Abstract

Changes in heart and respiratory rates and tidal volume were detected using a noninvasive, noncontact biological information sensor in patients receiving general anesthesia. The results demonstrated that all measurements were within permissible ranges. Moreover, we determined changes in tidal volume that we believe are indicative of a patient's respiratory status.

Description

45th Biennial Convention 2019 Theme: Connect. Collaborate. Catalyze.

Author Details

Noriyoshi Tanaka, PhD, RN, School of Nursing, University of Shizuoka, Shizuoka, Japan; Yumi Tanaka, MD; Satomi Takeda, MD, Department of Anesthesiology, Fuji Hospital, Gotenba, Japan; Syozo Hayashi, RN, Department of Nursing, Fuji Hospital, Gotenba, Japan; Megumi Hori, PhD, RN, Division of Surveillance, Center for Cancer Control and Information Services, National Cancer Center, Tokyo, Japan; Hiroshi Nakayama, PhD, Fuji Technical Support Center, Industrial Research Institute of Shizuoka Prefecture, Fuji, Japan; Takahiro Kakeda, PhD, RN, Department of Nursing, Kansai University of Social Welfare, Hyogo, Japan

Sigma Membership

Alpha

Lead Author Affiliation

University of Shizuoka, Shizuoka, Japan

Type

Poster

Format Type

Text-based Document

Study Design/Type

N/A

Research Approach

N/A

Keywords:

Heart Rate, Respiratory Rate, New Technology and Tidal Volume

Conference Name

45th Biennial Convention

Conference Host

Sigma Theta Tau International

Conference Location

Washington, DC, USA

Conference Year

2019

Rights Holder

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All submitting authors or publishers have affirmed that when using material in their work where they do not own copyright, they have obtained permission of the copyright holder prior to submission and the rights holder has been acknowledged as necessary.

Acquisition

Proxy-submission

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New technology for contactless heart rate, respiratory rate, and tidal volume monitoring

Washington, DC, USA

Changes in heart and respiratory rates and tidal volume were detected using a noninvasive, noncontact biological information sensor in patients receiving general anesthesia. The results demonstrated that all measurements were within permissible ranges. Moreover, we determined changes in tidal volume that we believe are indicative of a patient's respiratory status.