よむ、つかう、まなぶ。
09参考資料1-3 9価ヒトパピローマウイルス( HPV )ワクチン ファクトシート (44 ページ)
出典
| 公開元URL | https://www.mhlw.go.jp/stf/shingi2/0000192554_00024.html |
| 出典情報 | 厚生科学審議会予防接種・ワクチン分科会 予防接種基本方針部会(第49回 10/4)《厚生労働省》 |
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1768
79. WHO (2014). Weekly epidemiological record. No. 21, 2014, 89, 221‒236.
1804
91. Iversen, O. E., et al. (2016). Immunogenicity of the 9-Valent HPV Vaccine Using 2-
1769
80.
Romanowski, B., et al. (2016). Sustained immunogenicity of the HPV-16/18 AS04-
1805
Dose Regimens in Girls and Boys vs a 3-Dose Regimen in Women. Jama 316(22): 2411-2421.
1770
adjuvanted vaccine administered as a two-dose schedule in adolescent girls: Five-year clinical
1806
92.
1771
data and modeling predictions from a randomized study. Hum Vaccin Immunother 12(1): 20-
1807
nine-valent human papillomavirus vaccine in girls and boys 9 to 15 years of age: Interim
Olsson, S. E., et al. (2020). Long-term immunogenicity, effectiveness, and safety of
1772
29.
1808
analysis after 8 years of follow-up. Papillomavirus Res 10: 100203.
1773
81. Romanowski, B., et al. (2011). Immunogenicity and safety of the HPV-16/18 AS04-
1809
93.
1774
adjuvanted vaccine administered as a 2-dose schedule compared with the licensed 3-dose
1810
Infection and disease in males. N Engl J Med 364(5): 401-411.
1775
schedule: results from a randomized study. Hum Vaccin 7(12): 1374-1386.
1811
94. Garland, S. M., et al. (2018). Efficacy, Immunogenicity, and Safety of a 9-Valent Human
1776
82. Dobson, S. R., et al. (2013). Immunogenicity of 2 doses of HPV vaccine in younger
1812
Papillomavirus Vaccine: Subgroup Analysis of Participants From Asian Countries. J Infect Dis
1777
adolescents vs 3 doses in young women: a randomized clinical trial. Jama 309(17): 1793-1802.
1813
218(1): 95-108.
1778
83. D'Addario, M., et al. (2017). Two-dose schedules for human papillomavirus vaccine:
1814
95. Iwata, S., et al. (2017). Safety and Immunogenicity of a 9-Valent Human Papillomavirus
1779
Systematic review and meta-analysis. Vaccine 35(22): 2892-2901.
1815
Vaccine Administered to 9- to 15-Year-Old Japanese Girls. Jpn J Infect Dis 70(4): 368-373.
1780
84.
Leung, T. F., et al. (2015). Comparative immunogenicity and safety of human
1816
96.
Giuliano, A. R., et al. (2011). Efficacy of quadrivalent HPV vaccine against HPV
Kudo, R., et al. (2019). Bivalent Human Papillomavirus Vaccine Effectiveness in a
1781
papillomavirus (HPV)-16/18 AS04-adjuvanted vaccine and HPV-6/11/16/18 vaccine
1817
Japanese Population: High Vaccine-Type-Specific Effectiveness and Evidence of Cross-
1782
administered according to 2- and 3-dose schedules in girls aged 9-14 years: Results to month
1818
Protection. J Infect Dis 219(3): 382-390.
1783
12 from a randomized trial. Hum Vaccin Immunother 11(7): 1689-1702.
1819
97. Tanaka, H., et al. (2017). Preventive effect of human papillomavirus vaccination on the
1784
85.
Bergman, H., et al. (2019). Comparison of different human papillomavirus (HPV)
1820
development of uterine cervical lesions in young Japanese women. J Obstet Gynaecol Res
1785
vaccine types and dose schedules for prevention of HPV-related disease in females and males.
1821
43(10): 1597-1601.
1786
Cochrane Database Syst Rev 2019(11).
1822
98. Ozawa, N., et al. (2017). Lower Incidence of Cervical Intraepithelial Neoplasia among
1787
86.
Leung, T. F., et al. (2018). Comparative immunogenicity and safety of human
1823
Young Women with Human Papillomavirus Vaccination in Miyagi, Japan. Tohoku J Exp Med
1788
papillomavirus (HPV)-16/18 AS04-adjuvanted vaccine and 4vHPV vaccine administered
1824
243(4): 329-334.
1789
according to two- or three-dose schedules in girls aged 9-14 years: Results to month 36 from
1825
99. Konno, R., et al. (2018). Effectiveness of HPV vaccination against high grade cervical
1790
a randomized trial. Vaccine 36(1): 98-106.
