Paul Tompkins scite author profile

The present study contrasted physiological response patterns occurring when subjects coped passively and actively with aversive stimuli. In one condition, 29 healthy young men were exposed to unpredictable noise (115BA) and shock (3.5 mA) with no means of control, and in the other they attempted to avoid the noise and shock with rapid keypresses. Both tasks were characterized by maximal uncertainty as to locus of presentation, chance of occurrence, and type of stimulus to occur next in sequence. Dependent variables included: reports of moods, reaction times, muscle tension, plasma concentrations of free fatty acids, cortisol and catecholamines, heart rate, blood pressures, systolic time intervals, cardiac output, systemic vascular resistance, and an index of myocardial contractility. Both experimental conditions produced significant neuroendocrine, lipid, and cardiovascular changes from baseline. The active avoidance procedure produced further increases in cardiac function which were related to control efforts as indexed by muscle tension and task performance. The results point toward the effects of effort in the face of uncertainty in determining the patterns of response to aversive stimulation.

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Neuroprotective effect of postischemic administration of progesterone in spontaneously hypertensive rats with focal cerebral ischemia

Kumon

Kim²,

Tompkins³

et al. 2000

119

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Brain Injury: Neuro-Inflammation, Cognitive Deficit, and Magnetic Resonance Imaging in a Model of Blast Induced Traumatic Brain Injury

Tompkins

Tesiram

Lerner

et al. 2013

Journal of Neurotrauma

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Blast wave-induced traumatic injury from terrorist explosive devices can occur at any time in either military or civilian environments. To date, little work has focused on the central nervous system response to a non-penetrating blast injury. We have evaluated the effect of a single 80-psi blast-overpressure wave in a rat model. Histological and immunochemical studies showed an early inflammatory response, tissue damage and the initiation of apoptosis. With regard to inflammation, polymorphonuclear leukocytes and lymphocytes infiltrated brain parenchyma within 1 h post-blast. Glial-fibrillary protein, cyclo-oxygenase-2ir, interleukin-1β and tumor necrosis factor were present by 1 h and remained detectable at three weeks post-injury. High mobility group box-1 protein was detectable at three weeks. With regard to tissue damage, S100β and 4-hydroxynonenal were present at 1 h and remained detectable at three weeks. Amyloid precursor protein was detectable at three weeks. As for apoptosis, Cleaved Caspase-3 was detectable at three weeks. Morris water maze assessment of cognitive function showed that blast injured animals required significantly more time to reach the platform on day 1 of training and traveled a greater distance to get to the platform on days 1 and 2. Blast-injured animals showed a significant increase in swimming speed (p<0.001), increased total distance traveled (p<0.001) and increased number of entries into the previous quadrant that had contained the escape platform (p<0.05). Magnetic resonance imaging showed hyperintense regions in the somatosensory area within 1 h. T2 relaxation times and apparent diffusion coefficients show increasing trends in both somatosensory and cortical regions. These data indicate an early and lasting response of brain tissue to non-penetrating blast over-pressure injury. This early inflammatory response is indicative of a mild traumatic brain injury. There is evidence of early hippocampal dysfunction.

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Regeneration of rat sciatic nerve across a LactoSorb bioresorbable conduit with interposed short-segment nerve grafts

Francel¹,

Smith²,

Stevens³

et al. 2003

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Blast Overpressure Waves Induce Transient Anxiety and Regional Changes in Cerebral Glucose Metabolism and Delayed Hyperarousal in Rats

et al. 2015

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Physiological alterations, anxiety, and cognitive disorders are strongly associated with blast-induced traumatic brain injury (blast TBI), and are common symptoms in service personnel exposed to blasts. Since 2006, 25,000–30,000 new TBI cases are diagnosed annually in U.S. Service members; increasing evidence confirms that primary blast exposure causes diffuse axonal injury and is often accompanied by altered behavioral outcomes. Behavioral and acute metabolic effects resulting from blast to the head in the absence of thoracic contributions from the periphery were examined, following a single blast wave directed to the head of male Sprague-Dawley rats protected by a lead shield over the torso. An 80 psi head blast produced cognitive deficits that were detected in working memory. Blast TBI rats displayed increased anxiety as determined by elevated plus maze at day 9 post-blast compared to sham rats; blast TBI rats spent significantly more time than the sham controls in the closed arms (p < 0.05; n = 8–11). Interestingly, anxiety symptoms were absent at days 22 and 48 post-blast. Instead, blast TBI rats displayed increased rearing behavior at day 48 post-blast compared to sham rats. Blast TBI rats also exhibited suppressed acoustic startle responses, but similar pre-pulse inhibition at day 15 post-blast compared to sham rats. Acute physiological alterations in cerebral glucose metabolism were determined by positron emission tomography 1 and 9 days post-blast using 18F-fluorodeoxyglucose (18F-FDG). Global glucose uptake in blast TBI rat brains increased at day 1 post-blast (p < 0.05; n = 4–6) and returned to sham levels by day 9. Our results indicate a transient increase in cerebral metabolism following a blast injury. Markers for reactive astrogliosis and neuronal damage were noted by immunoblotting motor cortex tissue from day 10 post-blast in blast TBI rats compared to sham controls (p < 0.05; n = 5–6).

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Paul Tompkins

Activation Patterns to Aversive Stimulation in Man: Passive Exposure Versus Effort to Control

Neuroprotective effect of postischemic administration of progesterone in spontaneously hypertensive rats with focal cerebral ischemia

Brain Injury: Neuro-Inflammation, Cognitive Deficit, and Magnetic Resonance Imaging in a Model of Blast Induced Traumatic Brain Injury

Regeneration of rat sciatic nerve across a LactoSorb bioresorbable conduit with interposed short-segment nerve grafts

Blast Overpressure Waves Induce Transient Anxiety and Regional Changes in Cerebral Glucose Metabolism and Delayed Hyperarousal in Rats

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