Neuroprotection by erythropoietin administration after experimental traumatic brain injury

Grasso, Giovanni; Sfacteria, Alessandra; Meli, Francesco; Fodale, Vincenzo; Buemi, Michele; Iacopino, Domenico Gerardo

doi:10.1016/j.brainres.2007.08.078

Cited by 105 publications

(66 citation statements)

References 46 publications

(69 reference statements)

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“…101 Specifically, EPO-derived peptides have been shown to ameliorate the extent of concussive brain injury, the immune damage in experimental autoimmune encephalomyelitis, and the toxicity of kainite. 102 In a cryogenic model of cortical brain injury, 103 EPO administration significantly reduced vasogenic brain edema, attenuated blood-brain barrier breakdown, reduced lesion volume, and ameliorated motor dysfunction. Similarly, following traumatically induced contusion injury, EPO administration increased the neuronal density in the CA1 and CA3 region of the hippocampus, and significantly reduced the total contusion volume when administered within 6 h of injury.…”

Section: Erythropoietinmentioning

confidence: 99%

Multifunctional Drugs for Head Injury

2009

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Summary: Traumatic brain injury (TBI) remains one of the leading causes of mortality and morbidity worldwide in individuals under the age of 45 years, and, despite extensive efforts to develop neuroprotective therapies, there has been no successful outcome in any trial of neuroprotection to date. In addition to recognizing that many TBI clinical trials have not been optimally designed to detect potential efficacy, the failures can be attributed largely to the fact that most of the therapies investigated have been targeted toward an individual injury factor. The contemporary view of TBI is that of a very heterogenous type of injury, one that varies widely in etiology, clinical presentation, severity, and pathophysiology. The mechanisms involved in neuronal cell death after TBI involve an interaction of acute and delayed anatomic, molecular, biochemical, and physiological events that are both complex and multifaceted. Accordingly, neuropharmacotherapies need to be targeted at the multiple injury factors that contribute to the secondary injury cascade, and, in so doing, maximize the likelihood of a successful outcome. This review focuses on a number of such multifunctional compounds that have shown considerable success in experimental studies and that show maximum promise for success in clinical trials.

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Section: Erythropoietinmentioning

confidence: 99%

Multifunctional Drugs for Head Injury

2009

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“…67,76 -86 Brain edema after experimental injury can effectively be attenuated by posttreatment with EPO. 76,78,83 Mechanisms which account for the beneficial actions after traumatic injuries include inhibition of apoptosis, anti-inflammatory and anti-oxidant actions, restoration of blood-brain barrier integrity, stimulation of neurogenesis, and angiogenesis, 7,8,67,76 -84 but it is not yet clear which of the neuroprotective effects of EPO are responsible for the long-term prevention of trauma-induced brain atrophy, cognitive and neurobehavioral dysfunction. 86 Recovery of both motor function and reduction of the histopathological damage by EPO and its nonerythropoietic derivatives CEPO and asialo-EPO have been reported in various, but not all, models of spinal cord injury.…”

Section: Traumatic Brain Injury and Spinal Cord Injurymentioning

confidence: 99%

Therapeutic Potential of Erythropoietin and its Structural or Functional Variants in the Nervous System

et al. 2009

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Summary:The growth factor erythropoietin (EPO) and erythropoietin receptors (EPOR) are expressed in the nervous system. Neuronal expression of EPO and EPOR peaks during brain development and is upregulated in the adult brain after injury. Peripherally administered EPO, and at least some of its variants, cross the blood-brain barrier, stimulate neurogenesis, neuronal differentiation, and activate brain neurotrophic, antiapoptotic, anti-oxidant and anti-inflammatory signaling. These mechanisms underlie their tissue protective effects in nervous system disorders. As the tissue protective functions of EPO can be separated from its stimulatory action on hematopoiesis, novel EPO derivatives and mimetics, such as asialo-EPO and carbamoylated EPO have been developed. While the therapeutic potential of the novel EPO derivatives continues to be characterized in preclinical studies, the experimental findings in support for the use of recombinant human (rh)EPO in human brain disease have already been translated to clinical studies in acute ischemic stroke, chronic schizophrenia, and chronic progressive multiple sclerosis. In this review article, we assess the studies on EPO and, in particular, on its structural or functional variants in experimental models of nervous system disorders, and we provide a short overview of the completed and ongoing clinical studies testing EPO as neuroprotective/neuroregenerative treatment option in neuropsychiatric disease.

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“…By now, numerous techniques have demonstrated the neuroprotective abilities of EPO (e.g. Grasso et al, 2007;Mammis et al, 2009;Y. Zhang et al, 2009).…”

Section: Supporting the Posttraumatic Rehabilitative Processmentioning

confidence: 99%

Cognitive Recovery and Rehabilitation After Brain Injury: Mechanisms, Challenges and Support

Mogensen¹

2012

Brain Injury - Functional Aspects, Rehabilitation and Prevention

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Neuroprotection by erythropoietin administration after experimental traumatic brain injury

Cited by 105 publications

References 46 publications

Multifunctional Drugs for Head Injury

Multifunctional Drugs for Head Injury

Therapeutic Potential of Erythropoietin and its Structural or Functional Variants in the Nervous System

Cognitive Recovery and Rehabilitation After Brain Injury: Mechanisms, Challenges and Support

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