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PTSD: NOVEL AND TARGETED DIRECTIONS IN TREATMENT

Dive into the science of PTSD, its neurobiological effects, treatment approaches, and symptoms correlation. Learn targeted strategies to help individuals comprehend and manage PTSD, emphasizing self-care.

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PTSD: NOVEL AND TARGETED DIRECTIONS IN TREATMENT

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  1. PTSD: NOVEL AND TARGETED DIRECTIONS IN TREATMENT DEBORAH HARTMAN CRNP COMMUNITY SERVICES GROUP LANCASTER, PA hartmand@csgonline.org

  2. OBJECTIVES • Describe the precipitants of PTSD and the role of premorbid risk factors • Correlate the neurobiological effects of trauma with specific symptoms • Describe the pharmaco/psycho-therapeutic approaches to treatment and rationales for application • Translate the science to help the individual with PTSD understand the “how’s and why’s” of treatment while promoting self-care

  3. PREVALENCE OF PTSD • 60% of women and 50% of men will experience a traumatic event • 9.7% of women and 3.6% of men will develop PTSD • 30% of these will develop a chronic form

  4. RISK FOR DEVELOPING PTSD INCREASES IF PEOPLE: • Were directly exposed to the traumatic event as a victim or a witness • Were seriously injured during the trauma • Experienced a trauma that was long-lasting or very severe • Saw themselves or family member in imminent danger • Had a negative reaction during the event • Felt helpless during the trauma and were unable to help themselves or a loved one

  5. INDIVIDUALS ARE MORE LIKELY TO DEVELOP PTSD IF THEY: • Have experienced an earlier life-threatening event or trauma • Have a current mental health issue • Have less education • Are younger • Lack social support • Have recent, stressful life changes

  6. DSM IV CRITERIA FOR PTSD • Criterion A: Stressor • Person has experienced, witnessed, or been confronted with an event or events that involve actual or threatened death or serious injury, or a threat to physical integrity of oneself or others • Person’s response involved intense fear, helplessness, or horror (or disorganized or agitated behavior in children)

  7. DSM IV SYMPTOM CLUSTERS • Criterion B: Re-experiencing symptoms • Criterion C: Avoidance and numbing symptoms (DSM V proposal is to separate these two into separate cluster • Criterion D: Hyperarousal symptoms

  8. REEXPERIENCING SYMPTOMS • Intrusive/distressing thoughts • Recurrent bad nightmares • Experience flashbacks • Intense emotional upset at reminder • Intense physical reactions at reminder • Person must experience at least one of the above

  9. AVOIDANCE AND NUMBING SYMPTOMS • Avoid thoughts/feelings • Avoid activities/situations/places • Can’t recall important aspects • Loss of interest in activities • Detached/cut-off from others • Impaired range of emotions • Changed future plans/hopes • At least three must be experienced

  10. HYPERAROUSAL SYMPTOMS • Difficulty sleeping • Irritable/anger outbursts • Difficulty concentration • Overly alert • Jumpier/easily startled • At least two must be experienced

  11. DURATION AND FUNCTIONAL SIGNIFICANCE • Criterion E: Duration of symptoms in B, C, and D is more than one month • Criterion F: The disturbance causes clinically significant distress or impairment in social, occupational, or other important areas of functioning

  12. NEUROBIOLOGY OF PTSD: HPA AXIS • Hypothalamus secretes corticotropin-releasing factor (CRF), which stimulates the Pituitary to produce and release adrenocorticotropin (ACTH), which stimulates release of glucocorticoids from the Adrenal cortex • In “Fight or Flight,” sustained glucocorticoids have adverse effects on hippocampal neurons

  13. PTSD AND THE HIPPOCAMPUS • Sustained exposure by glucocorticoids (primarily cortisol) to hippocampal neurons leads to reduction in dendritic branching and reduced hippocampal volume, a finding in PTSD • Paradoxically, in combat vets, holocaust victims, and abuse victims, there are decreased blood/urine cortisol levels

