* Out-of-body experiences
* Fragmented sense of self and identity
* Panic attacks
* Drug addiction
Many abuse victims report that they remember seemingly random or minor details of the abuse event, while forgetting central events. For instance, one woman who had been locked in a closet had an isolated memory of the smell of old clothes and the sound of a clock ticking. Later, she connected these details with feelings of intense fear; only then was she able to recall the whole picture of what had happened to her. PTSD also causes problems with non-declarative memory (subconscious or motor memory, such as remembering how to ride a bicycle). This can show up as abnormal conditioned responses and the reliving of traumatic experiences when something happens to remind the sufferer of past abuse. These types of memory disturbance may also be related to physical changes in the hippocampus and medial prefrontal cortex.
How Psychological Trauma Affects the Hippocampus and Memory
Childhood abuse and other sources of extreme stress can have lasting effects on the parts of the brain that are involved in memory and emotion. The hippocampus, in particular, seems to be very sensitive to stress.8,9,10,11,12,13,14,15,16 Damage to the hippocampus from stress can not only cause problems in dealing with memories and other effects of past stressful experiences, it can also impair new learning.17,18 Exciting recent research has shown that the hippocampus has the capacity to regenerate nerve cells ("neurons") as part of its normal functioning, and that stress impairs that functioning by stopping or slowing down neuron regeneration.19,20
We recently conducted a study to try to see if PTSD symptoms matched up with a measurable loss of neurons in the hippocampus. We first tested Vietnam combat veterans with declaratory memory problems caused by PTSD.21 Using brain imaging, these combat veterans were found to have an 8% reduction in right hippocampal volume (i.e., the size of the hippocampus), measured with magnetic resonance imaging (MRI), while no differences were found in other areas of the brain (Figure 1).
Our study showed that diminished right hippocampal volume in the PTSD patients was associated with short-term memory loss.22 Similar results were found when we looked at PTSD sufferers who were victims of childhood physical or sexual abuse.23,24
More recent studies have since confirmed hippocampal volume reduction in PTSD25,26 These studies also show that hippocampal volume reduction is specific to PTSD and is not associated with disorders such as anxiety or panic disorders.27
Further study on the question of memory and the hippocampus may some day shed light on the controversy surrounding delayed recall, or so-called "recovered memories" of childhood abuse. The hippocampus plays an important role in connecting and organizing different aspects of a memory and is thought to be responsible for locating the memory of an event in its proper time, place and context.
We suspect that damage to the hippocampus following exposure to the stress brought on by childhood abuse leads to distortion and fragmentation of memories. For instance, in the case of the PTSD sufferer who was locked in a closet as a child, she had a memory of the smell of old clothes but other parts of her memory of the experience, such as a visual memory of being in the closet or a memory of the feeling of fear, are difficult to retrieve or completely lost. In cases like this, psychotherapy or an event that triggers similar emotions may help the patient restore associations and bring all aspects of the memory together.
This new understanding of the way childhood trauma affects memory and the brain has important implications for public health policy. One example would be the case of inner-city children who have witnessed violent crimes in their neighborhoods and families. If this kind of stress can cause damage to brain areas involved in learning and memory, it would put these children at a serious academic disadvantage in ways and for reasons that programs such as Head Start may be unable to address. Studies confirm this: in war-torn Beirut, traumatized adolescents with PTSD, as compared to non-traumatized adolescents who were without PTSD, lagged behind in academic achievement.28
PTSD and Other Brain Areas
Besides the hippocampus, abnormalities of other brain areas, including medial prefrontal cortex, are also associated with PTSD.
The medial prefrontal cortex regulates emotional and fear responses.29 The medial prefrontal cortex is closely linked to the hippocampus. In several studies we have found dysfunction of both the medial prefrontal cortex and the hippocampus at times when patients were suffering from PTSD symptoms.31
We believe that dysfunction in these medial prefrontal regions may underlie pathological emotional responses in patients with PTSD.30 For example, we sometimes see a failure of extinction of fear responses -- a rape victim who was raped in a dark alley will have fear reactions to dark places for years after the original event, even though there is no threat associated with a particular dark place. In a study using combat-related slides and sounds to provoke PTSD symptoms, combat veterans with PTSD had decreased blood flow in the area of the medial prefrontal cortex. Significantly, this did not occur in combat veterans without PTSD32 We saw similar results when we compared women with PTSD and a history of childhood sexual abuse to women with a history of abuse but no PTSD.
Traumatic stress, such as that caused by childhood sexual abuse, can have far-reaching effects on the brain and its functions. Recent studies indicate that extreme stress can cause measurable physical changes in the hippocampus and medial prefrontal cortex, two areas of the brain involved in memory and emotional response. These changes can, in turn, lead not only to classic PTSD symptoms, such as loss and distortion of memory of events surrounding the abuse, but also to ongoing problems with learning and remembering new information. These findings may help explain the controversial phenomenon of "recovered" or delayed memories. They also suggest that how we educate, rehabilitate and treat PTSD sufferers may need to be reconsidered.
