The 95th Annual Meeting of Japanese Society for Bacteriology

Presentation information

On-demand Presentation

[ODP29] 6. Host defense -c. Others

[ODP-184] Germicidal effect of 222 nm-UVC on S. aureus and B. cereus adhered to fabrics

Risako Fukushi1,2, Makiko Yamauchi1, Sonoko Takase1, Ryoko Kimura1, Miwa Miura1, Masumi Saito1, Kouji Narita2,3, Krisana Asano2,4, Akio Nakane1,4 (1Dept. Nursing, Sch. Health Sci., Hirosaki Univ. Health Welfare, 2Dept. Microbiol. Immunol., Hirosaki Univ. Grad. Sch. Med., 3Inst. Animal Exp., Hirosaki Univ. Grad. Sch. Med., 4Dept. Biopolymer Health Sci., Hirosaki Univ. Grad. Sch. Med.)


Nosocomial infections can spread due to cloth products such as linens contaminated with bacteria. 254 nm-UVC light is often used for their sterilization, but it is harmful to the dermis and cornea. Recently, 222 nm-UVC is suggested to be harmless to these tissues. In this study, we investigated the germicidal effect of 222 nm-UVC light on methicillin-resistant S. aureus (MRSA) and B. cereus spores adhered to 3 types of fabrics: 100% cotton, cotton polyester (35% cotton, 65% polyester), and woven towel (100% cotton). MRSA or B. cereus spores were dropped on pieces of the fabrics and allowed to dry. Then, both sides each piece was irradiated with 222 nm-UVC at total dose of 0, 70 and 210 mJ/cm2. After irradiation, the fabrics were extracted with PBS containing 0.1% Tween 20, and live bacterial number in extract was measured. For MRSA on cotton or towels, the viable cell count was undetectable after 70 mJ/cm2 irradiation. The viable MRSA on cotton polyester decreased in proportion to the irradiation dose but remained even irradiation at 210 mJ/cm2. For B. cereus spores, the viable cell count on cotton was undetectable after 210 mJ/cm2 irradiation, but about half of the viable cells remained in cotton polyester and towels. The results suggest that the germicidal effect of 222 nm-UVC differs depending on material, weave of the fiber, and MRSA or B. cereus spores.