SoGut: A Soft Robotic Gastric Simulator

蠕动 人胃 生物医学工程 收缩(语法) 流质食物 管腔(解剖学) 模拟 解剖 计算机科学 化学 医学 外科 内科学 食品科学
作者
Yu Dang,Yuanxiang Liu,Ryman Hashem,Dipankar Bhattacharya,Jacqueline Allen,Martin Stommel,Leo K. Cheng,Wei Xu
出处
期刊:Soft robotics [Mary Ann Liebert, Inc.]
卷期号:8 (3): 273-283 被引量:47
标识
DOI:10.1089/soro.2019.0136
摘要

The human stomach breaks down and transports food by coordinated radial contractions of the gastric walls. The radial contractions periodically propagate through the stomach and constitute the peristaltic contractions, also called the gastric motility. The force, amplitude, and frequency of peristaltic contractions are relevant to massaging and transporting the food contents in the gastric lumen. However, existing gastric simulators have not faithfully replicated gastric motility. Herein, we report a soft robotic gastric simulator (SoGut) that emulates peristaltic contractions in an anatomically realistic way. SoGut incorporates an array of circular air chambers that generate radial contractions. The design and fabrication of SoGut leverages principles from the soft robotics field, which features compliance and adaptability. We studied the force and amplitude of the contractions when the lumen of SoGut was empty or filled with contents of different viscosity. We examined the contracting force using manometry. SoGut exhibited a similar range of contracting force as the human stomach reported in the literature. Besides, we investigated the amplitude of the contractions through videofluoroscopy where the contraction ratio was derived. The contraction ratio as a function of inflation pressure is found to match the observations of in vivo situations. We demonstrated that SoGut can achieve in vitro peristaltic contractions by coordinating the inflation sequence of multiple air chambers. It exhibited the functions to massage and transport the food contents. SoGut can simulate the physiological motions of the human stomach to advance research of digestion.
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