1826
lesions in Japan. Vaccine 36(52): 7913-7915.
1791
87. Donken, R., et al. (2020). Immunogenicity of 2 and 3 Doses of the Quadrivalent Human
1827
100. Shiko, Y., et al. (2020). Effectiveness of HPV vaccination against the development of
1792
Papillomavirus Vaccine up to 120 Months Postvaccination: Follow-up of a Randomized
1828
high-grade cervical lesions in young Japanese women. BMC Infect Dis 20(1): 808.
1793
Clinical Trial. Clin Infect Dis 71(4): 1022-1029.
1829
101. Karube, A., et al. (2019). Reduction in HPV 16/18 prevalence among young women
1794
88.
Dehlendorff, C., et al. (2018). Effectiveness of varying number of doses and timing
1830
following HPV vaccine introduction in a highly vaccinated district, Japan, 2008-2017. J Rural
1795
between doses of quadrivalent HPV vaccine against severe cervical lesions. Vaccine 36(43):
1831
Med 14(1): 48-57.
1796
6373-6378.
1832
102. Yagi, A., et al. (2019). Evaluation of future cervical cancer risk in Japan, based on birth
1797
89. Huh, W. K., et al. (2017). Final efficacy, immunogenicity, and safety analyses of a nine-
1833
year. Vaccine 37(22): 2889-2891.
1798
valent human papillomavirus vaccine in women aged 16-26 years: a randomised, double-blind
1834
103. Ueda, Y., et al. (2018). Dynamic changes in Japan's prevalence of abnormal findings in
1799
trial. Lancet 390(10108): 2143-2159.
1835
cervical cervical cytology depending on birth year. Sci Rep 8(1): 5612.
1800
90.
Vesikari, T., et al. (2015). A Randomized, Double-Blind, Phase III Study of the
1836
104.
1801
Immunogenicity and Safety of a 9-Valent Human Papillomavirus L1 Virus-Like Particle
1837
women with high-grade cervical lesions following the Japanese HPV vaccination program.
1802
Vaccine (V503) Versus Gardasil(R) in 9-15-Year-Old Girls. Pediatr Infect Dis J 34(9): 992-
1838
Cancer Sci 110(12): 3811-3820.
1803
998.
1839
105.
87
Matsumoto, K., et al. (2019). Reduction in HPV16/18 prevalence among young
Ikeda S, Ueda Y, et al. (2020). Human papillomavirus vaccine to prevent cervical
88
79. WHO (2014). Weekly epidemiological record. No. 21, 2014, 89, 221‒236.
1804
91. Iversen, O. E., et al. (2016). Immunogenicity of the 9-Valent HPV Vaccine Using 2-
1769
80.
Romanowski, B., et al. (2016). Sustained immunogenicity of the HPV-16/18 AS04-
1805
Dose Regimens in Girls and Boys vs a 3-Dose Regimen in Women. Jama 316(22): 2411-2421.
1770
adjuvanted vaccine administered as a two-dose schedule in adolescent girls: Five-year clinical
1806
92.
1771
data and modeling predictions from a randomized study. Hum Vaccin Immunother 12(1): 20-
1807
nine-valent human papillomavirus vaccine in girls and boys 9 to 15 years of age: Interim
Olsson, S. E., et al. (2020). Long-term immunogenicity, effectiveness, and safety of
1772
29.
1808
analysis after 8 years of follow-up. Papillomavirus Res 10: 100203.
1773
81. Romanowski, B., et al. (2011). Immunogenicity and safety of the HPV-16/18 AS04-
1809
93.
1774
adjuvanted vaccine administered as a 2-dose schedule compared with the licensed 3-dose
1810
Infection and disease in males. N Engl J Med 364(5): 401-411.
1775
schedule: results from a randomized study. Hum Vaccin 7(12): 1374-1386.
1811
94. Garland, S. M., et al. (2018). Efficacy, Immunogenicity, and Safety of a 9-Valent Human
1776
82. Dobson, S. R., et al. (2013). Immunogenicity of 2 doses of HPV vaccine in younger
1812
Papillomavirus Vaccine: Subgroup Analysis of Participants From Asian Countries. J Infect Dis
1777
adolescents vs 3 doses in young women: a randomized clinical trial. Jama 309(17): 1793-1802.
1813
218(1): 95-108.
1778
83. D'Addario, M., et al. (2017). Two-dose schedules for human papillomavirus vaccine:
1814
95. Iwata, S., et al. (2017). Safety and Immunogenicity of a 9-Valent Human Papillomavirus
1779
Systematic review and meta-analysis. Vaccine 35(22): 2892-2901.
