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Effects of psychotherapy on regional cerebral blood flow during trauma imagery in patients with post-traumatic stress disorder: a randomized clinical trial

Published online by Cambridge University Press:  06 September 2007

R. J. L. Lindauer ,
J. Booij ,
J. B. A. Habraken ,
E. P. M. van Meijel ,
H. B. M. Uylings ,
M. Olff ,
I. V. E. Carlier ,
G. J. den Heeten ,
B. L. F. van Eck-Smit  and
B. P. R. Gersons
R. J. L. Lindauer*
Affiliation:
Centre for Psychological Trauma, Department of Psychiatry, Academic Medical Centre, University of Amsterdam, Amsterdam, The Netherlands De Bascule and Department of Child and Adolescent Psychiatry, Academic Medical Centre, University of Amsterdam, Amsterdam, The Netherlands Graduate School of Neurosciences, Amsterdam, The Netherlands
J. Booij
Affiliation:
Department of Nuclear Medicine, Academic Medical Centre, University of Amsterdam, Amsterdam, The Netherlands
J. B. A. Habraken
Affiliation:
Department of Nuclear Medicine, Academic Medical Centre, University of Amsterdam, Amsterdam, The Netherlands
E. P. M. van Meijel
Affiliation:
Centre for Psychological Trauma, Department of Psychiatry, Academic Medical Centre, University of Amsterdam, Amsterdam, The Netherlands De Bascule and Department of Child and Adolescent Psychiatry, Academic Medical Centre, University of Amsterdam, Amsterdam, The Netherlands
H. B. M. Uylings
Affiliation:
Netherlands Institute for Neuroscience, Netherlands Institute for Neuroscience, Amsterdam, The Netherlands Royal Netherlands Academy of Arts and Sciences, Amsterdam, The Netherlands Department of Anatomy, VU Medical Centre, Amsterdam, The Netherlands
M. Olff
Affiliation:
Centre for Psychological Trauma, Department of Psychiatry, Academic Medical Centre, University of Amsterdam, Amsterdam, The Netherlands
I. V. E. Carlier
Affiliation:
Centre for Work-Related Mental Disorders, Altrecht Institute for Mental Health Care, Utrecht, The Netherlands
G. J. den Heeten
Affiliation:
Department of Radiology, Academic Medical Centre, University of Amsterdam, Amsterdam, The Netherlands
B. L. F. van Eck-Smit
Affiliation:
Department of Nuclear Medicine, Academic Medical Centre, University of Amsterdam, Amsterdam, The Netherlands
B. P. R. Gersons
Affiliation:
Centre for Psychological Trauma, Department of Psychiatry, Academic Medical Centre, University of Amsterdam, Amsterdam, The Netherlands
*
*Address for correspondence: Dr R. J. L. Lindauer, M.A., M.D., Ph.D., Academic Medical Centre, Department of Child and Adolescent Psychiatry, Meibergdreef 5, 1105 AZ Amsterdam, The Netherlands. (Email: [email protected])
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Abstract

Background

Functional brain-imaging studies in post-traumatic stress disorder (PTSD) have suggested functional alterations in temporal and prefrontal cortical regions. Effects of psychotherapy on these brain regions have not yet been examined.

Method

Twenty civilian PTSD out-patients and 15 traumatized control subjects were assessed at baseline using psychometric ratings. Cerebral blood flow was measured using trauma script-driven imagery during 99mtechnetium hexamethyl-propylene-amine-oxime single-photon emission computed tomography scanning. All 20 out-patients were randomly assigned to treatment or wait-list conditions. Treatment was brief eclectic psychotherapy (BEP) in 16 weekly individual sessions.

Results

At baseline, greater activation was found in the right insula and right superior/middle frontal gyrus in the PTSD group than in the control group. PTSD patients treated with BEP significantly improved on all PTSD symptom clusters compared to those on the waiting list. After effective psychotherapy, lower activation was measured in the right middle frontal gyrus, compared to the PTSD patients on the waiting list. Treatment effects on PTSD symptoms correlated positively with activation in the left superior temporal gyrus, and superior/middle frontal gyrus.

