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State-of-the-art preclinical techniques to study the impact of spreading depolarizations in awake rodents

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Τίτλος: State-of-the-art preclinical techniques to study the impact of spreading depolarizations in awake rodents
Συγγραφείς: Labastida-Ramirez, Alejandro, Codadu, Neela K, Agan, Kagan, Wykes, Robert C
Πηγή: Labastida-Ramirez, A, Codadu, N K, Agan, K & Wykes, R C 2025, 'State-of-the-art preclinical techniques to study the impact of spreading depolarizations in awake rodents', The journal of headache and pain, vol. 26, no. 1, 188. https://doi.org/10.1186/s10194-025-02121-0
Στοιχεία εκδότη: Springer Science and Business Media LLC, 2025.
Έτος έκδοσης: 2025
Θεματικοί όροι: Cortical Spreading Depression/physiology, Disease Models, Animal, Brain/physiopathology, Animals, Rodentia, Wakefulness/physiology
Περιγραφή: Background Understanding the mechanisms of pathological brain network activity and the efficacy of therapies requires testing hypothesis in vivo, where brain circuitry remains preserved. Therefore, animal models are a key tool in the study of primary neurological disorders such as migraine, stroke and epilepsy. These models not only have advanced our understanding of the underlying neurobiology of these disorders but have also provided novel pharmacological targets and insights on shared pathophysiological processes such as spreading depolarizations (SD). SD, the electrographic correlate of migraine with aura, are transient waves of near-complete neuroglial depolarization associated with transmembrane ionic and water shifts. Body Many studies investigating the impact of SD in preclinical models have done so in the presence of anesthesia. However, the use of anesthesia is a well-known confounding factor that not only influences SD threshold or frequency but also SD-evoked hemodynamic responses as common anesthetics affect cerebral blood flow and neurovascular coupling, limiting translation. Therefore, here we discuss research methods that have recently been developed or refined to allow the study of SD in awake rodents with a focus on migraine with aura. We discuss advantages, limitations and also efforts made to transition towards minimally-invasive procedures. Methods include optogenetic approaches to induce SD, multisite high-fidelity DC-coupled electrophysiological recordings, and measurements of neurovascular signals detected at both mesoscopic/macroscopic (e.g., fluorescent reporters, functional ultrasound system) and microscopic levels (e.g., two-photon microscopy, miniscopes). Additionally, we discuss continuous wireless telemetry recordings to detect spontaneous SD frequency over weeks to months in freely moving animals. Conclusion Implementation of these methods in awake brain will close the translational gap and improve the relevance of preclinical animal models.
Τύπος εγγράφου: Article
Γλώσσα: English
ISSN: 1129-2377
DOI: 10.1186/s10194-025-02121-0
Σύνδεσμος πρόσβασης: https://research.manchester.ac.uk/en/publications/70c8876c-c00e-4f2f-aa1b-ca929eeda1af
https://doi.org/10.1186/s10194-025-02121-0
Rights: CC BY
Αριθμός Καταχώρησης: edsair.doi.dedup.....070daedc1f36090e5dff76123c9898d9
Βάση Δεδομένων: OpenAIRE
Περιγραφή
ISSN:11292377
DOI:10.1186/s10194-025-02121-0