The Largest Measles Outbreak, Including 38 Modified Measles and 22 Typical Measles Cases in Its Elimination Era in Yamagata, Japan, 2017

• Published in: Japanese Journal of Infectious Diseases Vol. 71; no. 6; pp. 413 - 418
• Main Authors: Komabayashi, Kenichi, Seto, Junji, Tanaka, Shizuka, Suzuki, Yu, Ikeda, Tatsuya, Onuki, Noriko, Yamada, Keiko, Ahiko, Tadayuki, Ishikawa, Hitoshi, Mizuta, Katsumi
• Format: Journal Article
• Language: English
• Published: Japan National Institute of Infectious Diseases, Japanese Journal of Infectious Diseases Editorial Committee 30.11.2018; Japan Science and Technology Agency
• Subjects: Adolescent; Adult; Child; Child, Preschool; Communicable Disease Control - methods; Communicable Diseases, Imported - epidemiology; Communicable Diseases, Imported - pathology; Communicable Diseases, Imported - prevention & control; Communicable Diseases, Imported - transmission; Disease Outbreaks; Disease Transmission, Infectious; elimination era; Epidemics; Epidemiology; Female; Genomes; Genotype; Genotypes; Humans; Immunity; Importation; imported measles; Incidence; Infant; Japan - epidemiology; Male; Measles; Measles - epidemiology; Measles - pathology; Measles - prevention & control; Measles - transmission; Measles Vaccine - administration & dosage; Measles Vaccine - immunology; Measles virus - classification; Measles virus - genetics; Measles virus - isolation & purification; Middle Aged; Outbreaks; primary case; Signs and symptoms; vaccination; Vaccines; Viruses; Young Adult; Japan; primary case; imported measles; elimination era; vaccination
• ISSN: 1344-6304; 1884-2836; 1884-2836
• DOI: 10.7883/yoken.JJID.2018.083

The incidence of modified measles (M-Me), characterized by milder symptoms than those of typical measles (T-Me), has been increasing in Japan. However, the outbreak dominated by M-Me cases has not been thoroughly investigated worldwide. The largest importation-related outbreak of measles with genotype D8 occurred in Yamagata Prefecture, Japan, from March to April 2017. This phenomenon was observed after Japan had achieved measles elimination in 2015. We confirmed 60 cases by detecting the genome of the measles virus (MeV). Among the cases, 38 were M-Me and 22 were T-Me. Thirty-nine (65.0%) patients were 20–39 years of age. Three out of 7 primary cases produced 50 transmissions, of which each patient caused 9–25 transmissions. These patients were 22–31 years old and were not vaccinated. Moreover, they developed T-Me and kept contact with the public during their symptomatic periods. Considering that M-Me is generally caused by vaccine failure, some individuals in Japan may have insufficient immunity for MeV. Accordingly, additional doses of measles vaccine may be necessary in preventing measles importation and endemicity among individuals aged 20–39 years. Furthermore, to accurately and promptly diagnose individuals with measles, particularly those who can be considered as primary cases, efforts must be exerted to detect all measles cases using epidemiological and genetic approaches in countries where measles elimination had been achieved.