Raised intracranial pressure alters cortical vascular function and cephalic allodynia

Grech, O; Rubio-Beltran, E; Stanyer, EC; Labastida-Ramirez, A; Lavery, GG; Hill, LJ; Holland, PR; Sinclair, AJ

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Raised intracranial pressure alters cortical vascular function and cephalic allodynia

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Grech, O, Rubio-Beltran, E, Stanyer, EC, Labastida-Ramirez, A, Lavery, GG ORCID: https://orcid.org/0000-0001-5794-748X, Hill, LJ, Holland, PR and Sinclair, AJ, 2025. Raised intracranial pressure alters cortical vascular function and cephalic allodynia. Brain, 148 (6), pp. 2163-2177. ISSN 0006-8950

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Official URL: https://doi.org/10.1093/brain/awae415

Abstract

Raised intracranial pressure (ICP) is associated with altered cerebral haemodynamics and cephalic pain. The relationship between the algetic response and cortical neurovascular changes in raised ICP is unclear. This study aimed to evaluate this relationship and determine whether lowering ICP (using a glucagon-like peptide-1 receptor agonist) could ameliorate the algetic response. We also sought to explore the role of calcitonin gene-related peptide in cephalic pain driven by raised ICP by inhibiting calcitonin gene-related peptide signalling and quantifying changes in the algetic response. In a rat model of raised ICP, created by intracisternal kaolin injection, mechanical thresholds were measured alongside steady-state potential and cerebral blood flow responses to spreading depolarization. Nuclear magnetic resonance spectroscopy evaluated energetic substrates in animals with raised ICP ex vivo. The glucagon-like peptide-1 receptor (GLP-1R) agonist exenatide and the calcitonin gene-related peptide receptor (CGRP-R) antagonist olcegepant were injected daily, and measurements were repeated. Kaolin increased ICP [median (range) 15.96 (8.97) mmHg, n = 8] versus controls [6.02 (1.79) mmHg, n = 6, P = 0.0007]. Animals with raised ICP exhibited reduced mechanical thresholds [mean (standard deviation) hind paw baseline: 5.78 (2.81) g, Day 7: 3.34 (2.22) g, P < 0.001; periorbital baseline: 6.13 (2.07) g, Day 7: 2.35 (1.91) g, n = 12, P < 0.001]. Depolarization and repolarization durations were increased [depolarization, raised ICP: 108.81 (222.12) s, n = 11, controls: 37.54 (108.38) s, n = 9, P = 0.038; repolarization, raised ICP: 1824.26 (3499.54) s, n = 12, controls: 86.96 (140.05) s, n = 9, P < 0.0001]. Cerebral blood flow change was also reduced [85.55 (30.84)%, n = 9] compared with controls [217.64 (37.70)%, n = 8, P < 0.0001]. Substrates for cellular energetics (ADP, ATP and NAD+) were depleted in rodent brains with raised ICP (P = 0.009, P = 0.018 and P = 0.011, respectively). Exenatide significantly lowered ICP [exenatide: 9.74 (6.09) mmHg, n = 19, vehicle: 18.27 (6.67) mmHg, n = 16, P = 0.004] and rescued changes in mechanical withdrawal. Exenatide recovered characteristic spreading depolarization responses [depolarization duration, exenatide: 56.46 (25.10) s, n = 7, vehicle: 115.98 (58.80) s, n = 6, P = 0.033; repolarization duration, exenatide: 177.55 (562.88) s, n = 7, vehicle: 800.85 (1988.67) s, n = 6, P = 0.002]. In the setting of raised ICP, olcegepant prevented changes in periorbital mechanical thresholds. We conclude that raised ICP disrupted the cortical neurovascular responses, reduced algetic thresholds and depleted crucial energetic substrates. Exenatide reduced ICP, improving algetic thresholds and cortical neurovascular changes. Importantly, olcegepant alleviated the cerebral algesia, suggesting a role for calcitonin gene-related peptide in driving pain responses in elevated ICP. These studies support the rationale that reducing ICP improves cephalic pain in conditions of raised ICP. Furthermore, the data suggest that headache pain in diseases associated with raised ICP could be ameliorated therapeutically though blockade of the calcitonin gene-related peptide pathway.

Item Type:	Journal article
Publication Title:	Brain
Creators:	Grech, O., Rubio-Beltran, E., Stanyer, E.C., Labastida-Ramirez, A., Lavery, G.G., Hill, L.J., Holland, P.R. and Sinclair, A.J.
Publisher:	Oxford University Press (OUP)
Date:	June 2025
Volume:	148
Number:	6
ISSN:	0006-8950
Identifiers:	Number Type 10.1093/brain/awae415 DOI 2554281 Other
Rights:	© The Author(s) 2025. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/), which per mits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited.
Divisions:	Schools > School of Science and Technology
Record created by:	Jeremy Silvester
Date Added:	09 Jan 2026 08:58
Last Modified:	09 Jan 2026 08:58
URI:	https://irep.ntu.ac.uk/id/eprint/54994