Dissociated cerebral vasoparalysis in acute liver failure. A hypothesis of gradual cerebral hyperaemia

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Dissociated cerebral vasoparalysis in acute liver failure. A hypothesis of gradual cerebral hyperaemia. / Larsen, F S; Adel Hansen, B; Pott, F; Ejlersen, E; Secher, N H; Paulson, O B; Knudsen, G M.

In: Journal of Hepatology, Vol. 25, No. 2, 08.1996, p. 145-51.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Larsen, FS, Adel Hansen, B, Pott, F, Ejlersen, E, Secher, NH, Paulson, OB & Knudsen, GM 1996, 'Dissociated cerebral vasoparalysis in acute liver failure. A hypothesis of gradual cerebral hyperaemia', Journal of Hepatology, vol. 25, no. 2, pp. 145-51. https://doi.org/10.1016/s0168-8278(96)80066-3

APA

Larsen, F. S., Adel Hansen, B., Pott, F., Ejlersen, E., Secher, N. H., Paulson, O. B., & Knudsen, G. M. (1996). Dissociated cerebral vasoparalysis in acute liver failure. A hypothesis of gradual cerebral hyperaemia. Journal of Hepatology, 25(2), 145-51. https://doi.org/10.1016/s0168-8278(96)80066-3

Vancouver

Larsen FS, Adel Hansen B, Pott F, Ejlersen E, Secher NH, Paulson OB et al. Dissociated cerebral vasoparalysis in acute liver failure. A hypothesis of gradual cerebral hyperaemia. Journal of Hepatology. 1996 Aug;25(2):145-51. https://doi.org/10.1016/s0168-8278(96)80066-3

Author

Larsen, F S ; Adel Hansen, B ; Pott, F ; Ejlersen, E ; Secher, N H ; Paulson, O B ; Knudsen, G M. / Dissociated cerebral vasoparalysis in acute liver failure. A hypothesis of gradual cerebral hyperaemia. In: Journal of Hepatology. 1996 ; Vol. 25, No. 2. pp. 145-51.

Bibtex

@article{288714d63f7544529f523803e811c6e5,
title = "Dissociated cerebral vasoparalysis in acute liver failure. A hypothesis of gradual cerebral hyperaemia",
abstract = "BACKGROUND/AIMS: Normally, cerebral blood flow responds to changes in the arterial carbon dioxide tension (PaCO2) but not to changes in mean arterial pressure, commonly referred to as the cerebral CO2-reactivity and autoregulation. In patients with fulminant hepatic failure and in the rat with thioacetamide-induced liver failure, autoregulation is absent, presumably due to cerebral vasoparalysis. Since also CO2-reactivity may then be compromised, it was studied in patients with fulminant hepatic failure and rats with thioacetamide-induced liver failure.METHODS: In ten patients (median age 32 (range 20-48) years)) and in ten age-matched volunteers, cerebral perfusion was elevated by transcranial Doppler assessed mean flow velocity (V(mean)) in the middle cerebral artery during hypo- and hyper-capnia. In six rats with liver failure and in six control rats, cerebral blood flow was measured repeatedly by the intracarotid 133 Xenon injection technique.RESULTS: In the patients and volunteers, PaCO2 was lowered from 33 (23-44) to 28 (23-39) mmHg by hypocapnia and raised to 40 (34-48) mmHg by hypercapnia or 5% CO2 inhalation. During hypocapnia, the CO2-reactivity did not differ significantly between patients and volunteers, 4.0 (1.1-7.4) vs. 3.0 (1.7-5.0)% mmHg(-1), while it was reduced during hypercapnia in the patients, 2.2 (1.8-5.2) vs. 4.6 (3.0-8.0)% mmHg(-1) (p < 0.05). In the rats, PaCO2 was reduced from 39 (37-40) to 30 (29-31) mmHg and then raised to 51 (41-55) mmHg. During hypocapnia, CO2-reactivity was similar in rats with liver failure and in control rats, 2.3 vs 2.7% mmhg(21), respectively. In all rats with liver failure CO2-reactivity was abolished during hypercapnia, while it was 1.5% mmHg(-1) in the control rats (p < 0.01).CONCLUSIONS: The finding that cerebral CO2 reactivity is reduced in hypercapnia, while it is preserved in hypocapnia, suggests that gradual dilation of the cerebral resistance vessels develops in fulminant hepatic failure and connects previous morphological studies with changes in the regulation of cerebral blood flow, i.e. impaired cerebral autoregulation and blunted CO2-reactivity.",
keywords = "Acute Disease, Adult, Animals, Blood Flow Velocity, Cerebrovascular Circulation, Cerebrovascular Disorders/etiology, Female, Hepatic Encephalopathy/chemically induced, Humans, Hypercapnia/physiopathology, Hyperemia/etiology, Hypocapnia/physiopathology, Ischemic Attack, Transient/etiology, Male, Middle Aged, Models, Cardiovascular, Rats, Rats, Wistar, Thioacetamide",
author = "Larsen, {F S} and {Adel Hansen}, B and F Pott and E Ejlersen and Secher, {N H} and Paulson, {O B} and Knudsen, {G M}",
year = "1996",
month = aug,
doi = "10.1016/s0168-8278(96)80066-3",
language = "English",
volume = "25",
pages = "145--51",
journal = "Journal of Hepatology, Supplement",
issn = "0169-5185",
publisher = "Elsevier",
number = "2",

}

RIS

TY - JOUR

T1 - Dissociated cerebral vasoparalysis in acute liver failure. A hypothesis of gradual cerebral hyperaemia