  14. CRF AND CORTISOL • Corticotropin-Releasing Factor – increased CRF concentrations in lumbar puncture despite low cortisol concentration • Increased CRF in the CNS may promote increased startle reactivity and hyper-arousal

  15. TRYING TO EXPLAIN THE PARADOX • Elevated levels of hypothalamic CRF activity corresponds with down-regulation of pituitary CRF receptors • Together with the reduced hippocampal volume, the neuroendocrine findings in PTSD reflect the sensitization of the HPA axis to exposure to stressors • This pattern distinguished PTSD from major depression

  16. NEUROTRANSMITTERS: THE CATECHOLAMINES • Norephinephrine and epinephrine are released from the adrenal medulla during exposure to a stressor • Increased urinary excretion of NE is found in PTSD patients, who also exhibit increased heart rate, BP, and NE levels when challenged with traumatic reminders

  17. NEUROTRANSMITTERS: SEROTONIN • Serotonin. Serotonergic neurons originate in the brainstem and project to brain regions including the amygdala, hippocampus, and pre-frontal cortex (PFC) • It helps to regulate sleep, appetite, sexual behavior, aggression/impulsivity, and analgesia

  18. NEUROTRANSMITTERS: GABA/BNZ SYSTEM • GABA is the primary inhibitory transmitter in the CNS • PET scans reveal decreased BNZ receptor binding in the cortex, hippocampus, and thalamus of persons with PTSD • Treatment with BNZs after exposure to psychological trauma, however, doesn’t prevent PTSD

  19. NEUROTRANSMITTERS: GLUTAMATE/NMDA SYSTEM • Glutamate is the primary excitatory transmitter in the CNS and exposure to stress increases glutamate release • Glutamate binds to several receptors, one of which is NMDA • The glutamate/NMDA receptor system is implicated in learning, memory, and enhanced neuronal communication • Overexposure to glutamate is associated with excitotoxicity and may cause loss of neurons in the hippocampus and prefrontal cortex

  20. CHANGES IN STRUCTURAL AND FUNCTIONAL NEUROANATOMY • Decreased volume in the HIPPOCAMPUS. The hippocampus controls stress responses, declarative memory, and contextual aspects of fear conditioning • Functional imaging studies show hypersensitivity of the AMYGDALA in PTSD. The amygdala is involved with the acquisition of fear responses • The PREFRONTAL CORTEX exerts inhibitory control over stress responses including fear acquisition

  21. PREFRONTAL CORTEX CHANGES • The medial prefrontal cortex (mPFC) is connected to the amygdala and inhibits it. It also inhibits acquired fear responses • PTSD patients exhibit reduced volume in areas of the mPFC, and functional studies show decreased activation of the mPFC in response to traumatic stimuli. This finding is associated with symptom severity

  22. CONNECTING FINDINGS WITH SYMPTOMS: STRUCTURE • Decreased hippocampal volume can lead to memory impairments and impair the ability to distinguish between safe and unsafe contexts • Changes in the amygdala leads to exaggerated responses and promote the activation of stress responses • PFC impairments may cause deficits in suppressing fear responses and interfere with extinction

  23. CONNECTING FINDINGS WITH SYMPTOMS: FUNCTION • Norepinephrine enhances the encoding of fearful memories • Glucocorticoids block the retrieval of emotional memories • Together these actions could cause encoding of traumatic memories and lack of inhibition of memory retrieval which might cause intrusive memories

  24. CONNECTIONS: FUNCTION • Lack of regulatory acitivity of GABA could increase stress responsiveness • Lack of serotonin could lead to difficulties with impulsivity, aggression, and sleep/appetite disturbances. Serotonin projections exist in PFC and hippocampus, and decreased volume in those areas could result in fewer serotonergic neurons

  25. TARGETED AND NOVEL APPROACHES: THERAPY • The gold-standard is COGNITIVE-BEHAVIORAL THERAPY • Individual approaches help the patient confront altered traumatic memories while modifying negative belief systems • Cognitive Processing Therapy (CPT) and Prolonged Exposure Therapy (PE) are types of CBT