1815
Vaccine Administered to 9- to 15-Year-Old Japanese Girls. Jpn J Infect Dis 70(4): 368-373.
1780
84.
Leung, T. F., et al. (2015). Comparative immunogenicity and safety of human
1816
96.
Giuliano, A. R., et al. (2011). Efficacy of quadrivalent HPV vaccine against HPV
Kudo, R., et al. (2019). Bivalent Human Papillomavirus Vaccine Effectiveness in a
1781
papillomavirus (HPV)-16/18 AS04-adjuvanted vaccine and HPV-6/11/16/18 vaccine
1817
Japanese Population: High Vaccine-Type-Specific Effectiveness and Evidence of Cross-
1782
administered according to 2- and 3-dose schedules in girls aged 9-14 years: Results to month
1818
Protection. J Infect Dis 219(3): 382-390.
1783
12 from a randomized trial. Hum Vaccin Immunother 11(7): 1689-1702.
1819
97. Tanaka, H., et al. (2017). Preventive effect of human papillomavirus vaccination on the
1784
85.
Bergman, H., et al. (2019). Comparison of different human papillomavirus (HPV)
1820
development of uterine cervical lesions in young Japanese women. J Obstet Gynaecol Res
1785
vaccine types and dose schedules for prevention of HPV-related disease in females and males.
1821
43(10): 1597-1601.
1786
Cochrane Database Syst Rev 2019(11).
1822
98. Ozawa, N., et al. (2017). Lower Incidence of Cervical Intraepithelial Neoplasia among
1787
86.
Leung, T. F., et al. (2018). Comparative immunogenicity and safety of human
1823
Young Women with Human Papillomavirus Vaccination in Miyagi, Japan. Tohoku J Exp Med
1788
papillomavirus (HPV)-16/18 AS04-adjuvanted vaccine and 4vHPV vaccine administered
1824
243(4): 329-334.
1789
according to two- or three-dose schedules in girls aged 9-14 years: Results to month 36 from
1825
99. Konno, R., et al. (2018). Effectiveness of HPV vaccination against high grade cervical
1790
a randomized trial. Vaccine 36(1): 98-106.
1826
lesions in Japan. Vaccine 36(52): 7913-7915.
1791
87. Donken, R., et al. (2020). Immunogenicity of 2 and 3 Doses of the Quadrivalent Human
1827
100. Shiko, Y., et al. (2020). Effectiveness of HPV vaccination against the development of
1792
Papillomavirus Vaccine up to 120 Months Postvaccination: Follow-up of a Randomized
1828
high-grade cervical lesions in young Japanese women. BMC Infect Dis 20(1): 808.
1793
Clinical Trial. Clin Infect Dis 71(4): 1022-1029.
1829
101. Karube, A., et al. (2019). Reduction in HPV 16/18 prevalence among young women
1794
88.
Dehlendorff, C., et al. (2018). Effectiveness of varying number of doses and timing
1830
following HPV vaccine introduction in a highly vaccinated district, Japan, 2008-2017. J Rural
1795
between doses of quadrivalent HPV vaccine against severe cervical lesions. Vaccine 36(43):
1831
Med 14(1): 48-57.
1796
6373-6378.
1832
102. Yagi, A., et al. (2019). Evaluation of future cervical cancer risk in Japan, based on birth
1797
89. Huh, W. K., et al. (2017). Final efficacy, immunogenicity, and safety analyses of a nine-
1833
year. Vaccine 37(22): 2889-2891.
1798
valent human papillomavirus vaccine in women aged 16-26 years: a randomised, double-blind
1834
103. Ueda, Y., et al. (2018). Dynamic changes in Japan's prevalence of abnormal findings in
1799
trial. Lancet 390(10108): 2143-2159.
1835
cervical cervical cytology depending on birth year. Sci Rep 8(1): 5612.
1800
90.
Vesikari, T., et al. (2015). A Randomized, Double-Blind, Phase III Study of the
1836
104.
1801
Immunogenicity and Safety of a 9-Valent Human Papillomavirus L1 Virus-Like Particle
1837
women with high-grade cervical lesions following the Japanese HPV vaccination program.
1802
Vaccine (V503) Versus Gardasil(R) in 9-15-Year-Old Girls. Pediatr Infect Dis J 34(9): 992-
1838
Cancer Sci 110(12): 3811-3820.
1803
998.
1839
105.
87
Matsumoto, K., et al. (2019). Reduction in HPV16/18 prevalence among young
Ikeda S, Ueda Y, et al. (2020). Human papillomavirus vaccine to prevent cervical
88