Comparison of artery diameters in the Aachen minipig serving as a human intracranial in vivo model

Author:

Dorn Christoph1ORCID,Bender Lara1,Sichtermann Thorsten1,Minkenberg Jan1ORCID,Franko Maximilian1,Yousefian Ehsan1,Wiesmann Martin1,Stockero Andrea1,May Rebecca1,Ridwan Hani1,Nikoubashman Omid1,Franz Christiane1ORCID

Affiliation:

1. Department of Diagnostic and Interventional Neuroradiology, University Hospital RWTH Aachen, Germany

Abstract

Minipigs are used as in vivo endovascular models, particularly in stroke and aneurysm research. However, detailed knowledge of the diameters of forelimb arteries that are commonly used as surrogates for human brain–supplying arteries are lacking. This study aimed to determine the diameters of forelimb and neck arteries in Aachen minipigs and to compare those to the diameters of human cerebral brain–supplying arteries in order to assess the validity of the Aachen minipig as a human intracranial in vivo model. We measured the diameters in the external carotid artery and eight different branches of the subclavian artery in 12 Aachen minipigs using angiographic imaging. Analysed arteries comprised the external carotid artery, axillary artery, brachial artery, subscapular artery first segment, subscapular artery second segment, external thoracic artery, caudal circumflex humeral artery, suprascapular artery and thoracodorsal artery. We compared these diameters to diameters of the following human brain–supplying arteries: terminal internal carotid artery (carotid-T and petrous segment), M1 segment of the middle cerebral artery, M2 segments of the middle cerebral artery, anterior cerebral artery, vertebral artery and basilar artery. Median diameters of porcine forelimb arteries ranged from 1.8 to 4.9 mm, and human brain supplying arteries ranged in diameter from 1.4 to 4.3 mm. Depending on the intended use, this allows porcine forelimb arteries to be selected which are statistically comparable to human brain–supplying vessels. In conclusion, we identified several equivalent arteries of the porcine subclavian branches that are comparable to human brain–supplying arteries. This may help to validate the minipig as a suitable in vivo model for neurovascular experiments.

Publisher

SAGE Publications

Subject

General Veterinary,Animal Science and Zoology

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