Conclusions

BEP induced clinical recovery in PTSD patients, and appeared to modulate the functioning of specific PTSD-related sites in the prefrontal cortical regions.

Keywords

Brain imagingpost-traumatic stress disorderpsychotherapyrandomized clinical trial
Type
Original Articles
Information
Psychological Medicine , Volume 38 , Issue 4 , April 2008 , pp. 543 - 554
Copyright
Copyright © Cambridge University Press 2007

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References

APA (1994). Diagnostic and Manual of Mental Disorders, 4th edn. Washington, DC: American Psychiatric Association.Google Scholar
Amunts, K, Schleicher, A, Burgel, U, Mohlberg, H, Uylings, HBM, Zilles, K (1999). Broca's region revisited: cytoarchitecture and intersubject variability. Journal of Comparative Neurology 412, 319341.3.0.CO;2-7>CrossRefGoogle ScholarPubMed
Anderson, MC, Ochsner, KN, Kuhl, B, Cooper, J, Robertson, E, Gabrieli, SW, Glover, GH, Gabrieli, JDE (2004). Neural systems underlying the suppression of unwanted memories. Science 303, 232235.CrossRefGoogle ScholarPubMed
Baxter, LR Jr., Schwartz, JM, Bergman, KS, Szuba, MP, Guze, BH, Mazziotta, JC, Alazraki, A, Selin, CE, Gerng, HK, Munford, P (1992). Caudate glucose metabolic rate changes with both drug and behavior therapy for obsessive-compulsive disorder. Archives of General Psychiatry 49, 681689.CrossRefGoogle ScholarPubMed
Bernstein, EM, Putman, FW (1986). Development, reliability and validity of a dissociation scale. Journal of Nervous and Mental Disorders 174, 727735.CrossRefGoogle ScholarPubMed
Booij, J, Tissingh, G, Boer, GJ, Speelman, JD, Stoof, JC, Janssen, AGM, Wolters, ECH, Van Royen, EA (1997). [123I]FP-CIT SPECT shows a pronounced decline of striatal labelling in early and advanced Parkinson's disease. Journal of Neurology, Neurosurgery and Psychiatry 62, 133140.Google Scholar
Bouton, ME (2002). Context, ambiguity, and unlearning: sources of relapse after behavioural extinction. Biological Psychiatry 52, 976986.CrossRefGoogle Scholar
Bremner, JD (2002). Neuroimaging of childhood trauma. Seminars in Clinical Neuropsychiatry 7, 104112.CrossRefGoogle ScholarPubMed
Bremner, JD, Innis, RB, Ng, CK, Staib, LH, Salomon, RM, Bronen, RA, Duncan, J, Southwick, SM, Krystal, JH, Rich, D, Zubal, G, Dey, H, Soufer, R, Charney, DS (1997). Positron emission tomography measurement of cerebral metabolic correlates of yohimbine administration in combat-related posttraumatic stress disorder. Archives of General Psychiatry 54, 246254.Google Scholar
Bremner, JD, Narayan, M, Staib, L, Southwick, SM, McGlashan, T, Charney, DS (1999). Neural correlates of memories of childhood sexual abuse in women with and without posttraumatic stress disorder. American Journal of Psychiatry 156, 17871795.CrossRefGoogle ScholarPubMed
Bremner, JD, Vythilingam, M, Vermetten, E, Southwick, SM, McGlashan, T, Nazeer, A, Khan, S, Vaccarino, LV, Soufer, R, Garg, PK, Ng, CK, Staib, LH, Duncan, JS, Charney, DS (2003). MRI and PET study of deficits in hippocampal structure and function in women with childhood sexual abuse and posttraumatic stress disorder. American Journal of Psychiatry 160, 924932.CrossRefGoogle ScholarPubMed
Brett, M, Johnsrude, IS, Owen, AM (2002). The problem of functional localization in the human brain. Nature Reviews Neuroscience 3, 243249.CrossRefGoogle ScholarPubMed
