Aaron M. Dingle scite author profile

Objective. Given current clinical interest in vagus nerve stimulation (VNS), there are surprisingly few studies characterizing the anatomy of the vagus nerve in large animal models as it pertains to on-and off-target engagement of local fibers. We sought to address this gap by evaluating vagal anatomy in the pig, whose vagus nerve organization and size approximates the human vagus nerve. Approach. Here we combined microdissection, histology, and immunohistochemistry to provide data on key features across the cervical vagus nerve in a swine model, and compare our results to other animal models (mouse, rat, dog, non-human primate) and humans. Main results. In a swine model we quantified the nerve diameter, number and diameter of fascicles, and distance of fascicles from the epineural surface where stimulating electrodes are placed. We also characterized the relative locations of the superior and recurrent laryngeal branches of the vagus nerve that have been implicated in therapy limiting side effects with common electrode placement. We identified key variants across the cohort that may be important for VNS with respect to changing sympathetic/parasympathetic tone, such as cross-connections to the sympathetic trunk. We discovered that cell bodies of pseudo-unipolar cells aggregate together to form a very distinct grouping within the nodose ganglion. This distinct grouping gives rise to a larger number of smaller fascicles as one moves caudally down the vagus nerve. This often leads to a distinct bimodal organization, or ‘vagotopy’. This vagotopy was supported by immunohistochemistry where approximately half of the fascicles were immunoreactive for choline acetyltransferase, and reactive fascicles were generally grouped in one half of the nerve. Significance. The vagotopy observed via histology may be advantageous to exploit in design of electrodes/stimulation paradigms. We also placed our data in context of historic and recent histology spanning multiple models, thus providing a comprehensive resource to understand similarities and differences across species.

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Functional Vagotopy in the Cervical Vagus Nerve of the Domestic Pig: Implications for the Study of Vagus Nerve Stimulation

Settell

Knudsen

Dingle

et al. 2019

Preprint

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Given current clinical interest in vagus nerve stimulation, there are surprisingly few studies characterizing the anatomy of the vagus nerve in large animal models as it pertains to on-and off-target engagement of local fibers. We sought to address this gap by evaluating vagal anatomy in the domestic pig, whose vagus nerve organization and size approximates the human cervical vagus nerve. We provide data on key features across the cervical vagus nerve including diameter, number and diameter of fascicles, and distance of fascicles from the epineural surface where stimulating electrodes are placed. We also characterized the relative locations of the superior and recurrent laryngeal branches of the vagus nerve that have been implicated in therapy limiting side effects with common electrode placement. We identified key variants across the cohort that may be important for vagus nerve stimulation with respect to changing sympathetic/parasympathetic tone, such as cross-connections to the sympathetic trunk. We discovered that cell bodies of pseudo-unipolar cells aggregate together to form a very distinct grouping within the nodose ganglion. This distinct grouping gives rise to a larger number of smaller fascicles as one moves caudally down the cervical vagus nerve. This often leads to a distinct bimodal organization, or ‘vagotopy’ that may be advantageous to exploit in design of electrodes/stimulation paradigms. Finally, we placed our data in context of historic and recent histology spanning mouse, rat, canine, pig, non-human primate and human models, thus providing a comprehensive resource to understand similarities and differences across species.

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Implanted Myoblast Survival Is Dependent on the Degree of Vascularization in a Novel Delayed Implantation/Prevascularization Tissue Engineering Model

Tilkorn

Bedogni

Keramidaris

et al. 2010

Tissue Engineering Part A

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In in vivo tissue engineering, many implanted cells die because of hypoxic conditions immediately postimplantation. The aim of this study was to determine whether delayed myoblast implantation, at day 4 or 7, improves myoblast survival compared with implantation at day 0 in an in vivo arterio-venous loop (AB loop) chamber model. In adult inbred Sprague-Dawley rats, an AB loop was inserted into a plastic chamber (day 0). In Group I, day 0, two million DiI-labeled (neonatal inbred) myoblasts were implanted around the AB loop. In Groups II and III, day 0, the AB loop was created and inserted into a novel delayed cell seeding chamber, and 4 (Group II) or 7 days (Group III) later the delay chamber was seeded with 2 million DiI-labeled myoblasts. Constructs were harvested 7-day postmyoblast implantation, for morphometric determination of DiI/DAPI-positive myoblasts/mm(2), and percent vascular volume on Griffonia simplicifolia lectin (endothelial cell marker)-labeled tissue sections. Control (nonmyoblast seeded) and experimental (myoblast seeded) constructs demonstrated similar capillary and tissue growth patterns. DiI/DAPI-labeled myoblasts/mm(2) appeared in similar numbers in constructs implanted at days 0 and 4, but increased markedly in day-7 implanted constructs. The percent vascular volume increased significantly (p = 0.03) over time. A positive correlation existed between myoblast survival and construct vascularity (p = 0.017). In conclusion, delaying myoblast implantation to 7-day postconstruct assembly, when new capillary growth is well established, significantly correlates with increased myoblast survival and indicates that cell seeding in regenerative procedures should always occur into an established vascular bed.

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Aaron M. Dingle

Functional vagotopy in the cervical vagus nerve of the domestic pig: implications for the study of vagus nerve stimulation

Functional Vagotopy in the Cervical Vagus Nerve of the Domestic Pig: Implications for the Study of Vagus Nerve Stimulation

Implanted Myoblast Survival Is Dependent on the Degree of Vascularization in a Novel Delayed Implantation/Prevascularization Tissue Engineering Model

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