Hospital-based influenza surveillance in Korea: Hospital-based influenza morbidity and mortality study group
Influenza epidemics occur annually with variations in size and severity. Hospital‐based Influenza Morbidity & Mortality was established to monitor influenza epidemics and their severity, which is composed of two surveillance systems: emergency room‐based and inpatient‐based surveillance. Regardi...
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| Published in | Journal of medical virology Vol. 85; no. 5; pp. 910 - 917 |
|---|---|
| Main Authors | , , , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Hoboken
Wiley Subscription Services, Inc., A Wiley Company
01.05.2013
Wiley Wiley Subscription Services, Inc |
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| Online Access | Get full text |
| ISSN | 0146-6615 1096-9071 1096-9071 |
| DOI | 10.1002/jmv.23548 |
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| Abstract | Influenza epidemics occur annually with variations in size and severity. Hospital‐based Influenza Morbidity & Mortality was established to monitor influenza epidemics and their severity, which is composed of two surveillance systems: emergency room‐based and inpatient‐based surveillance. Regarding emergency room‐based surveillance, influenza‐like illness index (influenza‐like illness cases per 1,000 emergency room‐visiting subjects), number of laboratory‐confirmed cases and the distribution of influenza types were estimated weekly. Inpatient‐based surveillance included monitoring for hospitalization, complications, and mortality. The emergency room influenza‐like illness index correlated well with the number of laboratory‐confirmed influenza cases, and showed a bimodal peak at Week 4 (179.2/1,000 emergency room visits) and Weeks 13‐14 (169.6/1,000 emergency room visits) of 2012. Influenza A was the predominant strain during the first epidemic peak, while influenza B was isolated exclusively during the second peak. In 2011–2012 season, the mean admission rate of emergency room‐visiting patients with influenza‐like illness was 16.3% without any increase over the epidemic period. Among the hospitalized patients with influenza, 33.6% (41 out of 122 patients) were accompanied by complications, and pneumonia (28.7%, 35 out of 122 patients) was the most common. Most fatal cases were caused by influenza A (96.2%) after the first epidemic peak. In conclusion, Hospital‐based Influenza Morbidity & Mortality was effective for monitoring the trends in circulating influenza activity concurrently with its severity. In the 2011–2012 season, the influenza epidemic persisted for a ≥5‐month period, with a bimodal peak of influenza A and B in sequence. Overall, influenza A was more severe than influenza B. J. Med. Virol. 85:910–917, 2013. © 2013 Wiley Periodicals, Inc. |
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| AbstractList | Influenza epidemics occur annually with variations in size and severity. Hospital‐based Influenza Morbidity & Mortality was established to monitor influenza epidemics and their severity, which is composed of two surveillance systems: emergency room‐based and inpatient‐based surveillance. Regarding emergency room‐based surveillance, influenza‐like illness index (influenza‐like illness cases per 1,000 emergency room‐visiting subjects), number of laboratory‐confirmed cases and the distribution of influenza types were estimated weekly. Inpatient‐based surveillance included monitoring for hospitalization, complications, and mortality. The emergency room influenza‐like illness index correlated well with the number of laboratory‐confirmed influenza cases, and showed a bimodal peak at Week 4 (179.2/1,000 emergency room visits) and Weeks 13‐14 (169.6/1,000 emergency room visits) of 2012. Influenza A was the predominant strain during the first epidemic peak, while influenza B was isolated