1. McCauley J, Kern DE, Kolodner K, Dill L, Schroeder AF, DeChant HK, Ryden J, Derogatis LR, Bass EG (1997). Clinical characteristics of women with a history of childhood abuse: Unhealed wounds. JAMA 277:1362-1368. return
2. Kessler RC, Sonnega A, Bromet E, Hughes M, Nelson CB (1995). Posttraumatic stress disorder in the national comorbidity survey. Arch Gen Psychiatry 52:1048-1060. return
3. Bremner JD, Marmar C (eds.) (1998): Trauma, Memory and Dissociation, APA Press, Washington DC. return
4. Saigh PA, Bremner JD (Eds.) (1999). Posttraumatic Stress Disorder: A Comprehensive Text, Allyn & Bacon, New York. return
5. Bremner JD, Narayan M (1998): The effects of stress on memory and the hippocampus throughout the life cycle: Implications for childhood development and aging. Develop Psychopath 10:871-886. return
6. Bremner JD, Southwick SM, Charney DS (1999): The neurobiology of posttraumatic stress disorder: An integration of animal and human research. In: Saigh, P., Bremner, J.D. (Eds.): Posttraumatic Stress Disorder: A Comprehensive Text, Allyn & Bacon, New York, pp. 103-143. return
7. Bremner JD, Krystal JH, Charney DS, Southwick SM (1996): Neural mechanisms in dissociative amnesia for childhood abuse: Relevance to the current controversy surrounding the "False Memory Syndrome". Am J Psychiatry 153(7):FS71-82. return
8. McEwen BS, Angulo J, Cameron H, Chao HM, Daniels D, Gannon MN, Gould E, Mendelson S, Sakai R, Spencer R, Woolley C (1992): Paradoxical effects of adrenal steroids on the brain: Protection versus degeneration. Biol Psychiatry 31:177-199. return
9. Sapolsky RM (1996). Why stress is bad for your brain. Science 273:749-750. return
10. Uno H, Tarara R, Else JG, Suleman MA, Sapolsky RM (1989): Hippocampal damage associated with prolonged and fatal stress in primates. J Neurosci 9:1705-1711. return
11. Sapolsky RM, Uno H, Rebert CS, Finch CE (1990): Hippocampal damage associated with prolonged glucocorticoid exposure in primates. J Neurosci 10:2897-2902. return
12. Woolley CS, Gould E, McEwen BS: Exposure to excess glucocorticoids alters dendritic morphology of adult hippocampal pyramidal neurons. Brain Res 1990; 531:225-231. return
13. Virgin CE, Taryn PTH, Packan DR, Tombaugh GC, Yang SH, Horner HC, Sapolsky RM (1991). Glucocorticoids inhibit glucose transport and glutamate uptake in hippocampal astrocytes: implications for glucocorticoid neurotoxicity. J Neurochem 57:1422-1428. return
14. McEwen BS, Conrad CD, Kuroda Y, Frankfurt M, Magarinos AM, McKittrick C (1997). Prevention of stress-induced morphological and cognitive consequences. Eur Neuropsychopharm 7:(suppl)3:S322-328. return
15. Smith MA, Makino S, Kvetnansky R, Post RM (1995). Stress and glucocorticoids affect the expression of brain-derived neurotrophic factor and neurotrophin-3 mRNA in the hippocampus. J Neurosci 15:1768-1777. return
16. Nibuya M, Morinobu S, Duman RS (1995). Regulation of BDNF and trkB mRNA in rat brain by chronic electroconvulsive seizure and antidepressant drug treatments. J Neurosci 15:7539-7547. return
17. Luine V, Villages M, Martinex C, McEwen BS (1994): Repeated stress causes reversible impairments of spatial memory performance. Brain Res 639:167-170. return
18. Bodnoff SR, Humphreys AG, Lehman JC, Diamond DM, Rose GM, Meaney MJ (1995): Enduring effects of chronic corticosterone treatment on spatial learning, synaptic plasticity, and hippocampal neuropathology in young and mid-aged rats. J Neurosci 15:61-69. return
19. Gould E, Tanapat P, McEwen BS, Flugge G, Fuchs E (1998) Proliferation of granule cell precursors in the dentate gyrus of adult monkeys is diminished by stress. PNAS 95:3168-3171. return
20. Sass KJ, Spencer DD, Kim JH, Westerveld M, Novelly RA, Lencz T (1990). Verbal memory impairment correlates with hippocampal pyramidal cell density. Neurology 40:1694-1697. return
21. Bremner JD, Scott TM, Delaney RC, Southwick SM, Mason JW, Johnson DR, Innis RB, McCarthy G, Charney DS (1993): Deficits in short-term memory in post-traumatic stress disorder. Am J Psychiatry 150:1015-1019. return
22. Bremner JD, Randall PR, Scott TM, Bronen RA, Delaney RC, Seibyl JP, Southwick SM, McCarthy G, Charney DS, Innis RB (1995): MRI-based measurement of hippocampal volume in posttraumatic stress disorder. Am J Psychiatry 152:973-981. return