Brewin, CR (2001). A cognitive neuroscience account of posttraumatic stress disorder and its treatment. Behaviour Research and Therapy 39, 373393.CrossRefGoogle ScholarPubMed
Brody, AL, Saxena, S, Stoessel, P, Gillies, LA, Fairbanks, LA, Alborzian, S, Phelps, ME, Huang, SC, Wu, HM, Ho, MK, Au, SC, Maidment, K, Baxter, LR Jr. (2001). Regional brain metabolic changes in patients with major depression treated with either paroxetine or interpersonal therapy: preliminary findings. Archives of General Psychiatry 58, 631640.CrossRefGoogle ScholarPubMed
Carlier, IVE, Fouwels, AJ, Lamberts, RD, Gersons, BPR (1996). Posttraumatic stress disorder and dissociation in traumatized police officers. American Journal of Psychiatry 153, 13251328.Google ScholarPubMed
Carlier, IVE, Lamberts, RD, Van Uchelen, JJ, Gersons, BPR (1998). Clinical utility of a brief diagnostic test for PTSD. Psychosomatic Medicine 60, 4247.Google Scholar
Carlier, IVE, Voerman, BE, Gersons, BPR (2000). Intrusive traumatic recollections and comorbid posttraumatic stress disorder in depressed patients. Psychosomatic Medicine 62, 2632.CrossRefGoogle ScholarPubMed
Chau, W, McIntosh, AR (2005). The Talairach coordinate of a point in the MNI space: how to interpret it. Neuroimage 25, 408416.CrossRefGoogle Scholar
Clark, CR, McFarlane, AC, Morris, P, Weber, DL, Sonkkilla, C, Shaw, M, Marcina, J, Tochon-Danguy, HJ, Egan, GF (2003). Cerebral function in posttraumatic stress disorder during verbal working memory updating: a positron emission tomography study. Biological Psychiatry 53, 474481.CrossRefGoogle ScholarPubMed
Davis, M, Whalen, PJ (2001). The amygdala: vigilance and emotion. Molecular Psychiatry 6, 1334.Google Scholar
Davidson, JRT, Smith, R, Kudler, HS (1989). Validity and reliability of the DSM-III criteria for posttraumatic stress disorder: experience with a structured interview. Journal of Nervous and Mental Disorders 177, 336341.Google Scholar
Devinsky, O, Morrell, MJ, Vogt, BA (1995). Contributions of anterior cingulate cortex to behaviour. Brain 118, 279306.CrossRefGoogle ScholarPubMed
Drevets, WC, Videen, TQ, MacLeod, AK, Haller, JW, Raichle, ME (1992). PET images of blood flow changes during anxiety: Correction [Letter]. Science 256, 1696.CrossRefGoogle ScholarPubMed
Fernandez, M, Pissiota, A, Frans, O, Von Knorring, L, Fischer, H, Fredrikson, M (2001). Brain function in a patient with torture related post-traumatic stress disorder before and after fluoxetine treatment: a positron emission tomography provocation study. Neuroscience Letters 297, 101104.CrossRefGoogle Scholar
Friston, KJ, Holmes, AP, Poline, JB, Price, CJ, Frith, CD (1996). Detecting activation in PET and fMRI: levels of inference and power. Neuroimage 4, 223235.Google Scholar
Friston, KJ, Holmes, AP, Worsley, KJ, Poline, JB, Frith, CD, Frakowiak, RSJ (1995). Statistical parametric maps in functional imaging: general approach. Human Brain Mapping 2, 189210.CrossRefGoogle Scholar
Furmark, T, Tillfors, M, Martlinsdottin, I, Fischer, H, Pissiota, A, Langstrom, B, Fredrikson, M (2002). Common changes in cerebral blood flow in patients with social phobia treated with citalopram or cognitive-behavioural therapy. Archives of General Psychiatry 59, 425433.Google Scholar
Gersons, BPR, Carlier, IVE, Lamberts, RD, Van der Kolk, BA (2000). Randomized clinical trial of brief eclectic psychotherapy for police officers with posttraumatic stress disorder. Journal of Traumatic Stress 13, 333347.CrossRefGoogle ScholarPubMed