exclusively during the second peak. In 2011–2012 season, the mean admission rate of emergency room‐visiting patients with influenza‐like illness was 16.3% without any increase over the epidemic period. Among the hospitalized patients with influenza, 33.6% (41 out of 122 patients) were accompanied by complications, and pneumonia (28.7%, 35 out of 122 patients) was the most common. Most fatal cases were caused by influenza A (96.2%) after the first epidemic peak. In conclusion, Hospital‐based Influenza Morbidity & Mortality was effective for monitoring the trends in circulating influenza activity concurrently with its severity. In the 2011–2012 season, the influenza epidemic persisted for a ≥5‐month period, with a bimodal peak of influenza A and B in sequence. Overall, influenza A was more severe than influenza B. J. Med. Virol. 85:910–917, 2013. © 2013 Wiley Periodicals, Inc. Influenza epidemics occur annually with variations in size and severity. Hospital-based Influenza Morbidity & Mortality was established to monitor influenza epidemics and their severity, which is composed of two surveillance systems: emergency room-based and inpatient-based surveillance. Regarding emergency room-based surveillance, influenza-like illness index (influenza-like illness cases per 1,000 emergency room-visiting subjects), number of laboratory-confirmed cases and the distribution of influenza types were estimated weekly. Inpatient-based surveillance included monitoring for hospitalization, complications, and mortality. The emergency room influenza-like illness index correlated well with the number of laboratory-confirmed influenza cases, and showed a bimodal peak at Week 4 (179.2/1,000 emergency room visits) and Weeks 13-14 (169.6/1,000 emergency room visits) of 2012. Influenza A was the predominant strain during the first epidemic peak, while influenza B was isolated exclusively during the second peak. In 2011-2012 season, the mean admission rate of emergency room-visiting patients with influenza-like illness was 16.3% without any increase over the epidemic period. Among the hospitalized patients with influenza, 33.6% (41 out of 122 patients) were accompanied by complications, and pneumonia (28.7%, 35 out of 122 patients) was the most common. Most fatal cases were caused by influenza A (96.2%) after the first epidemic peak. In conclusion, Hospital-based Influenza Morbidity & Mortality was effective for monitoring the trends in circulating influenza activity concurrently with its severity. In the 2011-2012 season, the influenza epidemic persisted for a ≥ 5-month period, with a bimodal peak of influenza A and B in sequence. Overall, influenza A was more severe than influenza B. Influenza epidemics occur annually with variations in size and severity. Hospital-based Influenza Morbidity & Mortality was established to monitor influenza epidemics and their severity, which is composed of two surveillance systems: emergency room-based and inpatient-based surveillance. Regarding emergency room-based surveillance, influenza-like illness index (influenza-like illness cases per 1,000 emergency room-visiting subjects), number of laboratory-confirmed cases and the distribution of influenza types were estimated weekly. Inpatient-based surveillance included monitoring for hospitalization, complications, and mortality. The emergency room influenza-like illness index correlated well with the number of laboratory-confirmed influenza cases, and showed a bimodal peak at Week 4 (179.2/1,000 emergency room visits) and Weeks 13-14 (169.6/1,000 emergency room visits) of 2012. Influenza A was the predominant strain during the first epidemic peak, while influenza B was isolated exclusively during the second peak. In 2011-2012 season, the mean admission rate of emergency room-visiting patients with influenza-like illness was 16.3% without any increase over the epidemic period. Among the