AU - Larsen, F S

AU - Adel Hansen, B

AU - Pott, F

AU - Ejlersen, E

AU - Secher, N H

AU - Paulson, O B

AU - Knudsen, G M

PY - 1996/8

Y1 - 1996/8

N2 - BACKGROUND/AIMS: Normally, cerebral blood flow responds to changes in the arterial carbon dioxide tension (PaCO2) but not to changes in mean arterial pressure, commonly referred to as the cerebral CO2-reactivity and autoregulation. In patients with fulminant hepatic failure and in the rat with thioacetamide-induced liver failure, autoregulation is absent, presumably due to cerebral vasoparalysis. Since also CO2-reactivity may then be compromised, it was studied in patients with fulminant hepatic failure and rats with thioacetamide-induced liver failure.METHODS: In ten patients (median age 32 (range 20-48) years)) and in ten age-matched volunteers, cerebral perfusion was elevated by transcranial Doppler assessed mean flow velocity (V(mean)) in the middle cerebral artery during hypo- and hyper-capnia. In six rats with liver failure and in six control rats, cerebral blood flow was measured repeatedly by the intracarotid 133 Xenon injection technique.RESULTS: In the patients and volunteers, PaCO2 was lowered from 33 (23-44) to 28 (23-39) mmHg by hypocapnia and raised to 40 (34-48) mmHg by hypercapnia or 5% CO2 inhalation. During hypocapnia, the CO2-reactivity did not differ significantly between patients and volunteers, 4.0 (1.1-7.4) vs. 3.0 (1.7-5.0)% mmHg(-1), while it was reduced during hypercapnia in the patients, 2.2 (1.8-5.2) vs. 4.6 (3.0-8.0)% mmHg(-1) (p < 0.05). In the rats, PaCO2 was reduced from 39 (37-40) to 30 (29-31) mmHg and then raised to 51 (41-55) mmHg. During hypocapnia, CO2-reactivity was similar in rats with liver failure and in control rats, 2.3 vs 2.7% mmhg(21), respectively. In all rats with liver failure CO2-reactivity was abolished during hypercapnia, while it was 1.5% mmHg(-1) in the control rats (p < 0.01).CONCLUSIONS: The finding that cerebral CO2 reactivity is reduced in hypercapnia, while it is preserved in hypocapnia, suggests that gradual dilation of the cerebral resistance vessels develops in fulminant hepatic failure and connects previous morphological studies with changes in the regulation of cerebral blood flow, i.e. impaired cerebral autoregulation and blunted CO2-reactivity.

AB - BACKGROUND/AIMS: Normally, cerebral blood flow responds to changes in the arterial carbon dioxide tension (PaCO2) but not to changes in mean arterial pressure, commonly referred to as the cerebral CO2-reactivity and autoregulation. In patients with fulminant hepatic failure and in the rat with thioacetamide-induced liver failure, autoregulation is absent, presumably due to cerebral vasoparalysis. Since also CO2-reactivity may then be compromised, it was studied in patients with fulminant hepatic failure and rats with thioacetamide-induced liver failure.METHODS: In ten patients (median age 32 (range 20-48) years)) and in ten age-matched volunteers, cerebral perfusion was elevated by transcranial Doppler assessed mean flow velocity (V(mean)) in the middle cerebral artery during hypo- and hyper-capnia. In six rats with liver failure and in six control rats, cerebral blood flow was measured repeatedly by the intracarotid 133 Xenon injection technique.RESULTS: In the patients and volunteers, PaCO2 was lowered from 33 (23-44) to 28 (23-39) mmHg by hypocapnia and raised to 40 (34-48) mmHg by hypercapnia or 5% CO2 inhalation. During hypocapnia, the CO2-reactivity did not differ significantly between patients and volunteers, 4.0 (1.1-7.4) vs. 3.0 (1.7-5.0)% mmHg(-1), while it was reduced during hypercapnia in the patients, 2.2 (1.8-5.2) vs. 4.6 (3.0-8.0)% mmHg(-1) (p < 0.05). In the rats, PaCO2 was reduced from 39 (37-40) to 30 (29-31) mmHg and then raised to 51 (41-55) mmHg. During hypocapnia, CO2-reactivity was similar in rats with liver failure and in control rats, 2.3 vs 2.7% mmhg(21), respectively. In all rats with liver failure CO2-reactivity was abolished during hypercapnia, while it was 1.5% mmHg(-1) in the control rats (p < 0.01).CONCLUSIONS: The finding that cerebral CO2 reactivity is reduced in hypercapnia, while it is preserved in hypocapnia, suggests that gradual dilation of the cerebral resistance vessels develops in fulminant hepatic failure and connects previous morphological studies with changes in the regulation of cerebral blood flow, i.e. impaired cerebral autoregulation and blunted CO2-reactivity.

KW - Acute Disease

KW - Adult

KW - Animals

KW - Blood Flow Velocity

KW - Cerebrovascular Circulation

KW - Cerebrovascular Disorders/etiology

KW - Female

KW - Hepatic Encephalopathy/chemically induced

KW - Humans

KW - Hypercapnia/physiopathology

KW - Hyperemia/etiology

KW - Hypocapnia/physiopathology

KW - Ischemic Attack, Transient/etiology

KW - Male

KW - Middle Aged

KW - Models, Cardiovascular

KW - Rats

KW - Rats, Wistar

KW - Thioacetamide

U2 - 10.1016/s0168-8278(96)80066-3

DO - 10.1016/s0168-8278(96)80066-3

M3 - Journal article

C2 - 8878774

VL - 25

SP - 145

EP - 151

JO - Journal of Hepatology, Supplement

JF - Journal of Hepatology, Supplement

SN - 0169-5185

IS - 2

ER -

ID: 274965591