Gersons, BPR, Carlier, IVE, Olff, M (2004). Manual Brief Eclectic Psychotherapy (BEP) for Posttraumatic Stress Disorder. Academic Medical Centre: Amsterdam.Google Scholar
Gilboa, A (2004). Autobiographical and episodic memory – one and the same? Evidence from prefrontal activation in neuroimaging studies. Neuropsychologia 42, 13361349.CrossRefGoogle ScholarPubMed
Gilboa, A, Shalev, AY, Laor, L, Lester, H, Louzoun, Y, Chisin, R, Bonne, O (2004). Functional connectivity of the prefrontal cortex and the amygdala in posttraumatic stress disorder. Biological Psychiatry 55, 263272.CrossRefGoogle ScholarPubMed
Goldapple, K, Segal, Z, Garson, C, Lau, M, Bieling, P, Kennedy, S, Mayberg, H (2004). Modulation of cortical-limbic pathways in major depression. Archives of General Psychiatry 61, 3441.CrossRefGoogle ScholarPubMed
Hull, AM (2002). Neuroimaging findings in post-traumatic stress disorder. British Journal of Psychiatry 181, 102110.Google ScholarPubMed
Lanius, RA, Williamson, PC, Boksman, K, Densmore, M, Gupta, M, Neufeld, RWJ, Gati, JS, Menon, RS (2002). Brain activation during script-driven imagery induced dissociative responses in PTSD: a functional magnetic resonance imaging investigation. Biological Psychiatry 52, 305311.CrossRefGoogle ScholarPubMed
Lanius, RA, Williamson, PC, Densmore, M, Boksman, K, Gupta, MA, Neufeld, RWJ, Gati, JS, Menon, RS (2001). Neural correlates of traumatic memories in posttraumatic stress disorder: a functional MRI investigation. American Journal of Psychiatry 158, 19201922.Google Scholar
Lanius, RA, Williamson, PC, Hopper, J, Densmore, M, Boksman, K, Gupta, MA, Neufeld, RWJ, Gati, JS, Menon, RS (2003). Recall of emotional states in posttraumatic stress disorder: an fMRI investigation. Biological Psychiatry 53, 204210.Google Scholar
LeDoux, JE (2000). Emotion circuits in the brain. Annual Review of Neuroscience 23, 155184.Google Scholar
LeDoux, JE (2002). Synaptic Self. Viking Penguin: New York.Google Scholar
Levin, P, Lazrove, S, Van der Kolk, BA (1999). What psychological testing and neuroimaging tell us about the treatment of posttraumatic stress disorder by eye movement desensitization and reprocessing. Journal of Anxiety Disorders 13, 159172.CrossRefGoogle ScholarPubMed
Levy, R, Goldman-Rakic, PC (2000). Segregation of working memory functions within the dorsolateral prefrontal cortex. Experimental Brain Research 133, 2332.CrossRefGoogle ScholarPubMed
Liberzon, I, Taylor, SF, Amdur, R, Jung, TD, Chamberlain, KR, Minoshima, S, Koeppe, RA, Fig, LM (1999). Brain activation in PTSD in response to trauma-related stimuli. Biological Psychiatry 45, 817826.CrossRefGoogle ScholarPubMed
Liberzon, I, Taylor, SF, Fig, LM, Koeppe, RA (1997). Alteration of corticothalamic perfusion ratios during a PTSD flashback. Depression and Anxiety 4, 146150.3.0.CO;2-E>CrossRefGoogle Scholar
Lindauer, RJL, Booij, J, Habraken, JBA, Uylings, HBM, Olff, M, Carlier, IVE, Den Heeten, G, Van Eck-Smit, BLF, Gersons, BPR (2004). Cerebral blood flow changes during script-driven imagery in police officers with posttraumatic stress disorder. Biological Psychiatry 56, 853861.CrossRefGoogle ScholarPubMed