23. Bremner JD, Randall PR, Capelli S, Scott T, McCarthy G, Charney DS (1995): Deficits in short-term memory in adult survivors of childhood abuse. Psych Res 59:97-107. return
24. Bremner JD, Randall P, Vermetten E, Staib L, Bronen RA, Mazure CM, Capelli S, McCarthy G, Innis RB, Charney DS (1997): MRI-based measurement of hippocampal volume in posttraumatic stress disorder related to childhood physical and sexual abuse: A preliminary report. Biol Psychiatry 41:23-32. return
25. Stein MB, Koverola C, Hanna C, Torchia MG, McClarty B (1997): Hippocampal volume in women victimized by childhood sexual abuse. Psychol Medicine 27:951-959. return
26. Gurvits TG, Shenton MR, Hokama H, Ohta H, Lasko NB, Gilberson MW, Orr SP, Kikinis R, Lolesz FA, McCarley RW, Pitman RK (1996): Magnetic resonance imaging study of hippocampal volume in chronic combat-related posttraumatic stress disorder. Biol Psychiatry 40:192-199. return
27. Bremner JD, Licinio J, Darnell A, Krystal JH, Owens M, Southwick SM, Nemeroff CB, Charney DS (1997): Elevated CSF corticotropin-releasing factor concentrations in posttraumatic stress disorder. Am J Psychiatry 154:624-629. return
28. Saigh PA, Mroweh M, Bremner JD (1997) Scholastic impairments among traumatized adolescents. Beh Res Ther 35:429-436. return
29. Morgan MA, LeDoux JE (1995): Differential contribution of dorsal and ventral medial prefrontal cortex to the acquisition and extinction of conditioned fear in rats. Behav Neurosci 109:681-688. return
30. Bremner JD, Krystal JH, Southwick SM, Charney DS (1995) Functional neuroanatomical correlates of the effects of stress on memory. J Trauma Stress 8:527-554. return
31. Bremner JD, Innis RB, Ng CK, Staib L, Duncan J, Bronen R, Zubal G, Rich D, Krystal JH, Dey H, Soufer R, Charney DS (1997): PET measurement of central metabolic correlates of yohimbine administration in posttraumatic stress disorder. Arch Gen Psychiatry 54:246-256. return
32. Bremner JD, Staib L, Kaloupek D, Southwick SM, Soufer R, Charney DS (1999): Positron emission tomographic (PET)-based measurement of cerebral blood flow correlates of traumatic reminders in Vietnam combat veterans with and without posttraumatic stress disorder. Biol Psychiatry (In press). return
Posted 02 February 2007 - 09:48 PM
1. SCARS THAT WON'T HEAL: THE NEUROBIOLOGY OF CHILD ABUSE
Maltreatment at an early age can have enduring negative effects on a child's brain development and function Scientific American, Mar2002, Vol. 286 Issue 3,p68, 8p, 7c. By Martin H. Teicher
Quote: It is hardly surprising to us that research reveals a strong link between physical, sexual and emotional mistreatment of children and the development of psychiatric problems. But in the early 1990s mental health professionals believed that emotional and social difficulties occurred mainly through psychological means. Childhood maltreatment was understood either to foster the development of
intrapsychic defense mechanisms that proved to be self-defeating in adulthood or to arrest psychosocial development, leaving a "wounded child" within. Researchers thought of the damage as basically a software problem amenable to reprogramming via therapy or simply erasable through the exhortation "Get over it."
Click here for the full pdf article: http://www.annafoundation.org/stwh.pdf
or click here for the article with full illustrations: http://www.snoqualmievalleycommunitynetwor...atwon_theal.pdf
here is the article that he presented in 2000: http://www.dana.org/...v2n4teicher.pdf
2. The Relationship of Adverse Childhood Experiences to Adult Health: Turning gold into lead
by Vincent J. Felitti, MD
Quote: The ACE Study reveals a powerful relationship between our emotional experiences as children and our physical and mental health as adults, as well as the major causes of adult mortality in the United States. It documents the conversion of traumatic emotional experiences in childhood into organic disease later in life. How does this happen, this reverse alchemy, turning the gold of a newborn infant into the lead of a depressed, diseased adult? The Study makes it clear that time does not heal some of the adverse experiences we found so common in the childhoods of a large population of middle-aged, middle class Americans. One does not ‘just get over’ some things, not even fifty years later3.
Click here for the full pdf article: http://www.acestudy....oldintoLead.pdf