Literature DB >> 32492223

Shielding for patients using a single-use vinyl-box under continuous aerosol suction to minimize SARS-CoV-2 transmission during emergency endoscopy.

Hideki Kobara¹, Noriko Nishiyama^1,2, Tsutomu Masaki¹.

Abstract

Entities: Chemical Disease Species

Mesh：

Substances：
Aerosols

Year: 2020 PMID： 32492223 PMCID： PMC7300621 DOI： 10.1111/den.13713

Source DB: PubMed Journal: Dig Endosc ISSN： 0915-5635 Impact factor: 7.559

× No keyword cloud information.

Brief Explanation

After reading Marchese et al.'s description of using an anesthetic face mask to minimize the risk of endoscopy staff being infected with SARS‐CoV‐2 by the patient during endoscopy, we developed an alternative means of achieving this. Personal protective equipment is recommended for protecting endoscopists, whereas there are few tools for shutting in patient‐generated aerosols. These staff are close to patients and therefore require protection, single‐use equipment being preferable. According to current statements, routine endoscopies should be deferred to prioritize urgent therapeutic endoscopies. , , Endoscopies should be performed in a negative pressure room to turn off air circulation in suspected or confirmed cases of COVID‐19. We herein introduce a shield constructed from a vinyl‐box to enclose these patients (Fig. 1A; Video S1).

Figure 1

Overview photograph showing the shield for the patient. (A) Required materials, comprising a transparent vinyl bag (60 × 45 × 22 cm, 90 L capacity), a space rack (21 × 19 × 44 cm), a piece of cardboard (13 × 8 cm) with 3 cm hole, and rubber glove. A transparent vinyl bag (60 × 45 × 22 cm, 90 L capacity), a space rack (21 × 19 × 44 cm), a piece of cardboard (13 × 8 cm) with 3 cm hole, and a rubber glove (Fig. 1B) are used to create a shield as follows. First, a glove is wrapped around the cardboard and a 12 mm hole is made in the glove to serve as the scope‐access route. Next, the card is taped to a prepared hole in the bag. Then, the bag is open‐fixed with clips inside the rack, and the open side is fixed with clips on the middle body. The air leakages between clips are minimal, resulting in the upper body being almost completely shielded by the box (Fig. 2A). Aerosols scattered by vomiting are continuously aspirated via a suction tube inserted into one side of the box. In order to maintain patient respiration, the oxygen‐insufflated tube is inserted into upper side of the box, monitoring oxygen saturation (Fig. 2B).

Figure 2

(A) The patient’s upper body is almost completely shielded by the box during emergency endoscopy. (B) Inside view: Aerosols are continuously aspirated via a suction tube (white color) inserted into one side of the box, and the oxygen‐insufflated tube (green color) is inserted into upper side of the box to maintain patient respiration. This method can be a supportive model for minimizing virus transmission during emergency endoscopy. Authors declare no conflicts of interest for this article.

Funding Information

None. Video S1 In this video, we introduce an alternative means using a single‐use vinyl‐box under continuous aerosol suction to minimize the risk of endoscopy staff being infected with SARS‐CoV‐2 by the patient during emergency endoscopy. Click here for additional data file.

8 in total

1. Covid-19 post-lockdown: A transparent box, used as protective equipment in gastroscopy. A test of feasibility and efficacy.

Authors: Ofir Har-Noy; Lev Lichtenstein; Evgeny Landa; Zvika Marcus; Gil Ovadia; Jorge-Shmuel Delgado
Journal: Dig Liver Dis Date: 2020-08-29 Impact factor: 4.088

2. Amount of contamination on the face shield of endoscopists during upper endoscopy between patients in two positions: A randomized study.

Authors: Rapat Pittayanon; Natee Faknak; Prooksa Ananchuensook; Thaninee Prasoppokakorn; Suppawatsa Plai-Dum; Tiwaporn Thummongkhol; Leilani Paitoonpong; Rungsun Rerknimitr
Journal: J Gastroenterol Hepatol Date: 2021-02-18 Impact factor: 4.369

3. A mask-based infection control method for screening endoscopy may prevent SARS-CoV-2 transmission and relieve staff anxiety.

Authors: Yuji Nadatani; Akira Higashimori; Shingo Takashima; Hirotsugu Maruyama; Koji Otani; Shusei Fukunaga; Shuhei Hosomi; Fumio Tanaka; Hideki Fujii; Akemi Nakano; Koichi Taira; Noriko Kamata; Yasuaki Nagami; Tatsuo Kimura; Shinya Fukumoto; Toshio Watanabe; Norifumi Kawada; Yasuhiro Fujiwara
Journal: SAGE Open Med Date: 2021-09-20

4. Commercially available novel device to prevent the diffusion of droplets from subjects undergoing esophagogastroduodenoscopy: A pilot study with its prototype.

Authors: Hiroyuki Endo; Tomoyuki Koike; Noriyuki Obara; Waku Hatta; Atsushi Masamune
Journal: DEN open Date: 2021-09-01

5. A Novel Endoscopic Mouthpiece for COVID-19 Prevention.

Authors: Takuto Hikichi; Nakamura Jun; Koichi Hamada; Daiki Nemoto
Journal: Clin Endosc Date: 2021-10-15

6. A comparison of the effectiveness of four aerosol shielding devices in reducing endoscopists' exposure to airborne particles during simulated upper gastrointestinal endoscopy.

Authors: Akira Higashimori; Yuji Nadatani; Hirotsugu Maruyama; Yasuhiro Fujiwara
Journal: Clin Endosc Date: 2021-10-21

7. Shielding device for endoscopic procedures during lower gastrointestinal endoscopy.

Authors: Daisuke Kikuchi; Daiki Ariyoshi; Yugo Suzuki; Yorinari Ochiai; Hiroyuki Odagiri; Junnosuke Hayasaka; Masami Tanaka; Tetsuya Morishima; Keita Kimura; Hiroshi Ezawa; Sanae Nakagawa; Risa Iwamoto; Yoshinori Matsuwaki; Shu Hoteya
Journal: DEN open Date: 2022-10-10

8. A novel mask to prevent aerosolized droplet dispersion in endoscopic procedures during the coronavirus disease pandemic.

Authors: Tadateru Maehata; Hiroshi Yasuda; Hirofumi Kiyokawa; Yoshinori Sato; Masaki Yamashita; Yasumasa Matsuo; Kazunari Nakahara; Hiroyuki Yamamoto; Fumio Itoh
Journal: Medicine (Baltimore) Date: 2021-07-02 Impact factor: 1.817

8 in total