Ryan P. Goff scite author profile

This paper describes how the Atlas of Human Cardiac Anatomy website can be used to improve cardiac device design throughout the process of development. The Atlas is a free-access website featuring novel images of both functional and fixed human cardiac anatomy from over 250 human heart specimens. This website provides numerous educational tutorials on anatomy, physiology and various imaging modalities. For instance, the 'device tutorial' provides examples of devices that were either present at the time of in vitro reanimation or were subsequently delivered, including leads, catheters, valves, annuloplasty rings and stents. Another section of the website displays 3D models of the vasculature, blood volumes and/or tissue volumes reconstructed from computed tomography and magnetic resonance images of various heart specimens. The website shares library images, video clips and computed tomography and MRI DICOM files in honor of the generous gifts received from donors and their families.

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Irreversible Electroporation of Cardiovascular Cells and Tissues

Jiang

Goff

Patana-anake

et al. 2013

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Imaging of a Coronary Artery Stent Implantation Within an Isolated Human Heart

Eggum

Howard

Goff

et al. 2011

J. of Cardiovasc. Trans. Res.

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The novel in vitro reanimation of isolated human and large mammalian heart-lung blocs

et al. 2016

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BackgroundIn vitro isolated heart preparations are valuable tools for the study of cardiac anatomy and physiology, as well as for preclinical device testing. Such preparations afford investigators a high level of hemodynamic control, independent of host or systemic interactions. Here we hypothesize that recovered human and swine heart-lung blocs can be reanimated using a clear perfusate and elicit viable cardiodynamic and pulmonic function. Further, this approach will facilitate multimodal imaging, which is particularly valuable for the study of both functional anatomy and device-tissue interactions. Five human and 18 swine heart-lung preparations were procured using techniques analogous to those for cardiac transplant. Specimens were then rewarmed and reperfused using modifications of a closed circuit, isolated, beating and ventilated heart-lung preparation. Positive pressure mechanical ventilation was also employed, and epicardial defibrillation was applied to elicit native cardiac sinus rhythm. Videoscopy, fluoroscopy, ultrasound, and infrared imaging were performed for anatomical and experimental study.ResultsSystolic and diastolic left ventricular pressures observed for human and swine specimens were 68/2 ± 11/7 and 74/3 ± 17/5 mmHg, respectively, with associated native heart rates of 80 ± 7 and 96 ± 16 beats per minute. High-resolution imaging within functioning human pulmonary vasculature was obtained among other anatomies of interest. Note that one human specimen elicited poor cardiac performance post defibrillation.ConclusionsWe report the first dynamic videoscopic images of the pulmonary vasculature during viable cardiopulmonary function in isolated reanimated heart-lung blocs. This experimental approach provides unique in vitro opportunities for the study of novel medical therapeutics applied to large mammalian, including human, heart-lung specimens.Electronic supplementary materialThe online version of this article (doi:10.1186/s12899-016-0023-2) contains supplementary material, which is available to authorized users.

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Ryan P. Goff

Localized Drug Delivery for Cardiothoracic Surgery

The benefits of the Atlas of Human Cardiac Anatomy website for the design of cardiac devices

Irreversible Electroporation of Cardiovascular Cells and Tissues

Imaging of a Coronary Artery Stent Implantation Within an Isolated Human Heart

The novel in vitro reanimation of isolated human and large mammalian heart-lung blocs

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