The pathways of oxygen in brain. I. Delivery and metabolism of oxygen

Department of Neuroscience

The pathways of oxygen in brain. I. Delivery and metabolism of oxygen

Research output: Contribution to journal › Conference article › Research › peer-review

Standard

The pathways of oxygen in brain. I. Delivery and metabolism of oxygen. / Gjedde, Albert.

In: Advances in Experimental Medicine and Biology, 2005, p. 269-75.

Research output: Contribution to journal › Conference article › Research › peer-review

Harvard

Gjedde, A 2005, 'The pathways of oxygen in brain. I. Delivery and metabolism of oxygen', Advances in Experimental Medicine and Biology, pp. 269-75.

APA

Gjedde, A. (2005). The pathways of oxygen in brain. I. Delivery and metabolism of oxygen. Advances in Experimental Medicine and Biology, 269-75.

Vancouver

Gjedde A. The pathways of oxygen in brain. I. Delivery and metabolism of oxygen. Advances in Experimental Medicine and Biology. 2005;269-75.

Author

Gjedde, Albert. / The pathways of oxygen in brain. I. Delivery and metabolism of oxygen. In: Advances in Experimental Medicine and Biology. 2005 ; pp. 269-75.

Bibtex

@inproceedings{fee3bfb0b31411debc73000ea68e967b,

title = "The pathways of oxygen in brain. I. Delivery and metabolism of oxygen",

abstract = "Flow-metabolism coupling in brain is different from flow-metabolism coupling in other vascular beds. In the classic description of Krogh, the capillary bed is a system of parallel tubes serving cylinders of tissue known as Krogh's cylinders. This simple arrangement yielded a quantitative expression of oxygen delivery to the tissue. However, in brain tissue, the arrangement is so disorderly that no prediction of oxygen tensions in the tissue is possible. Only two claims of the capillary bed in the brain appear to be indisputable, i.e., the capillaries have a common arterial source and a common venous terminus, and their density is proportional to the average regional rates of metabolism at steady-state. The following revision of the mechanism of flow-metabolism coupling in brain arose from the simple assumption, first introduced by Erwin R. Weibel in The Pathway for Oxygen, that every segment of the capillary bed {"}feeds{"} the same amount of brain tissue, i.e., that every fraction of the tissue is served by commensurate fractions of capillary density and oxygen diffusibility and accounts for the same fraction of the total oxygen consumption.",

author = "Albert Gjedde",

note = "Udgivelsesdato: 2005-null Volumne: 566; The pathways of oxygen in brain. I. Delivery and metabolism of oxygen ; Conference date: 29-11-2010",

year = "2005",

language = "English",

pages = "269--75",

journal = "Advances in Experimental Medicine and Biology",

issn = "0065-2598",

publisher = "Springer",

}

RIS

TY - GEN

T1 - The pathways of oxygen in brain. I. Delivery and metabolism of oxygen

AU - Gjedde, Albert

N1 - Udgivelsesdato: 2005-null Volumne: 566

PY - 2005

Y1 - 2005

N2 - Flow-metabolism coupling in brain is different from flow-metabolism coupling in other vascular beds. In the classic description of Krogh, the capillary bed is a system of parallel tubes serving cylinders of tissue known as Krogh's cylinders. This simple arrangement yielded a quantitative expression of oxygen delivery to the tissue. However, in brain tissue, the arrangement is so disorderly that no prediction of oxygen tensions in the tissue is possible. Only two claims of the capillary bed in the brain appear to be indisputable, i.e., the capillaries have a common arterial source and a common venous terminus, and their density is proportional to the average regional rates of metabolism at steady-state. The following revision of the mechanism of flow-metabolism coupling in brain arose from the simple assumption, first introduced by Erwin R. Weibel in The Pathway for Oxygen, that every segment of the capillary bed "feeds" the same amount of brain tissue, i.e., that every fraction of the tissue is served by commensurate fractions of capillary density and oxygen diffusibility and accounts for the same fraction of the total oxygen consumption.

AB - Flow-metabolism coupling in brain is different from flow-metabolism coupling in other vascular beds. In the classic description of Krogh, the capillary bed is a system of parallel tubes serving cylinders of tissue known as Krogh's cylinders. This simple arrangement yielded a quantitative expression of oxygen delivery to the tissue. However, in brain tissue, the arrangement is so disorderly that no prediction of oxygen tensions in the tissue is possible. Only two claims of the capillary bed in the brain appear to be indisputable, i.e., the capillaries have a common arterial source and a common venous terminus, and their density is proportional to the average regional rates of metabolism at steady-state. The following revision of the mechanism of flow-metabolism coupling in brain arose from the simple assumption, first introduced by Erwin R. Weibel in The Pathway for Oxygen, that every segment of the capillary bed "feeds" the same amount of brain tissue, i.e., that every fraction of the tissue is served by commensurate fractions of capillary density and oxygen diffusibility and accounts for the same fraction of the total oxygen consumption.

M3 - Conference article

C2 - 16594162

SP - 269

EP - 275

JO - Advances in Experimental Medicine and Biology

JF - Advances in Experimental Medicine and Biology

SN - 0065-2598

T2 - The pathways of oxygen in brain. I. Delivery and metabolism of oxygen

Y2 - 29 November 2010

ER -

ID: 14943095