1999
DOI: 10.1038/sj.bjc.6690273
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Quantification of longitudinal tissue pO2 gradients in window chamber tumours: impact on tumour hypoxia

Abstract: We previously reported that the arteriolar input in window chamber tumours is limited in number and is constrained to enter the tumour from one surface, and that the p O 2 of tumour arterioles is lower than in comparable arterioles of normal tissues. On average, the vascular p O 2 in vessels of the upper surface of these tumours is lower than the p O 2 of vessels on the fasc… Show more

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Cited by 170 publications
(111 citation statements)
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“…There are several excellent reviews on this subject 5,56,57 . The deficiencies of oxygen transport can be summarized as having eight dominant features: first, a relatively sparse arteriolar supply 5,58 ; second, inefficient orientation of microvessels 59,60 ; third, low vascular density; fourth, extreme variations in microvessel red blood cell flux (many tumour vessels do not carry red blood cells, whereas large diameter shunt vessels contain a relative abundance of red blood cells 61 ); fifth, the limited arteriolar supply can lead to pathologically low vascular pO 2 in regions distant from the arteriolar source (longitudinal oxygen gradient) 58,62,63 ; sixth, hypoxic red blood cells stiffen, increasing blood viscosity, which contributes to sluggish flow; and seventh, large diameter shunts can divert blood away from the tumour bed. Consequently, networks of microvessels can exhibit low pO 2 , leading to relatively large regions of tumour that are dominated by microregions of pathologically low pO 2 58,62,64-66 (FIG.…”
Section: Deficiencies In Oxygen Transportmentioning
confidence: 99%
“…There are several excellent reviews on this subject 5,56,57 . The deficiencies of oxygen transport can be summarized as having eight dominant features: first, a relatively sparse arteriolar supply 5,58 ; second, inefficient orientation of microvessels 59,60 ; third, low vascular density; fourth, extreme variations in microvessel red blood cell flux (many tumour vessels do not carry red blood cells, whereas large diameter shunt vessels contain a relative abundance of red blood cells 61 ); fifth, the limited arteriolar supply can lead to pathologically low vascular pO 2 in regions distant from the arteriolar source (longitudinal oxygen gradient) 58,62,63 ; sixth, hypoxic red blood cells stiffen, increasing blood viscosity, which contributes to sluggish flow; and seventh, large diameter shunts can divert blood away from the tumour bed. Consequently, networks of microvessels can exhibit low pO 2 , leading to relatively large regions of tumour that are dominated by microregions of pathologically low pO 2 58,62,64-66 (FIG.…”
Section: Deficiencies In Oxygen Transportmentioning
confidence: 99%
“…7,8 It is now well established that steep longitudinal gradients of pO 2 along the vascular tree, as opposed to radial diffusion of oxygen, can largely contribute to deficiencies in tumor oxygen supply. 9 Two features of longitudinal gradients lead to intravascular hypoxia. First, the arterioles feeding the tumor are more deoxygenated than comparable arterioles of normal tissues.…”
Section: Introductionmentioning
confidence: 99%
“…They also lack smooth muscle and enervation and may have an incomplete endothelial lining and basement membrane, which makes them more "leaky" than vessels in normal tissues (8,9). Furthermore, the vessels supplying tumors often develop from post-capillary venules, creating severe longitudinal pO 2 gradients within the vessels themselves (10). All of these factors contribute to a situation in which a significant proportion of tumor cells lie in hypoxic regions beyond the diffusion distance of oxygen (100 -150 m) where they are exposed to chronically low oxygen tensions.…”
Section: Introductionmentioning
confidence: 99%