Biomechanics data of human supra-aortic trunks and abdominal visceral arteries harvested during autopsy

The present dataset describes the biomechanical properties of the supra-aortic trunks (brachiocephalic trunk, left common carotid artery, and left subclavian artery) and some of the visceral branches of the abdominal aorta (celiac trunk, superior mesenteric artery, and renal arteries). The specimens have been harvested from 27 adult donors during the autopsy procedure. The vessels were submitted to uniaxial biomechanical tensile tests, and values of failure stress, failure tension, and failure strain were obtained. As atherosclerosis could affect any of those vessels producing a significant reduction in their lumen, the data presented here could be of great interest to vascular surgeons, interventional cardiologists, and interventional neuroradiologists, who manipulate these arteries endovascularly. The observations gathered here are experimental evidence of the vessels' endurance against tearing and of their deformability. Therefore this data article could also help the medical industry dedicated to the production of endovascular devices. This dataset is related to the article entitled "Left Common Carotid Artery Biomechanical Properties in Individuals over 80 years: Women Have Stiffer Vessels" published in Annals of Vascular Surgery in August 2020 [1].

[Revascularization of supra-aortic trunks in Takayasu's arteritis]

INTRODUCTION

Takayasu's disease is an inflammatory arteritis mainly affecting the aorta, its main divisional branches and pulmonary arteries. The arterial damage during Takayasu's disease is essentially occlusive and preferentially affects supra-aortic trunks. Indications for revascularization of supra-aortic trunks are clear but results are rarely reported. The purpose of this study was to evaluate the results of supra-aortic trunk revascularization in Takayasu's arteritis.

PATIENTS AND METHODS

We report a retrospective study conducted between 2012 and 2018 about patients with Takayasu's arteritis who underwent revascularization of supra-aortic trunks.

RESULTS

Our series consisted of six patients. All patients were female. The average age was 29 (range 18-48) years. The operative indication was cerebrovascular ischemic symptoms in five patients and intermittent claudication of the upper limb in one. We performed aorto-bi-carotid bypass in four patients, a subclavian artery angioplasty in one and a vertebral artery angioplasty in one. At 1 month, operative mortality was zero and morbidity was marked by hemorrhagic stroke in one patient operated by conventional surgery. The average follow-up was 4 years (1.8). During the follow-up, one patient was reoperated after 18 months for an anastomotic false aneurysm in the ascending aorta. We noted a favorable outcome with total resolution of the symptomatology for the other patients and Doppler ultrasound confirmed patency during follow-up.

CONCLUSION

Surgical revascularization of supra-aortic trunks in Takayasu's arteritis can be associated with a risk of stroke and a risk of anastomotic pseudoaneurysms. Endovascular revascularization appears to be less invasive but its long-term results are rarely reported.

The apex of the aortic arch backshifts with aging

BACKGROUND

Only a few studies, involving small numbers of patients, have globally assessed the curvature of the thoracic aorta but without any details concerning the location of the supra-aortic trunks.

OBJECTIVES

Using CT to describe normal aortic-arch morphology and its changes with age and sex.

METHODS

344 CT scans were studied. We measured the distances from the apex to the ascending and descending aorta, the curvilinear length of the entire arch, that of the segment, including bifurcations of supra-aortic vessels, and the angle, height, and shift of the arch.

RESULTS

In men, the arch was significantly longer (146.2 vs 122.8 mm; p < 0.001), higher (49.3 vs 40.1 mm, p < 0.001), and wider transversely (83.6 vs 73.3 mm; p < 0.001) than in women. The average men's arch also had a more acute angle at the apex (79.7° vs 83.7° p < 0.001). Neither morphology nor age influenced the winding angle around the mediastinum. Aging was accompanied by deflection and extension of the aortic arch, which grew more anteroposteriorly (6.1 mm/10 years in men) than vertically (2.5 mm/10 years in men), while the apex moved towards the rear of the arch. The ascending aorta was the only curvilinear length unaffected by age, whereas the supra-aortic trunks parted from each other.

CONCLUSION

We believe that all these original observations could lead to a better assessment of normal aging of the aorta and guide technical choices during surgical or hybrid procedures.