hospitalized patients with influenza, 33.6% (41 out of 122 patients) were accompanied by complications, and pneumonia (28.7%, 35 out of 122 patients) was the most common. Most fatal cases were caused by influenza A (96.2%) after the first epidemic peak. In conclusion, Hospital-based Influenza Morbidity & Mortality was effective for monitoring the trends in circulating influenza activity concurrently with its severity. In the 2011-2012 season, the influenza epidemic persisted for a ≥5-month period, with a bimodal peak of influenza A and B in sequence. Overall, influenza A was more severe than influenza B. J. Med. Virol. 85:910-917, 2013. © 2013 Wiley Periodicals, Inc. [PUBLICATION ABSTRACT] Influenza epidemics occur annually with variations in size and severity. Hospital-based Influenza Morbidity & Mortality was established to monitor influenza epidemics and their severity, which is composed of two surveillance systems: emergency room-based and inpatient-based surveillance. Regarding emergency room-based surveillance, influenza-like illness index (influenza-like illness cases per 1,000 emergency room-visiting subjects), number of laboratory-confirmed cases and the distribution of influenza types were estimated weekly. Inpatient-based surveillance included monitoring for hospitalization, complications, and mortality. The emergency room influenza-like illness index correlated well with the number of laboratory-confirmed influenza cases, and showed a bimodal peak at Week 4 (179.2/1,000 emergency room visits) and Weeks 13-14 (169.6/1,000 emergency room visits) of 2012. Influenza A was the predominant strain during the first epidemic peak, while influenza B was isolated exclusively during the second peak. In 2011-2012 season, the mean admission rate of emergency room-visiting patients with influenza-like illness was 16.3% without any increase over the epidemic period. Among the hospitalized patients with influenza, 33.6% (41 out of 122 patients) were accompanied by complications, and pneumonia (28.7%, 35 out of 122 patients) was the most common. Most fatal cases were caused by influenza A (96.2%) after the first epidemic peak. In conclusion, Hospital-based Influenza Morbidity & Mortality was effective for monitoring the trends in circulating influenza activity concurrently with its severity. In the 2011-2012 season, the influenza epidemic persisted for a greater than or equal to 5-month period, with a bimodal peak of influenza A and B in sequence. Overall, influenza A was more severe than influenza B. J. Med. Virol. 85:910-917, 2013. [copy 2013 Wiley Periodicals, Inc. Influenza epidemics occur annually with variations in size and severity. Hospital-based Influenza Morbidity & Mortality was established to monitor influenza epidemics and their severity, which is composed of two surveillance systems: emergency room-based and inpatient-based surveillance. Regarding emergency room-based surveillance, influenza-like illness index (influenza-like illness cases per 1,000 emergency room-visiting subjects), number of laboratory-confirmed cases and the distribution of influenza types were estimated weekly. Inpatient-based surveillance included monitoring for hospitalization, complications, and mortality. The emergency room influenza-like illness index correlated well with the number of laboratory-confirmed influenza cases, and showed a bimodal peak at Week 4 (179.2/1,000 emergency room visits) and Weeks 13-14 (169.6/1,000 emergency room visits) of 2012. Influenza A was the predominant strain during the first epidemic peak, while influenza B was isolated exclusively during the second peak. In 2011-2012 season, the mean admission rate of emergency room-visiting patients with influenza-like illness was 16.3% without any increase over the epidemic period. Among the hospitalized patients with influenza, 33.6% (41 out of 122 patients) were accompanied by