Arterial line filtration protects brain microcirculation during cardiopulmonary bypass in the pig.

J Waaben; H R Sørensen; U L Andersen; K Gefke; J Lund; S Aggestrup; B Husum; H Laursen; A Gjedde

Arterial line filtration protects brain microcirculation during cardiopulmonary bypass in the pig.

J Waaben, H R Sørensen, U L Andersen, K Gefke, J Lund, S Aggestrup, B Husum, H Laursen, A Gjedde

15 Citations (Scopus)

Abstract

Microemboli in the brain may inhibit brain function during cardiopulmonary bypass, and in a previous study in pigs of normothermic nonpulsatile bypass we reported a significant decrease in cerebral glucose consumption secondary to interruption of the capillary flow, possibly caused by microemboli. In the present study we measured the regional cerebral glucose consumption and the regional capillary diffusion capacity (that is, the number of perfused capillaries) in 10 different brain regions in two separate groups of animals with and without an arterial filter during normothermic cardiopulmonary bypass. Inclusion of a 40 micron arterial filter in the bypass circuit increased the regional brain glucose consumption 27% (median; range -12% to 145%) and regional capillary diffusion capacity increased 123% (median; range 36% to 829%). No change in brain histologic features, the cerebrovascular permeability to serum proteins, or cerebral water content was observed. The arterial filter probably protects the cerebral microcirculation and prevents the decrease in cerebral glucose consumption otherwise seen during bypass.

Original language	English
Journal	Journal of Thoracic and Cardiovascular Surgery
Volume	107
Issue number	4
Pages (from-to)	1030-5
Number of pages	5
ISSN	0022-5223
Publication status	Published - 1994
Externally published	Yes

Cite this

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title = "Arterial line filtration protects brain microcirculation during cardiopulmonary bypass in the pig.",

abstract = "Microemboli in the brain may inhibit brain function during cardiopulmonary bypass, and in a previous study in pigs of normothermic nonpulsatile bypass we reported a significant decrease in cerebral glucose consumption secondary to interruption of the capillary flow, possibly caused by microemboli. In the present study we measured the regional cerebral glucose consumption and the regional capillary diffusion capacity (that is, the number of perfused capillaries) in 10 different brain regions in two separate groups of animals with and without an arterial filter during normothermic cardiopulmonary bypass. Inclusion of a 40 micron arterial filter in the bypass circuit increased the regional brain glucose consumption 27% (median; range -12% to 145%) and regional capillary diffusion capacity increased 123% (median; range 36% to 829%). No change in brain histologic features, the cerebrovascular permeability to serum proteins, or cerebral water content was observed. The arterial filter probably protects the cerebral microcirculation and prevents the decrease in cerebral glucose consumption otherwise seen during bypass.",

author = "J Waaben and S{\o}rensen, {H R} and Andersen, {U L} and K Gefke and J Lund and S Aggestrup and B Husum and H Laursen and A Gjedde",

year = "1994",

language = "English",

volume = "107",

pages = "1030--5",

journal = "Journal of Thoracic and Cardiovascular Surgery",

issn = "0022-5223",

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TY - JOUR

T1 - Arterial line filtration protects brain microcirculation during cardiopulmonary bypass in the pig.

AU - Waaben, J

AU - Sørensen, H R

AU - Andersen, U L

AU - Gefke, K

AU - Lund, J

AU - Aggestrup, S

AU - Husum, B

AU - Laursen, H

AU - Gjedde, A

PY - 1994

Y1 - 1994

N2 - Microemboli in the brain may inhibit brain function during cardiopulmonary bypass, and in a previous study in pigs of normothermic nonpulsatile bypass we reported a significant decrease in cerebral glucose consumption secondary to interruption of the capillary flow, possibly caused by microemboli. In the present study we measured the regional cerebral glucose consumption and the regional capillary diffusion capacity (that is, the number of perfused capillaries) in 10 different brain regions in two separate groups of animals with and without an arterial filter during normothermic cardiopulmonary bypass. Inclusion of a 40 micron arterial filter in the bypass circuit increased the regional brain glucose consumption 27% (median; range -12% to 145%) and regional capillary diffusion capacity increased 123% (median; range 36% to 829%). No change in brain histologic features, the cerebrovascular permeability to serum proteins, or cerebral water content was observed. The arterial filter probably protects the cerebral microcirculation and prevents the decrease in cerebral glucose consumption otherwise seen during bypass.

AB - Microemboli in the brain may inhibit brain function during cardiopulmonary bypass, and in a previous study in pigs of normothermic nonpulsatile bypass we reported a significant decrease in cerebral glucose consumption secondary to interruption of the capillary flow, possibly caused by microemboli. In the present study we measured the regional cerebral glucose consumption and the regional capillary diffusion capacity (that is, the number of perfused capillaries) in 10 different brain regions in two separate groups of animals with and without an arterial filter during normothermic cardiopulmonary bypass. Inclusion of a 40 micron arterial filter in the bypass circuit increased the regional brain glucose consumption 27% (median; range -12% to 145%) and regional capillary diffusion capacity increased 123% (median; range 36% to 829%). No change in brain histologic features, the cerebrovascular permeability to serum proteins, or cerebral water content was observed. The arterial filter probably protects the cerebral microcirculation and prevents the decrease in cerebral glucose consumption otherwise seen during bypass.

M3 - Journal article

C2 - 8159023

SN - 0022-5223

VL - 107

SP - 1030

EP - 1035

JO - Journal of Thoracic and Cardiovascular Surgery

JF - Journal of Thoracic and Cardiovascular Surgery

IS - 4

ER -

Arterial line filtration protects brain microcirculation during cardiopulmonary bypass in the pig.

Abstract

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