Objective There is converging evidence of gray matter (GM) structural alterations in different limbic structures in Post-Traumatic Stress Disorder (PTSD) patients. The aim of this study was to evaluate GM density in PTSD in relation to trauma load. Method Magnetic Resonance Imaging (MRI) scans of 21 subjects exposed to occupational trauma, who developed PTSD (S), and of 22 who did not (NS), were performed. The self-rated Trauma Antecedent Questionnaire (TAQ) was administered to assess lifelong trauma load and resilience. TAQ includes two scales (“trauma and neglect” TAQ−, and “resilience factors” TAQ+) further divided into four subscales measuring trauma load and resilience in four different age periods: zero to six, seven to twelve, thirteen to eighteen and adult. Regression analyses between the two sub-scales and GM density were performed on all 43 subjects by means of an optimized Voxel-Based Morphometry (VBM) analysis as implemented in SPM2. Results The analyses showed that GM density negatively correlated only with adult TAQ- in bilateral posterior cingulate, left anterior insula, and right anterior parahippocampal gyrus. Conclusions Irrespective of the PTSD diagnosis, trauma load was found to correlate with GM density in several limbic structures suggesting a high vulnerability of these structures to the effects of stress and trauma, These regions are implicated in integration, encoding and retrieval of autobiographical and episodic memories, emotional processing, interoceptive awareness and self-referential conscious experience. Thus, our study supports lower GM densities in limbic and paralimbic cortices as a potential structural basis for memory and dissociative dysfunction in PTSD.
The regional uptake of 99Tcm-labelled HMPAO has been measured with single photon emission computed tomography (SPECT). The potential value of 99Tcm-HMPAO as a flow tracer was evaluated. The uptake of 99Tcm-HMPAO as a function of time indicated that the tracer was trapped in the brain. The uptake images were compared with results from quantitative regional cerebral blood flow (rCBF) measurements using positron emission tomography (PET) and with 11C-fluoromethane used as a tracer. There was a strong correlation between the uptake of 99Tcm-HMPAO and rCBF. The conclusion was that the uptake of 99Tcm-HMPAO was dependent on rCBF.
Purpose: Response assessment at neoadjuvant (preoperative) chemotherapy of locally advanced breast cancer using clinical examination and mammography is insensitive. Mammoscintigraphy with 99m Tc-MIBI was studied for the prediction of response at such therapy before finishing the chemotherapy cycles. Material and Methods: Chemotherapy was given as repeated courses of 5-fluorouracil, epirubicin and cyclophosphamide (FEC). In 1 patient group ( n = 23), the tumor uptake relative to surrounding breast tissue and lung tissue at SPECT examination after finishing neoadjuvant chemotherapy was compared with the examination made before chemotherapy. In another group ( n = 30), a similar comparison after the first therapy cycle (mean 19 days) with a baseline examination was made. Histologic examination of the resected tumors was made. Results: After finishing chemotherapy, there was a strong reduction of the relative tumor activity, while there was no correlation with therapy effect as assessed by histology. After one therapy course, there was no significant reduction of the relative tumor uptake. Conclusion: Scintigraphy with 99m Tc-MIBI demonstrated the response after finished neoadjuvant chemotherapy of breast cancer using FEC-courses. It cannot be used to predict a therapy response after one therapy course.
Hyperbaric hyperoxia (HBO) is known to modulate aerobic metabolism, vasoreactivity and blood flow in the brain. Nevertheless, mechanisms underlying its therapeutic effects, especially in traumatic brain injury (TBI) and stroke patients, are debated. The present study aimed at investigating regional cerebral blood flow (rCBF) distribution during acute HBO exposure.Regional cerebral blood flow response was investigated in seven healthy subjects exposed to either normobaric normoxia or HBO with ambient pressure/inspired oxygen pressure of 101/21 and 250/250 kPa respectively. After 40 min at the desired pressure, they were injected a perfusion tracer and subsequently underwent brain single photon emission computed tomography. rCBF distribution changes in the whole brain were assessed by Statistical Parametric Mapping.During HBO, an increased relative rCBF distribution was found in sensory-motor, premotor, visual and posterior cingulate cortices as well as in superior frontal gyrus, middle/inferior temporal and angular gyrus and cerebellum, mainly in the dominant hemisphere. During normobaric normoxia, a higher (99m) Tc-HMPAO distribution in the right insula and subcortical structures as well as in bilateral hippocampi and anterior cingulated cortex was found.The present study firstly confirmed the rCBF distribution increase during HBO in sensory-motor and visual cortices, and it showed for the first time a higher perfusion tracer distribution in areas encompassed in dorsal attention system and in default mode network. These findings unfold both the externally directed cognition performance improvement related to the HBO and the internally directed cognition states during resting-state conditions, suggesting possible beneficial effects in TBI and stroke patients.
Objective The aim of this study was to investigate the distribution of the regional cerebral blood flow (rCBF) in occupational related PTSD subjects and to seek for possible correlations between brain perfusion and self-rating scales (SRSs) in order to cross-check their diagnostic value and to look for their neural correlates. Method Sixteen traumatized underground and long-distance train drivers developing (S) and 17 not developing (NS) PTSD after having experienced a “person-under-train” accident underwent clinical assessment and 99m Tc-HMPAO-SPECT during trauma scripts. Statistical parametric mapping (SPM2) was applied to analyse rCBF changes in S as compared to NS, and to search for correlations between rCBF and SRSs scores, modeling age, months since trauma and the ratio ‘gray matter/intra-cranial volume’ as nuisance variables. Results Significantly higher activity was observed during trauma script in left posterior insula, posterior cingulate, inferior parietal lobule, precuneus, and caudate in S as compared to NS. Impact of Event Scale (IES) and World Health Organisation (ten) Well-Being Index (WHO-10) scores highly correlated with tracer uptake to a great extent in the same regions in which rCBF differences between S and NS were found. Conclusions These findings support the involvement of posterior insular, cingulated, and parietal cortices (as well as the caudate) in the pathogenesis of PTSD and in the processing of related subjective well-being and distress. Our findings seem to provide a cross-validation for IES and WHO-10 scales by means of SPECT data, supporting their validity in the diagnosis of PTSD, and suggesting their use in future works.
Background: Several studies have reported limbic structures volume decrease in Post-Traumatic Stress Disorder (PTSD). However, in PTSD the effect of therapy on brain structures has seldom been investigated. The aim of the study was to evaluate the grey matter (GM) loss in occupational related PTSD and to assess the volumetric differences between patients responding (R) and non-responding (NR) to psychotherapy. Methods: Pre-EMDR MRI data of 21 train drives who did develop PTSD (S) and 22 who did not develop PTSD (NS) after person-under-the-train accidents were compared. Within S further comparisons were made between 10 R to Eye Movement Desensitisation Reprocessing (EMDR) therapy and 5 NR. Data were analysed by optimised voxel-based morphometry as implemented in Statistical Parametric Mapping. Results: As compared to NS, S showed a significant GM volume reduction in precuneus, lingual gyrus, posterior cingulate and parahippocampal cortex. The R>NR comparison highlighted a significant GM reduction in NR in bilateral posterior cingulate, left middle frontal cortex and right parahippocampal, insular and temporal cortices. Conclusions: Comparing two large groups of subjects significant GM volumetric reductions were found in PTSD in posterior limbic structures. NR showed, as compared to R, volume reduction in cortical structures including posterior cingulate and parahippocampal cortex. These latter two structures seem to be the hallmark for both PTSD diagnosis and therapy outcome prediction.
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