Lindauer, RJL, van Meijel, EPM, Jalink, M, Olff, M, Carlier, IVE, Gersons, BPR (2005). Heart rate responsivity to script-driven imagery in posttraumatic stress disorder: specificity of response and effects of psychotherapy. Psychosomatic Medicine 68, 3340.CrossRefGoogle Scholar
Lucey, JV, Costa, DC, Adshead, G, Deahl, M, Busatto, G, Gacinovic, S, Travis, M, Pilowsky, L, Ell, PJ, Marks, IM, Kerwin, RW (1997). Brain blood flow in anxiety disorders: OCD, panic disorder with agoraphobia, and post-traumatic stress disorder on 99mTcHMPAO single photon emission tomography (SPET). British Journal of Psychiatry 171, 346350.Google Scholar
Mirzaei, S, Knoll, P, Keck, A, Preitler, B, Gurtierrez, E, Umek, H, Kohn, H, Pechenstorfer, M (2001). Regional cerebral blood flow in patients suffering from post-traumatic stress disorder. Neuropsychobiology 43, 260264.Google Scholar
Osuch, EA, Benson, B, Geraci, M, Podell, D, Herscovitch, P, McCann, UD, Post, RM (2001). Regional cerebral blood flow correlated with flashback intensity in patients with posttraumatic stress disorder. Biological Psychiatry 50, 246253.CrossRefGoogle ScholarPubMed
Pissiota, A, Frans, O, Fernandez, M, Von Knorring, L, Fischer, H, Fredrikson, M (2003). Neurofunctional correlates of posttraumatic stress disorder: a PET symptom provocation study. European Archives of Psychiatry and Clinical Neuroscience 252, 6875.Google Scholar
Pitman, RK, Orr, SP, Forgue, DF, De Jong, JB, Claiborn, JM (1987). Psychophysiologic assessment of posttraumatic stress disorder imagery in Vietnam combat veterans. Archives of General Psychiatry 44, 970975.CrossRefGoogle ScholarPubMed
Pitman, RK, Shin, LM, Rauch, SL (2001). Investigating the pathogenesis of posttraumatic stress disorder with neuroimaging. Journal of Clinical Psychiatry 62 (Suppl. 17), 4754.Google Scholar
Rauch, SL, Savage, CR, Alpert, NM, Fischman, AJ, Jenike, MA (1997). The functional neuroanatomy of anxiety: a study of three disorders using positron emission tomography and symptom provocation. Biological Psychiatry 42, 446452.Google Scholar
Rauch, SL, Van der Kolk, BA, Fisher, RE, Alpert, NM, Orr, SP, Savage, CR, Fischman, AJ, Jenike, MA, Pitman, RK (1996). A symptom provocation study of posttraumatic stress disorder using positron emission tomography and script-driven imagery. Archives of General Psychiatry 53, 380387.CrossRefGoogle ScholarPubMed
Rauch, SL, Whalen, PJ, Shin, LM, McInerney, SC, Macklin, ML, Lasko, NB, Orr, SP, Pitman, RK (2000). Exaggerated amygdala response to masked facial stimuli in posttraumatic stress disorder: a functional MRI study. Biological Psychiatry 47, 769776.Google Scholar
Sachinvala, N, Kling, A, Suffin, S, Lake, R, Cohen, M (2000). Increased regional cerebral perfusion by 99mTc hexamethyl propylene amine oxime single photon emission computed tomography in post-traumatic stress disorder. Military Medicine 165, 473479.CrossRefGoogle ScholarPubMed
Seedat, S, Warwick, J, Van Heerden, B, Hugo, C, Zungu-Dirwayi, N, Van Kradenbrug, J, Stein, DJ (2004). Single photon emission computed tomography in posttraumatic stress disorder before and after treatment with a selective serotonine reuptake inhibitor. Journal of Affective Disorders 80, 4553.Google Scholar
Semple, WE, Goyer, PF, McCormick, R (2000). Higher brain blood flow at amygdala and lower frontal cortex blood flow in PTSD patients with comorbid cocaine and alcohol abuse compared with normals. Psychiatry 63, 6574.Google Scholar