complications, and pneumonia (28.7%, 35 out of 122 patients) was the most common. Most fatal cases were caused by influenza A (96.2%) after the first epidemic peak. In conclusion, Hospital-based Influenza Morbidity & Mortality was effective for monitoring the trends in circulating influenza activity concurrently with its severity. In the 2011-2012 season, the influenza epidemic persisted for a ≥ 5-month period, with a bimodal peak of influenza A and B in sequence. Overall, influenza A was more severe than influenza B.Influenza epidemics occur annually with variations in size and severity. Hospital-based Influenza Morbidity & Mortality was established to monitor influenza epidemics and their severity, which is composed of two surveillance systems: emergency room-based and inpatient-based surveillance. Regarding emergency room-based surveillance, influenza-like illness index (influenza-like illness cases per 1,000 emergency room-visiting subjects), number of laboratory-confirmed cases and the distribution of influenza types were estimated weekly. Inpatient-based surveillance included monitoring for hospitalization, complications, and mortality. The emergency room influenza-like illness index correlated well with the number of laboratory-confirmed influenza cases, and showed a bimodal peak at Week 4 (179.2/1,000 emergency room visits) and Weeks 13-14 (169.6/1,000 emergency room visits) of 2012. Influenza A was the predominant strain during the first epidemic peak, while influenza B was isolated exclusively during the second peak. In 2011-2012 season, the mean admission rate of emergency room-visiting patients with influenza-like illness was 16.3% without any increase over the epidemic period. Among the hospitalized patients with influenza, 33.6% (41 out of 122 patients) were accompanied by complications, and pneumonia (28.7%, 35 out of 122 patients) was the most common. Most fatal cases were caused by influenza A (96.2%) after the first epidemic peak. In conclusion, Hospital-based Influenza Morbidity & Mortality was effective for monitoring the trends in circulating influenza activity concurrently with its severity. In the 2011-2012 season, the influenza epidemic persisted for a ≥ 5-month period, with a bimodal peak of influenza A and B in sequence. Overall, influenza A was more severe than influenza B. |
| Author | Choi, Won Suk Jeong, Hye Won Park, Jung Soo Wie, Seong-Heon So, Byung Hak Kim, Young Keun Kim, Woo Joo Choi, Sung Hyuk Cheong, Hee Jin Kang, Gu Hyun Moon, Sung Woo Lee, Jacob Baek, Ji Hyeon Song, Joon Young Han, Seung Baik Kim, Hyo Youl |
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| Keywords | Infection Viral disease Influenza surveillance Flulike syndrome influenza-like illness Morbidity |
| Language | English |
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| Notes | Korea Healthcare Technology R&D Project of the Ministry of Health & Welfare of the Republic of Korea - No. A103001 Conflict of interest: nothing to declare. istex:B06E21460BF5471B7B5948B238FF052BD575DF2F Studies conducted at: Seven tertiary teaching hospitals of Korea. ArticleID:JMV23548 ark:/67375/WNG-SZP4PXS5-J Studies conducted at Seven tertiary teaching hospitals of Korea. ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 content type line 23 ObjectType-Article-2 ObjectType-Feature-1 |
