Mark K. Borsody scite author profile

Haemoglobin is released into the CNS during the breakdown of red blood cells after intracranial bleeding. Extracellular free haemoglobin is directly neurotoxic. Haemoglobin scavenging mechanisms clear haemoglobin and reduce toxicity; these mechanisms include erythrophagocytosis, haptoglobin binding of haemoglobin, haemopexin binding of haem and haem oxygenase breakdown of haem. However, the capacity of these mechanisms is limited in the CNS, and they easily become overwhelmed. Targeting of haemoglobin toxicity and scavenging is, therefore, a rational therapeutic strategy. In this Review, we summarize the neurotoxic mechanisms of extracellular haemoglobin and the peculiarities of haemoglobin scavenging pathways in the brain. Evidence for a role of haemoglobin toxicity in neurological disorders is discussed, with a focus on subarachnoid haemorrhage and intracerebral haemorrhage, and emerging treatment strategies based on the molecular pathways involved are considered. By focusing on a fundamental biological commonality between diverse neurological conditions, we aim to encourage the application of knowledge of haemoglobin toxicity and scavenging across various conditions. We also hope that the principles highlighted will stimulate research to explore the potential of the pathways discussed. Finally, we present a consensus opinion on the research priorities that will help to bring about clinical benefits.

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Haptoglobin and the development of cerebral artery vasospasm after subarachnoid hemorrhage

Borsody

Burke²,

Coplin

et al. 2006

Neurology

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Influence of corticotropin-releasing hormone on electrophysiological activity of locus coeruleus neurons

Borsody

Weiss

1996

Brain Research

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Effect of pulsed magnetic stimulation of the facial nerve on cerebral blood flow

et al. 2013

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Effects of Noninvasive Facial Nerve Stimulation in the Dog Middle Cerebral Artery Occlusion Model of Ischemic Stroke

Borsody

Yamada²,

Bielawski

et al. 2014

Stroke

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Background and Purpose-Facial nerve stimulation has been proposed as a new treatment of ischemic stroke because autonomic components of the nerve dilate cerebral arteries and increase cerebral blood flow when activated. A noninvasive facial nerve stimulator device based on pulsed magnetic stimulation was tested in a dog middle cerebral artery occlusion model. Methods-We used an ischemic stroke dog model involving injection of autologous blood clot into the internal carotid artery that reliably embolizes to the middle cerebral artery. Thirty minutes after middle cerebral artery occlusion, the geniculate ganglion region of the facial nerve was stimulated for 5 minutes. Brain perfusion was measured using gadoliniumenhanced contrast MRI, and ATP and total phosphate levels were measured using 31 P spectroscopy. Separately, a dog model of brain hemorrhage involving puncture of the intracranial internal carotid artery served as an initial examination of facial nerve stimulation safety. Results-Facial nerve stimulation caused a significant improvement in perfusion in the hemisphere affected by ischemic stroke and a reduction in ischemic core volume in comparison to sham stimulation control. The ATP/total phosphate ratio showed a large decrease poststroke in the control group versus a normal level in the stimulation group. The same stimulation administered to dogs with brain hemorrhage did not cause hematoma enlargement. Conclusions-These

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Mark K. Borsody

Haemoglobin scavenging in intracranial bleeding: biology and clinical implications

Haptoglobin and the development of cerebral artery vasospasm after subarachnoid hemorrhage

Influence of corticotropin-releasing hormone on electrophysiological activity of locus coeruleus neurons

Effect of pulsed magnetic stimulation of the facial nerve on cerebral blood flow

Effects of Noninvasive Facial Nerve Stimulation in the Dog Middle Cerebral Artery Occlusion Model of Ischemic Stroke

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