  26. TARGETED APPROACHES: PHARMACOLOGICAL • Pharmacological management of PTSD until recently was based on individual symptoms • Better understanding of the neuro-biological underpinnings helps in targeting the symptoms and symptom clusters

  27. REEXPERIENCING SYMPTOMS • Intrusive thoughts, nightmares, flashbacks, intense emotional and physical reactions • Hyperactivity in the amygdala results in exaggerated fear expression and impaired inhibition of fear • Decreased volume in hippocampus and PFC cause decreased serotonin expression that can cause sleep disturbance and depressed anxiolytic expressed

  28. TARGETED PHARMACY: REEXPERIENCING SYMTPOMS • SSRIs are considered the first line of defense and can help with co-morbid panic or major depression. SSRIs have been shown to increase volume of hippocampus • Atypical antipsychotics risperidone, quetiapine, olanzapine decrease intrusive thoughts and flashbacks

  29. AVOIDANCE AND NUMBING • Avoidance, can’t recall important events, detached, impaired range of emotions • SSRIs have been shown to reduce avoidance, especially in combination with CBT • Lamotrigine may be helpful if SSRIs can’t be tolerated • Numbing is the most elusive symptom, and often hinders exposure therapy

  30. HYPERAROUSAL SYMPTOMS • Sleep disturbance, irritability and anger, difficulty concentrating, overly alert, easily startled • Fullest range of drugs used to manage. • SSRIs show significant efficacy in reducing hyperarousal • Mood stabilizers lithium, olanzapine, valproic acid decrease hyperarousal

  31. NOVEL PHARMACOLOGY • Prazosin, an alpha-1 antagonist, is an adjunct for treatment in PTSD. • It is speculated that it blocks the brain’s response to norepinephrine • Has been shown to ameliorate nightmares

  32. CURRENT RESEARCH ON A VERY NOVEL APPROACH • D-CYCLOSERINE (DCS), an antibiotic used to treat TB, is a partial NMDA glutamate agonist • The glutamatergic NMDA receptor has been found to be critically involved in learning and memory, and learning may be augmented by DCS

  33. CURRENT RESEARCH • DCS has been shown to facilitate the extinction of learned fear in and reduce reinstatement of fear in rats • Human studies have shown efficacy in facilitating fear extinction in social anxiety and other phobias • DCS is ineffective by itself. It must be administered during exposure therapy

  34. DCS RESEARCH • DCS is thought to work cooperatively with glutamate that is released through synaptic activity associated with participation with CBT • NIMH is currently conducting study to test effectiveness of “virtual reality” exposure therapy and DCS to treat Iraq vets with PTSD

  35. DCS RESEARCH • A 50 mg. dose will be administered 30 minutes before each session of virtual reality exposure therapy using a head mounted device displaying scenes of Iraq • It’s speculated that VRT will be more acceptable to vets who view talk therapy as stigmatizing. It also may be an effective way to push past numbing

  36. FUTURE DIRECTIONS: CHICKEN OR EGG • Research on genetic factors and PTSD • Focus on early developmental factors • The above can help with predictability , since not all who are experience trauma will develop PTSD • 60% of women and 50% of men will experience a traumatic event, and 9.7% of women and 3.6% of men will develop PTSD • 30% of these will develop a chronic form

  37. RESOURCES • www.ptsd.va.gov • Heim C, Nemeroff C. Neurobiology of posttraumatic stress disorder. CNS Spectr. 2009.14:1(suppl 1): 13-24. • Norrholm SD, Jovanovic T. Tailoring therapeutic strategies for treating posttraumatic stress disorder symptoms clusters.Neuropsych Dis Treatment. 2010:6: 517-532.

  38. RESOURCES • Hoffman SG, Meuret AE, et al. Augmentation of exposure therapy with d-cycloserine for social anxiety disorder. Arch Gen Psychiatry. 2006: 298-304. • Gil S, Caspi Y, Ben-Ari I, et al. Memory of the traumatic event as a risk factor for the development of PTSD: lessons from the study of traumatic brain injury. CNS Spectr 11:8: 603-607.

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