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| References | Lee JS, Shin KC, Na BK, Lee JY, Kang C, Kim JH, Park O, Jeong EK, Lee JK, Kwon JW, Park SC, Kim WJ. 2007. Influenza surveillance in Korea: Establishment and first results of an epidemiological and virological surveillance scheme. Epidemiol Infect 135:1117-1123. Cox NJ, Subbarao K. 2000. Global epidemiology of influenza: Past and present. Annu Rev Med 51:407-421. Valdivia A, Lopez-Alcalde J, Vicente M, Pichiule M, Ruiz M, Ordobas M. 2010. Monitoring influenza activity in Europe with Google Flu Trends: Comparison with the findings of sentinel physician networks-Results for 2009-10. Euro Surveill 15:1-6. Song JY, Cheong HJ, Heo JY, Noh JY, Yong HS, Kim YK, Kang EY, Choi WS, Jo YM, Kim WJ. 2011. Clinical, laboratory and radiologic characteristics of 2009 pandemic influenza A/H1N1 pneumonia: Primary influenza pneumonia versus concomitant/secondary bacterial pneumonia. Influenza Other Respir Viruses 5:e535-e543. Jeremy Sueker J, Blazes DL, Johns MC, Blair PJ, Sjoberg PA, Tjaden JA, Montgomery JM, Pavlin JA, Schnabel DC, Eick AA, Tobias S, Quintana M, Vest KG, Burke RL, Lindler LE, Mansfield JL, Erickson RL, Russell KL, Sanchez JL. 2010. Influenza and respiratory disease surveillance: The US military's global laboratory-based network. Influenza Other Respir Viruses 4:155-161. Owens AB, Canas LC, Russell KL, Neville JS, Pavlin JA, MacIntosh VH, Gray GC, Gaydos JC. 2009. Department of Defense Global Laboratory-Based Influenza Surveillance: 1998-2005. Am J Prev Med 37:235-241. World Health Organization. 2012. Recommended composition of influenza virus vaccines for use in the 2012-2013 northern hemisphere influenza season. Wkly Epidemiol Rec 87:83-95. System WPRGISaR. 2012. Epidemiological and virological characteristics of influenza in the Western pacific region of the world health organization, 2006-2010. PLoS ONE 7:e37568. Lagace-Wiens PR, Rubinstein E, Gumel A. 2010. Influenza epidemiology-Past, present, and future. Crit Care Med 38:e1-e9. Nicoll A, Ciancio BC, Lopez Chavarrias V, Molbak K, Pebody R, Pedzinski B, Penttinen P, van der Sande M, Snacken R, Van Kerkhove MD. 2012. Influenza-related deaths-Available methods for estimating numbers and detecting patterns for seasonal and pandemic influenza in Europe. Euro Surveill 17:1-13. Suzuki Y, Taira K, Saito R, Nidaira M, Okano S, Zaraket H, Suzuki H. 2009. Epidemiologic study of influenza infection in Okinawa, Japan, from 2001 to 2007: Changing patterns of seasonality and prevalence of amantadine-resistant influenza A virus. J Clin Microbiol 47:623-629. Dawood FS, Iuliano AD, Reed C, Meltzer MI, Shay DK, Cheng PY, Bandaranayake D, Breiman RF, Brooks WA, Buchy P, Feikin DR, Fowler KB, Gordon A, Hien NT, Horby P, Huang QS, Katz MA, Krishnan A, Lal R, Montgomery JM, Molbak K, Pebody R, Presanis AM, Razuri H, Steens A, Tinoco YO, Wallinga J, Yu H, Vong S, Bresee J, Widdowson MA. 2012. Estimated global mortality associated with the first 12 months of 2009 pandemic influenza A H1N1 virus circulation: A modelling study. Lancet Infect Dis 12:687-695. Seo YB, Yang TU, Kim IS, Hong KW, Song JY, Cheong HJ, Kim WJ. 2012. Clinical and epidemiologic characteristics of mycoplasma pneumoniae pneumonia in adults during 2011 epidemic. Infect Chemother 44:367-371. Chuang JH, Huang AS, Huang WT, Liu MT, Chou JH, Chang FY, Chiu WT. 2012. Nationwide surveillance of influenza during the pandemic (2009-10) and post-pandemic (2010-11) periods in Taiwan. PLoS ONE 7:e36120. Wu TS, Shih FY, Yen MY, Wu JS, Lu SW, Chang KC, Hsiung C, Chou JH, Chu YT, Chang H, Chiu CH, Tsui FC, Wagner MM, Su IJ, King CC. 2008. Establishing a nationwide emergency department-based syndromic surveillance system for better public health responses in Taiwan. BMC Public Health 8:18. 2009; 47 2007; 135 2010; 38 2010; 15 2012 2011 2000; 51 2008; 8 2012; 17 2012; 7 2012; 12 2010; 4 2012; 44 2011; 5 2012; 87 2009; 37 e_1_2_5_15_1 e_1_2_5_14_1 e_1_2_5_9_1 e_1_2_5_16_1 e_1_2_5_8_1 World Health Organization (e_1_2_5_18_1) 2012; 87 e_1_2_5_7_1 e_1_2_5_10_1 e_1_2_5_6_1 e_1_2_5_13_1 e_1_2_5_5_1 Nicoll A (e_1_2_5_11_1) 2012; 17 e_1_2_5_12_1 e_1_2_5_4_1 Valdivia A (e_1_2_5_17_1) 2010; 15 e_1_2_5_3_1 e_1_2_5_2_1 e_1_2_5_19_1 |
