From imaging to precision: low cost and accurate determination of stereotactic coordinates for brain surgery Sapajus apella using MRI
Laís Resque Russo Pedrosa, Leon C. P. Leal, José Augusto P. C. Muniz, Caio de Oliveira Bastos, Bruno D. Gomes, Lane V. Krejcová

TL;DR
This paper introduces a low-cost, accurate method using MRI to determine brain surgery coordinates in capuchin monkeys, improving precision over traditional brain atlas methods.
Contribution
A novel, affordable MRI-based protocol for deriving individual stereotactic coordinates in Sapajus apella monkeys.
Findings
The protocol uses a 3D-printed head-holder and fiducial markers for MRI imaging.
Open-source software improves anatomical targeting and neurosurgical experiment design.
The method is adaptable for other nonhuman primate species lacking brain atlases.
Abstract
The capuchin monkey (Sapajus apella), a New World monkey species, exhibits prominent characteristics that make it an ideal model for neuroscience research. These characteristics include its phylogenetic traits, telencephalization coefficient, anatomical structures and pathways, genetic profile, immune responses, cognitive abilities, and complex behavioral repertoires. Traditionally, methodologies for stereotactic neurosurgery in research models have relied on the use of brain atlases. However, this approach can lead to errors due to the considerable variation in brain size and shape among individual monkeys. To address this issue, we developed a protocol for deriving individual coordinates for each monkey using a straightforward and relatively inexpensive method involving MRI imaging. Our protocol utilizes a specially designed, 3D-printed stereotactic head-holder that is safe to use…
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Taxonomy
TopicsAdvanced Neuroimaging Techniques and Applications · Neurogenesis and neuroplasticity mechanisms · Glioma Diagnosis and Treatment
