Katayama Atsuko, Nakazawa Harumasa, Tokumine Joho, Lefor Alan Kawarai, Watanabe Kunitaro, Asao Takayuki, Yorozu Tomoko
Department of Anesthesiology, Kyorin University School of Medicine, Sinkawa, Mitaka, Tokyo.
Department of Surgery, Jichi Medical University, Yakushiji, Shimotsuke, Tochigi.
Medicine (Baltimore). 2019 Feb;98(8):e14665. doi: 10.1097/MD.0000000000014665.
A high-fidelity task simulator for cricothyroidotomy was created using data from a 3-dimensional (3D) computed tomography scan using a 3D printer. We hypothesized that this high-fidelity cricothyroidotomy simulator results in increased proficiency for needle cricothyroidotomy compared with conventional simulators.
Cricothyroidotomy-naive residents were recruited and randomly assigned to 2 groups, including simulation training with a conventional simulator (Group C) and with a high-fidelity simulator (Group 3D). After simulation training, participants performed cricothyroidotomy using an ex vivo porcine larynx fitted with an endoscope to record the procedure. The primary outcomes were success rate and procedure time. The secondary outcome was a subjective measure of the similarity of the simulator to the porcine larynx.
Fifty-two residents participated in the study (Group C: n = 27, Group 3D: n = 25). There was no significant difference in the success rate or procedure time between the 2 groups (success rate: P = .24, procedure time: P = .34). There was no significant difference in the similarity of the simulators to the porcine larynx (P = .81).
We developed a high-fidelity simulator for cricothyroidotomy from 3D computed tomography data using a 3D printer. This anatomically high-fidelity simulator did not have any advantages compared with conventional dry simulators.
利用三维(3D)计算机断层扫描数据,通过3D打印机制作了一种用于环甲膜切开术的高保真任务模拟器。我们假设,与传统模拟器相比,这种高保真环甲膜切开术模拟器能提高针式环甲膜切开术的熟练度。
招募从未进行过环甲膜切开术的住院医师,并将其随机分为两组,分别使用传统模拟器(C组)和高保真模拟器(3D组)进行模拟训练。模拟训练后,参与者使用装有内窥镜的离体猪喉进行环甲膜切开术,以记录手术过程。主要结局指标为成功率和手术时间。次要结局指标是对模拟器与猪喉相似性的主观评估。
52名住院医师参与了该研究(C组:n = 27,3D组:n = 25)。两组之间的成功率或手术时间无显著差异(成功率:P = 0.24,手术时间:P = 0.34)。模拟器与猪喉的相似性也无显著差异(P = 0.81)。
我们利用3D计算机断层扫描数据,通过3D打印机开发了一种用于环甲膜切开术的高保真模拟器。与传统干式模拟器相比,这种解剖学上高保真的模拟器并无任何优势。