| References_xml | – reference: World Health Organization. 2012. Recommended composition of influenza virus vaccines for use in the 2012-2013 northern hemisphere influenza season. Wkly Epidemiol Rec 87:83-95. – reference: Nicoll A, Ciancio BC, Lopez Chavarrias V, Molbak K, Pebody R, Pedzinski B, Penttinen P, van der Sande M, Snacken R, Van Kerkhove MD. 2012. Influenza-related deaths-Available methods for estimating numbers and detecting patterns for seasonal and pandemic influenza in Europe. Euro Surveill 17:1-13. – reference: Jeremy Sueker J, Blazes DL, Johns MC, Blair PJ, Sjoberg PA, Tjaden JA, Montgomery JM, Pavlin JA, Schnabel DC, Eick AA, Tobias S, Quintana M, Vest KG, Burke RL, Lindler LE, Mansfield JL, Erickson RL, Russell KL, Sanchez JL. 2010. Influenza and respiratory disease surveillance: The US military's global laboratory-based network. Influenza Other Respir Viruses 4:155-161. – reference: Dawood FS, Iuliano AD, Reed C, Meltzer MI, Shay DK, Cheng PY, Bandaranayake D, Breiman RF, Brooks WA, Buchy P, Feikin DR, Fowler KB, Gordon A, Hien NT, Horby P, Huang QS, Katz MA, Krishnan A, Lal R, Montgomery JM, Molbak K, Pebody R, Presanis AM, Razuri H, Steens A, Tinoco YO, Wallinga J, Yu H, Vong S, Bresee J, Widdowson MA. 2012. Estimated global mortality associated with the first 12 months of 2009 pandemic influenza A H1N1 virus circulation: A modelling study. Lancet Infect Dis 12:687-695. – reference: Seo YB, Yang TU, Kim IS, Hong KW, Song JY, Cheong HJ, Kim WJ. 2012. Clinical and epidemiologic characteristics of mycoplasma pneumoniae pneumonia in adults during 2011 epidemic. Infect Chemother 44:367-371. – reference: System WPRGISaR. 2012. Epidemiological and virological characteristics of influenza in the Western pacific region of the world health organization, 2006-2010. PLoS ONE 7:e37568. – reference: Lee JS, Shin KC, Na BK, Lee JY, Kang C, Kim JH, Park O, Jeong EK, Lee JK, Kwon JW, Park SC, Kim WJ. 2007. Influenza surveillance in Korea: Establishment and first results of an epidemiological and virological surveillance scheme. Epidemiol Infect 135:1117-1123. – reference: Chuang JH, Huang AS, Huang WT, Liu MT, Chou JH, Chang FY, Chiu WT. 2012. Nationwide surveillance of influenza during the pandemic (2009-10) and post-pandemic (2010-11) periods in Taiwan. PLoS ONE 7:e36120. – reference: Cox NJ, Subbarao K. 2000. Global epidemiology of influenza: Past and present. Annu Rev Med 51:407-421. – reference: Suzuki Y, Taira K, Saito R, Nidaira M, Okano S, Zaraket H, Suzuki H. 2009. Epidemiologic study of influenza infection in Okinawa, Japan, from 2001 to 2007: Changing patterns of seasonality and prevalence of amantadine-resistant influenza A virus. J Clin Microbiol 47:623-629. – reference: Valdivia A, Lopez-Alcalde J, Vicente M, Pichiule M, Ruiz M, Ordobas M. 2010. Monitoring influenza activity in Europe with Google Flu Trends: Comparison with the findings of sentinel physician networks-Results for 2009-10. Euro Surveill 15:1-6. – reference: Wu TS, Shih FY, Yen MY, Wu JS, Lu SW, Chang KC, Hsiung C, Chou JH, Chu YT, Chang H, Chiu CH, Tsui FC, Wagner MM, Su IJ, King CC. 2008. Establishing a nationwide emergency department-based syndromic surveillance system for better public health responses in Taiwan. BMC Public Health 8:18. – reference: Lagace-Wiens PR, Rubinstein E, Gumel A. 2010. Influenza epidemiology-Past, present, and future. Crit Care Med 38:e1-e9. – reference: Owens AB, Canas LC, Russell KL, Neville JS, Pavlin JA, MacIntosh VH, Gray GC, Gaydos JC. 2009. Department of Defense Global Laboratory-Based Influenza Surveillance: 1998-2005. Am J Prev Med 37:235-241. – reference: Song JY, Cheong HJ, Heo JY, Noh JY, Yong HS, Kim YK, Kang EY, Choi WS, Jo YM, Kim WJ. 2011. Clinical, laboratory and radiologic characteristics of 2009 pandemic influenza A/H1N1 pneumonia: Primary influenza pneumonia versus concomitant/secondary bacterial pneumonia. 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| Title | Hospital-based influenza surveillance in Korea: Hospital-based influenza morbidity and mortality study group |
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