Thrombin Contributes to the Injury Development and Neurological Deficit After Acute Subdural Hemorrhage in Rats Only in Collaboration with Additional Blood-derived Factors

Overview

Journal BMC Neurosci

Publisher Biomed Central

Specialty Neurology

Date 2018 Dec 29

PMID 30591020

Citations 3

Authors

Tobias J Kramer

Wasim Sakas

Daniel Jussen

Harald Krenzlin

Oliver Kempski

Beat Alessandri

Affiliations

Soon will be listed here.

Abstract

Background: Acute subdural hemorrhage (ASDH) is a severe consequence of traumatic brain injury. The occurrence of subdural blood increases the lethality of these patients independent of the amount of blood or elevated intracranial pressure. Thrombin is one of the potential harmful blood components. Possible harmful effects of thrombin are mediated via the Protease-activated-receptor-1 (PAR1) and thus, translating the acute Thrombin release after ASDH into cell loss. The objectives of the present study were twofold, namely to examine (1) the impact of direct thrombin inhibition in the acute phase after hemorrhage on the long-term histological and functional deficits and (2) the early inhibition of PAR1 activation by thrombin with the selective antagonist SCH79797 on lesion volume at 14 days after ASDH. The effects of thrombin on the lesion size were investigated in two separate experiments via (1) direct thrombin inhibition in the subdural infused blood (Argatroban 600 µg) as well as by (2) intraventricular injection of the PAR-1 antagonist SCH79797 (1 µg or 5 µg). Lesion volume and behavior deficits using a neurological deficit score and a motor function test (beam balance test) were analyzed as outcome parameters at 14 days after injury.

Results: 59 Male Sprague-Dawley rats received a subdural infusion of 300 µl autologous blood or sham operation. Lesion volume at 14 days after ASDH tended to be smaller in the Argatroban-treated group when compared to the vehicle group (8.1 ± 1.1 vs. 10.1 ± 2.3 mm, n.s.). Motor deficits in the beam balance test were not significantly less severe in the Argatroban-treated group. Animals treated with SCH79797 also showed a trend towards dose-dependent decreased lesion volume in comparison to the vehicle-treated group (1 μg: 4.3 ± 0.7 mm; 5 μg: 3.8 ± 1.1 mm; vehicle: 6.5 ± 2.0 mm, n.s).

Conclusions: Thrombin inhibition in the subdural blood and local cerebral blockade of PAR-1 cause a tendency towards reduced lesion volume or functional recovery. All results show a trend in favor of the acute treatment on the outcome parameters. Our results suggests that thrombin could be an important blood-derived factor during acute subdural hemorrhage that translates its deleterious effects in concert with other blood-induced factors.

Citing Articles

Influence of Blood Components on Neuroinflammation, Blood-Brain Barrier Breakdown, and Functional Damage After Acute Subdural Hematoma in Rats.

Jussen D, Saeed S, Jablonski T, Krenzlin H, Lucia K, Kraemer T Neurotrauma Rep. 2024; 5(1):215-225.

PMID: 38463418 PMC: 10924060. DOI: 10.1089/neur.2023.0098.

Cerebral Blood Flow Disorder in Acute Subdural Hematoma and Acute Intraoperative Brain Bulge.

Xian L, Wang C, Wei L, Wang S Front Neurol. 2022; 13:815226.

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Physical Exercise as a Modulator of Vascular Pathology and Thrombin Generation to Improve Outcomes After Traumatic Brain Injury.

Papalia W, Nascimento A, Krishna G, Broetto N, Furian A, Oliveira M Mol Neurobiol. 2021; 59(2):1124-1138.

PMID: 34846694 DOI: 10.1007/s12035-021-02639-9.

Hyperhomocysteinemia-Induced Oxidative Stress Exacerbates Cortical Traumatic Brain Injury Outcomes in Rats.

Tchantchou F, Goodfellow M, Li F, Ramsue L, Miller C, Puche A Cell Mol Neurobiol. 2020; 41(3):487-503.

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