Cryonics technology seeks to cryopreserve the anatomical basis of mind so that future medicine can restore legally dead cryonics patients to life, youth, and health. Most cryonics patients experience varying degrees of ischemia and reperfusion injury. Neurons can survive ischemia and reperfusion injury more than is generally believed. But blood vessels are more vulnerable, which can impair perfusion of vitrifying cryoprotectant solution intended to eliminate ice formation in the brain. Forms of vascular and neuronal damage are reviewed, along with means of mitigating that damage. Recommendations are also made for preventing such damage
The best neuroprotectant for acute ischaemic stroke would always be the rapid return of oxygen and g...
Despite ongoing advances in stroke imaging and treatment, ischemic and hemorrhagic stroke continue t...
Cryopreservation - Current Advances and Evaluations sheds light on storage of cells at subzero tempe...
Very low temperatures create conditions that can preserve tissue for centuries, possibly in-cluding ...
Cryopreservation is a process that preserves organelles, cells, tissues, or any other biological con...
Ischemic stroke, intracerebral hemorrhage, subarachnoid hemorrhage, and traumatic brain injury-all h...
Brain ischemia is a process of delayed neuronal cell death, not an instantaneous event. The concept ...
Cerebral ischemia, a focal or global insufficiency of blood flow to the brain, can arise through mul...
Item does not contain fulltextIschemic stroke, intracerebral hemorrhage, subarachnoid hemorrhage, an...
The best neuroprotectant for acute ischaemic stroke would always be the rapid return of oxygen and g...
Neurons are at risk of mechanical and ischaemic damage during neurosurgery. Recent advances in imagi...
Low-temperature preservation could effectively extend in vitro storage of biological materials due t...
Stroke is the leading cause of adult disability and remains the third most common cause of death in ...
Cryoablation induces cellular damage mainly via disruption of membranous organelles, such that destr...
Apical dendrites of layer 5 pyramidal neurons can rapidly undergo a structural perturbation within m...
The best neuroprotectant for acute ischaemic stroke would always be the rapid return of oxygen and g...
Despite ongoing advances in stroke imaging and treatment, ischemic and hemorrhagic stroke continue t...
Cryopreservation - Current Advances and Evaluations sheds light on storage of cells at subzero tempe...
Very low temperatures create conditions that can preserve tissue for centuries, possibly in-cluding ...
Cryopreservation is a process that preserves organelles, cells, tissues, or any other biological con...
Ischemic stroke, intracerebral hemorrhage, subarachnoid hemorrhage, and traumatic brain injury-all h...
Brain ischemia is a process of delayed neuronal cell death, not an instantaneous event. The concept ...
Cerebral ischemia, a focal or global insufficiency of blood flow to the brain, can arise through mul...
Item does not contain fulltextIschemic stroke, intracerebral hemorrhage, subarachnoid hemorrhage, an...
The best neuroprotectant for acute ischaemic stroke would always be the rapid return of oxygen and g...
Neurons are at risk of mechanical and ischaemic damage during neurosurgery. Recent advances in imagi...
Low-temperature preservation could effectively extend in vitro storage of biological materials due t...
Stroke is the leading cause of adult disability and remains the third most common cause of death in ...
Cryoablation induces cellular damage mainly via disruption of membranous organelles, such that destr...
Apical dendrites of layer 5 pyramidal neurons can rapidly undergo a structural perturbation within m...
The best neuroprotectant for acute ischaemic stroke would always be the rapid return of oxygen and g...
Despite ongoing advances in stroke imaging and treatment, ischemic and hemorrhagic stroke continue t...
Cryopreservation - Current Advances and Evaluations sheds light on storage of cells at subzero tempe...
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