Alleviation of Brain Injury‐Induced Cerebral Metabolic Depression by Amphetamine: A Cytochrome Oxidase Histochemistry Study

Sutton, Richard L.; Hovda, David A.; Chen, Michael; Feeney, Dennis M.

doi:10.1155/np.2000.109

Cited by 23 publications

(13 citation statements)

References 82 publications

(119 reference statements)

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“…Several research groups have demonstrated similar long-lasting beneficial effects of amphetamine on functional recovery from brain injury in animals and Man (55)(56)(57), suggesting a common mechanism related to improvement in blood flow and facilitation of repair mechanisms.…”

Section: Discussionmentioning

confidence: 91%

Dynamic changes in N -methyl- d -aspartate receptors after closed head injury in mice: Implications for treatment of neurological and cognitive deficits

Biegon

Fry

Paden

et al. 2004

Proc. Natl. Acad. Sci. U.S.A.

220

164

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Traumatic brain injury is a leading cause of mortality and morbidity among young people. For the last couple of decades, it was believed that excess stimulation of brain receptors for the excitatory neurotransmitter glutamate was a major cause of delayed neuronal death after head injury, and several major clinical trials in severely head injured patients used blockers of the glutamate N-methyl-D-aspartate (NMDA) receptor. All of these trials failed to show efficacy. Using a mouse model of traumatic brain injury and quantitative autoradiography of the activity-dependent NMDA receptor antagonist MK801, we show that hyperactivation of glutamate NMDA receptors after injury is short-lived (<1 h) and is followed by a profound and long-lasting (>7 days) loss of function. Furthermore, stimulation of NMDA receptors by NMDA 24 and 48 h postinjury produced a significant attenuation of neurological deficits (blocked by coadministration of MK801) and restored cognitive performance 14 days postinjury. These results provide the underlying mechanism for the well known but heretofore unexplained short therapeutic window of glutamate antagonists after brain injury and support a pharmacological intervention with a relatively long (>24 h) time window easily attainable for treatment of human accidental head injury.H ead trauma is a leading cause of mortality and morbidity among young people in the western world (1). Traumatic and ischemic brain injury triggers a large, transient increase in excitatory amino acid transmitter efflux in the brain of experimental animals and human subjects (2-6). Glutamate activation of the N-methyl-D-aspartate (NMDA) receptor (NMDAR), which is a ligand-gated ion (calcium and sodium) channel, results in channel opening and ion influx into the cell. It has been suggested that this process mediates delayed excitotoxic neuronal death after brain ischemia and trauma (7,8), although the concept is not universally accepted (9, 10). Support for the involvement of NMDAR activation in neuronal death after brain injury has come from numerous studies showing that NMDAR antagonists reduce cell death and improve outcome in animal models of traumatic brain injury (TBI) and stroke. NMDAR antagonists appear to be most efficacious when given before or immediately after the insult and lose efficacy if administered Ͼ30-60 min postinjury (11)(12)(13)(14)(15).Microdialysis studies of extracellular glutamate in human TBI and stroke patients suggested that the increase in glutamate in humans is more sustained [6 h to several days (7, 8)] than in rodents, where it only lasts minutes (2-6). This result may have contributed to a decision to administer NMDAR antagonists in clinical trials of head injury for several days rather than once after severe nonpenetrating injury. All clinical trials of NMDAR antagonists to date failed to show efficacy. Furthermore, some of these trials had to be stopped prematurely because of increases in mortality and morbidity in the drug arm of the stroke trials (16-18), suggesting that prolonged bloc...

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Section: Discussionmentioning

confidence: 91%

Dynamic changes in N -methyl- d -aspartate receptors after closed head injury in mice: Implications for treatment of neurological and cognitive deficits

Biegon

Fry

Paden

et al. 2004

Proc. Natl. Acad. Sci. U.S.A.

220

164

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“…The lack of increase in BDNF in the sham-fRW group was not unexpected and is in accordance with recent studies. 18 Given the suppressive effects of glucocorticoids on BDNF, 20 it is likely that the negative effects of fRW on BDNF were related to the pronounced elevations in ACTH and CORT found with fRW. It is yet to be determined if prolonged fRW exposure would result in BDNF elevations once animals habituated to the fRW.…”

Section: Discussionmentioning

confidence: 99%

Recovery of Stress Response Coincides with Responsiveness to Voluntary Exercise after Traumatic Brain Injury

Griesbach

Tio

Nair

et al. 2014

Journal of Neurotrauma

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We have recently shown that there is a heightened stress response after a mild traumatic brain injury (TBI) during the first 2 post-injury weeks. This corresponds to the same post-injury period when exercise does not increase brain-derived neurotrophic factor (BDNF) and autonomic dysfunction becomes evident with exercise. Here we determined stress and autonomic responses to voluntary and forced exercise at a post-injury time window when exercise has been found to elicit beneficial effects. Rats underwent a mild fluid percussion injury and were exercised at post-injury days 28-32 and 35-39. Cardiac and temperature autonomic function were evaluated. Hippocampal tissue was obtained immediately after exercise for analysis of BDNF. In contrast to the sub-acute period, corticosterone and adrenocorticotropic hormone responses to exercise were normalized in the TBI group. Irrespective of injury, forced exercise markedly stimulated the corticotrophic axis and did not increase BDNF. BDNF levels were increased with voluntary exercise in all animals. Rats exposed to forced exercise had lower activity levels during periods of non-exercise. This effect was more pronounced in the TBI rats. Cardiac and temperature autonomic responses to delayed exercise also recuperated. Rats with TBI that underwent forced exercise, however, had higher core body temperatures during experimental manipulations, thus suggesting that exposure to a potent stressor facilitates responsiveness to environmental stimulations.

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“…Stroemer et al [21] documented enhancement of neocortical neural sprouting, synaptogenesis and behavioral recovery during d-amphetamine administration in animal models. Queen and colleagues [22] and Sutton et al [23] proved that D-amphetamine counteracts reduced brain glucose metabolism in damaged sensorimotor cortex, and improves recovery from the damage. Robbins [24] emphasized that drugs affecting the central catecholaminergic (noradrenergic and dopaminergic) systems increase plasticity in the prefrontal cortex (the structure responsible for behavior planning and control), and particularly improve functions that are dependent upon the dorsolateral frontal cortex.…”

Section: Discussionmentioning

confidence: 99%

New approach to the rehabilitation of post-stroke focal cognitive syndrome: Effect of levodopa combined with speech and language therapy on functional recovery from aphasia

Seniów

Litwin

et al. 2009

Journal of the Neurological Sciences

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Alleviation of Brain Injury‐Induced Cerebral Metabolic Depression by Amphetamine: A Cytochrome Oxidase Histochemistry Study

Cited by 23 publications

References 82 publications

Dynamic changes in N -methyl- d -aspartate receptors after closed head injury in mice: Implications for treatment of neurological and cognitive deficits

Dynamic changes in N -methyl- d -aspartate receptors after closed head injury in mice: Implications for treatment of neurological and cognitive deficits

Recovery of Stress Response Coincides with Responsiveness to Voluntary Exercise after Traumatic Brain Injury

New approach to the rehabilitation of post-stroke focal cognitive syndrome: Effect of levodopa combined with speech and language therapy on functional recovery from aphasia

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