The cerebral effects of ascent to high altitudes
Cellular hypoxia is the common final pathway of brain injury that occurs not just after
asphyxia, but also when cerebral perfusion is impaired directly (eg, embolic stroke) or …
asphyxia, but also when cerebral perfusion is impaired directly (eg, embolic stroke) or …
The cerebral effects of ascent to high altitudes.
MH Wilson, S Newman, CH Imray - The Lancet Neurology, 2009 - psycnet.apa.org
Cellular hypoxia is the common final pathway of brain injury that occurs not just after
asphyxia, but also when cerebral perfusion is impaired directly (eg, embolic stroke) or …
asphyxia, but also when cerebral perfusion is impaired directly (eg, embolic stroke) or …
The cerebral effects of ascent to high altitudes
MH Wilson, S Newman, CH Imray - The Lancet Neurology, 2009 - infona.pl
Cellular hypoxia is the common final pathway of brain injury that occurs not just after
asphyxia, but also when cerebral perfusion is impaired directly (eg, embolic stroke) or …
asphyxia, but also when cerebral perfusion is impaired directly (eg, embolic stroke) or …
The cerebral effects of ascent to high altitudes
MH Wilson, S Newman, CH Imray - The Lancet Neurology, 2009 - thelancet.com
Cellular hypoxia is the common final pathway of brain injury that occurs not just after
asphyxia, but also when cerebral perfusion is impaired directly (eg, embolic stroke) or …
asphyxia, but also when cerebral perfusion is impaired directly (eg, embolic stroke) or …
The cerebral effects of ascent to high altitudes
MH Wilson, S Newman, C Imray - Lancet Neurology, 2009 - wrap.warwick.ac.uk
Cellular hypoxia is the common final pathway of brain injury that occurs not just after
asphyxia, but also when cerebral perfusion is impaired directly (eg, embolic stroke) or …
asphyxia, but also when cerebral perfusion is impaired directly (eg, embolic stroke) or …
[引用][C] The cerebral effects of ascent to high altitudes
MH Wilson, S Newman, CH Imray - The Lancet Neurology, 2009 - cir.nii.ac.jp
The cerebral effects of ascent to high altitudes.
MH Wilson, S Newman, CH Imray - The Lancet. Neurology, 2009 - europepmc.org
A comment on this article appears in" High-altitude cerebral effects: risks and mechanisms."
Lancet Neurol. 2009 Jul; 8 (7): 604; author reply 605. A comment on this article appears in" …
Lancet Neurol. 2009 Jul; 8 (7): 604; author reply 605. A comment on this article appears in" …
The cerebral effects of ascent to high altitudes
MH Wilson, S Newman… - The Lancet. Neurology, 2009 - pubmed.ncbi.nlm.nih.gov
Cellular hypoxia is the common final pathway of brain injury that occurs not just after
asphyxia, but also when cerebral perfusion is impaired directly (eg, embolic stroke) or …
asphyxia, but also when cerebral perfusion is impaired directly (eg, embolic stroke) or …
The cerebral effects of ascent to high altitudes
MH Wilson, S Newman, CH Imray - Lancet neurology, 2009 - safetylit.org
Cellular hypoxia is the common final pathway of brain injury that occurs not just after
asphyxia, but also when cerebral perfusion is impaired directly (eg, embolic stroke) or …
asphyxia, but also when cerebral perfusion is impaired directly (eg, embolic stroke) or …
[PDF][PDF] The cerebral effects of ascent to high altitudes
MH Wilson, S Newman, CH Imray - Lancet Neurol, 2009 - researchgate.net
Cellular hypoxia is the common final pathway of brain injury that occurs not just after
asphyxia, but also when cerebral perfusion is impaired directly (eg, embolic stroke) or …
asphyxia, but also when cerebral perfusion is impaired directly (eg, embolic stroke) or …