Semple, WE, Goyer, PF, McCormick, R, Compton-Toth, B, Morris, E, Donovan, B, Muswick, G, Nelson, D, Garnett, ML, Sharhoff, J, Leisure, G, Miraldi, F, Schulz, SC (1996). Attentional and regional cerebral blood flow in posttraumatic stress disorder patients with substance abuse histories. Psychiatric Research: Neuroimaging 67, 1728.Google Scholar
Semple, WE, Goyer, PF, McCormick, R, Morris, E, Compton-Toth, B, Muswick, G, Nelson, D, Donovan, B, Leisure, G, Berridge, M, Miraldi, F, Schulz, SC (1993). Preliminary report: brain blood flow using PET in patients with posttraumatic stress disorder and substance abuse histories. Biological Psychiatry 34, 115118.Google Scholar
Shaw, ME, Strother, SC, McFarlane, AC, Morris, P, Anderson, J, Clark, CR, Egan, GF (2002). Abnormal functional connectivity in posttraumatic stress disorder. Neuroimage 15, 661674.CrossRefGoogle ScholarPubMed
Shin, LMKosslyn, SMMcNally, RJ, Alpert, NM, Thompson, WL, Rauch, SL, Macklin, ML, Pitman, RK (1997). Visual imagery and perception in posttraumatic stress disorder. Archives of General Psychiatry 54, 233241.Google Scholar
Shin, LM, McNally, RJ, Kosslyn, SM, Thompson, WL, Rauch, SL, Alpert, NM, Metzger, LJ, Lasko, NB, Orr, SP, Pitman, RK (1999). Regional cerebral blood flow during script-driven imagery in childhood sexual abuse-related PTSD: a PET investigation. American Journal of Psychiatry 156, 575584.Google Scholar
Shin, LM, Orr, SP, Carson, MA, Rauch, SL, Macklin, ML, Lasko, NB, Orr, SP, Pitman, RK (2004). Regional cerebral blood flow in the amygdala and medial prefrontal cortex during traumatic imagery in male and female Vietnam veterans with PTSD. Archives of General Psychiatry 61, 168176.Google Scholar
Shin, LM, Whalen, PJ, Pitman, RK, Bush, G, Macklin, ML, Lasko, NB, Orr, SP, McInerney, SC, Rauch, SL (2001). An fMRI study of anterior cingulate function in posttraumatic stress disorder. Biological Psychiatry 50, 932942.CrossRefGoogle ScholarPubMed
Smith, EE, Jonides, J (1999). Storage and executive processes in the frontal lobes. Science 283, 16571661.Google Scholar
Spielberger, CD, Gorsuch, RL, Lushene, RE (1970). STAI Manual for The State-Trait Inventory. Consulting Psychologist Press: Palo Alto.Google Scholar
Spitzer, B, Gibbon, RL, Janet, M, Janet, W (1996). Structured Clinical Interview for DSM-IV Axis I Disorders – Patient Edition (SCID-I/P, version 2.0). American Psychiatric Press: New York.Google Scholar
Talairach, J, Tournoux, P (1988). Co-planar Stereotaxic Atlas of the Human Brain. Thieme: New York.Google Scholar
Uylings, HBM, Rajkowska, G, Sanz-Arigita, E, Amunts, K, Zilles, K (2005). Consequences of large interindividual variability for human brain atlases: converging macroscopical imaging and microscopical neuroanatomy. Anatomy and Embryology 210, 423431.Google Scholar
Weber, DL, Clark, CR, McFarlane, AC, Moores, KA, Morris, P, Egan, GF (2005). Abnormal frontal and parietal activity during working memory updating in posttraumatic stress disorder. Psychiatry Research 140, 2744.Google Scholar
Worsley, KJ, Evans, AC, Marrett, S, Neelin, P (1992). A three-dimensional statistical analysis for CBF activation studies in human brain. Journal of Cerebral Blood Flow Metabolism 12, 900918.Google Scholar
Zubieta, J-K, Chinitz, JA, Lombardi, U, Fig, LM, Cameron, OG, Liberzon, I (1999). Medial frontal cortex involvement in PTSD symptoms: a SPECT study. Journal of Psychiatric Research 33, 259264.Google Scholar