Abstract
Surgery in humans is continuously evolving and promoted minimally invasive treatment. On the other hand, despite the importance of the 3Rs principles for experimental animals is well documented, no reports describe specific methodologies for implementing "refinement" in practice. Here, we describe a new technique, the "Ohta Method" for caudal arthrocentesis in the pursuit of the 3Rs for animal experiments and the development of innovative methods for investigating systemic organ arteries through minimally invasive procedures. This procedure requires only a percutaneous puncture of the caudal artery without any injury to the limb or body trunk. In addition, it does not cut down the artery, making hemostasis easier and recovering arterial damage easier. We will show multiple organ artery angiographies in marmoset for the first time in the world. The principle described in this paper could also be applied to many other small animals, such as rats. Moreover, using this method, multiple doses of the drug or cells can be administered to the target organ at the time of therapeutic intervention, thereby enabling the establishment of more sophisticated and complex therapeutic intervention studies as translational research.
Highlights
Surgery in humans is continuously evolving, and advances in endoscopic surgery and robotic surgery have promoted minimally invasive treatment
We showed these tips as a S1 Fig. Compared with the procedure in the rat, puncturing the Caudal Ventral Artery (CVA) in the marmoset was difficult because the skin was hard, and the subcutaneous tissue was loose
A 0.016" guidewire (Toray Medical Co., Ltd., Tokyo, Japan) was carefully inserted through the sheath inserted into the caudal artery, along which a small-diameter microcatheter (ID: 0.42 mm, OD: 0.55 mm, Kaneko Code Co., Ltd., Tokyo, Japan) could be guided
Summary
Surgery in humans is continuously evolving, and advances in endoscopic surgery and robotic surgery have promoted minimally invasive treatment. Endovascular treatment techniques play a significant role in minimally invasive treatment. Many cases in which surgery will not be tolerated because of advanced age or low cardiorespiratory fitness, and operating is judged to be impossible. Endovascular treatment has become safe for such cases [1, 2]. Despite the 3Rs principles for using experimental animals [3], no reports describe specific methodologies for implementing “refinement” in practice. We believe that there are several reasons for this gap: 1. Rodents commonly used in the laboratory are much smaller than humans We believe that there are several reasons for this gap: 1. Rodents commonly used in the laboratory are much smaller than humans
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