Design and validation of a method for evaluating medical device cleanliness by recovering and quantifying residual proteins on stainless plates

Miyuki Uematsu; Yuko Miyamoto; Masatake Shimizu; Tsuyoshi Kajiura; Atsushi Saito; Masaki Takashina; Satoshi Fujita; Yuko Nakano; Toshiaki Shimizu; Yuki Nagahara; Hayato Kosaka; Hiroki Muramatsu; Masafumi Mori; Takamasa Suzuki; Takayoshi Nakamura; Atsushi Tanemura; Junki Hosaka; Takahide Mori; Seiichi Kato; Ayaka Itagaki; Toshiki Inoue; Shinichi Matsumoto; Tomoko Naito; Shinji Fujii; Ryusuke Nakaoka; Eiichi Yamamoto

doi:10.1038/s41598-024-72473-1

Scientific Reports (Sep 2024)

Design and validation of a method for evaluating medical device cleanliness by recovering and quantifying residual proteins on stainless plates

Miyuki Uematsu,
Yuko Miyamoto,
Masatake Shimizu,
Tsuyoshi Kajiura,
Atsushi Saito,
Masaki Takashina,
Satoshi Fujita,
Yuko Nakano,
Toshiaki Shimizu,
Yuki Nagahara,
Hayato Kosaka,
Hiroki Muramatsu,
Masafumi Mori,
Takamasa Suzuki,
Takayoshi Nakamura,
Atsushi Tanemura,
Junki Hosaka,
Takahide Mori,
Seiichi Kato,
Ayaka Itagaki,
Toshiki Inoue,
Shinichi Matsumoto,
Tomoko Naito,
Shinji Fujii,
Ryusuke Nakaoka,
Eiichi Yamamoto

Affiliations

Miyuki Uematsu: Division of Medical Devices, National Institute of Health Sciences
Yuko Miyamoto: Division of Medical Devices, National Institute of Health Sciences
Masatake Shimizu: Development Laboratory, Inui Medics Co., Ltd.
Tsuyoshi Kajiura: Development Laboratory, Inui Medics Co., Ltd.
Atsushi Saito: Central Sterile Supply Department, Osaka University Hospital
Masaki Takashina: Central Sterile Supply Department, Osaka University Hospital
Satoshi Fujita: Engineering Department, Clean Chemical Co., Ltd.
Yuko Nakano: Engineering Department, Clean Chemical Co., Ltd.
Toshiaki Shimizu: Infection Control Business Unit, Sakura Seiki Co., Ltd.
Yuki Nagahara: Infection Control Business Unit, Sakura Seiki Co., Ltd.
Hayato Kosaka: Infection Control Business Unit, Sakura Seiki Co., Ltd.
Hiroki Muramatsu: SUD Re-manufacturing Business Preparation Office, Suzuyo & Co., Ltd.
Masafumi Mori: SUD Re-manufacturing Business Preparation Office, Suzuyo & Co., Ltd.
Takamasa Suzuki: SUD Re-manufacturing Business Preparation Office, Suzuyo & Co., Ltd.
Takayoshi Nakamura: Institute of Surface Science and Technology, Nicca Chemical Co., Ltd.
Atsushi Tanemura: Institute of Surface Science and Technology, Nicca Chemical Co., Ltd.
Junki Hosaka: Laboratory and Speciality Chemicals Division, FUJIFILM Wako Pure Chemical Corp.
Takahide Mori: Laboratory and Speciality Chemicals Division, FUJIFILM Wako Pure Chemical Corp.
Seiichi Kato: Research and Development Division, Hogy Medical Co., Ltd.
Ayaka Itagaki: Research and Development Division, Hogy Medical Co., Ltd.
Toshiki Inoue: Research and Development Division, Hogy Medical Co., Ltd.
Shinichi Matsumoto: System Sales Department, Muranaka Medical Instruments Co., Ltd.
Tomoko Naito: R&D Division, Miura Co., Ltd.
Shinji Fujii: R&D Division, Miura Co., Ltd.
Ryusuke Nakaoka: Division of Medical Devices, National Institute of Health Sciences
Eiichi Yamamoto: Division of Medical Devices, National Institute of Health Sciences

DOI: https://doi.org/10.1038/s41598-024-72473-1
Journal volume & issue: Vol. 14, no. 1
pp. 1 – 13

Abstract

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Abstract We recently reported a method for recovering and quantifying residual proteins bound to surfaces of various medical instruments via thermal coagulation under neutral pH and room temperature. The method effectively recovered and solubilised coagulated proteins at high temperatures in dry and humid conditions, with a protein recovery rate of > 90%. This study validated the previous method by comparing residual protein recovery from test samples using a conventional extraction solution (1% SDS, [pH 11.0]) and proposed solution (1% SDS, 10 mM TCEP, and 10 mM HEPES [pH 7.0]). To mimic soiled medical equipment, pseudo-blood-contaminated stainless steel plates were prepared. Residual protein was recovered using conventional and proposed solutions under varying temperature and humidity conditions. Quantitative protein recovery limits were determined at nine facilities. Compared with the conventional solution, the proposed solution recovered proteins more effectively from samples processed at temperatures > 60 °C. However, low recovery rates were observed for samples processed at 95 °C, possibly owing to differences in protein adhesion due to sample and plate-surface properties. Our findings present a method for quantifying residual proteins on medical instruments exposed to high temperatures during use or disinfection. Further studies should standardise test soiling conditions, materials, and solutions to evaluate cleaning methods.

Published in Scientific Reports

ISSN: 2045-2322 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Medicine; Science
Website: https://www.nature.com/srep/

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