Applied Sciences (Dec 2023)

A Bilateral Craniectomy Technique for In Vivo Photoacoustic Brain Imaging

  • Laura S. McGuire,
  • Mohsin Zafar,
  • Rayyan Manwar,
  • Fady T. Charbel,
  • Kamran Avanaki

DOI
https://doi.org/10.3390/app132312951
Journal volume & issue
Vol. 13, no. 23
p. 12951

Abstract

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Due to the high possibility of mechanical damage to the underlying tissues attached to the rat skull during a craniectomy, previously described methods for visualization of the rat brain in vivo are limited to unilateral craniotomies and small cranial windows, often measuring 4–5 mm. Here, we introduce a novel method for producing bilateral craniectomies that encompass frontal, parietal, and temporal bones via sequential thinning of the skull while preserving the dura. This procedure requires the removal of a portion of the temporalis muscle bilaterally, which adds an additional 2–3 mm exposure within the cranial opening. Therefore, while this surgery can be performed in vivo, it is strictly non-survival. By creating large, bilateral craniectomies, this methodology carries several key advantages, such as the opportunity afforded to test innovate imaging modalities that require a larger field of view and also the use of the contralateral hemisphere as a control for neurophysiological studies.

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