PEMODELAN MATEMATIKA PADA EPIDEMI INFLUENZA DENGAN STRATEGI VAKSINASI
(1) Jurusan Matematika, FMIPA, Universitas Negeri Semarang, Indonesia
(2) Jurusan Matematika, FMIPA, Universitas Negeri Semarang, Indonesia
Abstract
Pada tahun 2009 merebak epidemi flu burung kemudian diikuti epidemi flu babi. Epidemi flu tersebut menyebabkan beberapa kasus kematian dan banyak manusia yang masuk ke rumah sakit. Salah satu usaha yang dilakukan untuk menanggulangi wabah ini adalah dengan melakukan vaksinasi. Vaksinasi dilakukan terhadap orang yang belum terkena influenza. Melihat fakta bahwa penyakit ini bersifat epidemik, maka sangat dimungkinkan untuk membentuk model matematika dari kasus influenza tersebut. Model yang dihasilkan berbentuk SIRS dengan populasi konstan. Dalam penelitian ini digunakan metode tinjauan pustaka, analisis, dan pembuatan simulasi. Simpulan yang diperoleh berupa model matematika dan analisanya serta nilai minimal persentase individu yang divaksinasi supaya wabah tidak meluas.
In 2009, bird flu epidemic outbreak and it is followed by swine flu epidemic. Flu epidemic causes many mortality in human and more of human must be treated in hospital. One of the efforts to combat this plague is vaccination. Vaccination was given to susceptible human. From the fact that the disease is epidemic, it is possible to establish a mathematical model of the influenza cases. The resulting model is SIRS with constant population. In this study, it was used methods include literature reviews, analysis, and simulation. The conclusions obtained in the form of mathematical models and analysis as well as the minimum percentage of individuals who are vaccinated so that the plague has not spread.
Keywords
Full Text:
PDFReferences
Bridges CB, Thompson WW, Meltzer MI, Reeve GR, Talamonti WJ, Cox NJ, Lilac HA, Hal H, Klimov A & Fukuda K. 2000. Effectiveness and Cost-Benefit of Influenza Vaccination of Healthy Working Adults A Randomized Controlled Trial. JAMA 284 (13): 1655 – 1663
Carman WF, Elder AG, Wallace LA, McAulay K, Walker A, Murray GD & Stott DJ. 2000. Effects of influenza vaccination of health-care workers on mortality of elderly people in long-term care: a randomised controlled trial. The Lancet 355 (9198): 93 – 97.
Casagrandi R, Bolzoni L, Levin SA & Andreasen V. 2006. The SIRC Model and Influenza A. Mathematical Biosciences 200: 152-169.
Govaert TME, Thijs CTMCN, Masurel N, Sprenger MJW, Dinant GJ & Knottnerus JA. 1994, The Efficacy of Influenza Vaccination in Elderly Individuals. JAMA 272(21):1661-1665
Jansen AGSC, Sanders EAM, Hoes AW, van Loon AM & Hak E. 2007. Influenza and respiratory syncytial virus-associated mortality and hospitalisations. Eur Respir J 30: 1158–1166.
Kwong JC, Maaten S, Upshur REG, Patrick DM & Marra F. 2009. The Effect of Universal Influenza Immunization on Antibiotic Prescriptions: An Ecological Study. Clinical Infectious Diseases 49: 750 – 756
Nichol KL, Nordin J, Mullooly J, Lask R, Fillbrandt K & Iwane M. 2003 Influenza Vaccination and Reduction in Hospitalizations for Cardiac Disease and Stroke among the Elderly. N Engl J Med 348:1322 – 1332.
Potter J, Stott DJ, Roberts MA, Elder AG, O'Donnell B, Knight PV & Carman WF. 1997. Influenza Vaccination of Health Care Workers in Long-Term-Care Hospitals Reduces the Mortality of Elderly Patients, The Journal of Infectious Diseases 175:1-6
Yang Y, Sugimoto JD, Halloran ME, Basta NE, Chao DL, Matrajt L, Potter G, Kenah E, & Longini JIM. 2009. The Transmissibility and Control of Pandemic Influenza A (H1N1) Virus. Scienceexpress Report.
Refbacks
- There are currently no refbacks.
This work is licensed under a Creative Commons Attribution 4.0 International License.