EDP Sciences logo
Web of Conferences logo
Search
Menu
All issues Volume 605 (2025) E3S Web Conf., 605 (2025) 03021 References
Open Access
Issue
E3S Web Conf.
Volume 605, 2025
The 9th International Conference on Energy, Environment, Epidemiology and Information System (ICENIS 2024)
Article Number 03021
Number of page(s) 9
Section Environment
DOI https://doi.org/10.1051/e3sconf/202560503021
Published online 17 January 2025
  1. Farlex. TheFreeDictionary.com. Available at : https://medical-dictionary.thefreedictionary.com/infection [Google Scholar]
  2. Nova. PMK No.24, Persyaratan Teknis Bangunan dan Prasarana Rumah Sakit (2016). [Google Scholar]
  3. T. Charunisa, H. Syarifuddin, J. Jalius. Analisis Risiko Mikrobiologi Udara Dalam Ruang Pada Puskesmas Di Kota Semarang. 2020. Available at : http://doi.org/10.22437/jpb.v3i2.8944 [Google Scholar]
  4. Nourozi B, Wierzbicka A, Yao R, Sadrizadeh S. A systematic review of ventilation solutions for hospital wards: Addressing cross-infection and patient safety. Buildenv : 2024;247:110954. [Google Scholar]
  5. S.A. Rahmawati, I. Dhamanti. Program Pencegahan dan Pengendalian Infeksi di Rumah Sakit - Unair News. May 1, 2021 [Google Scholar]
  6. A.P. Masloman, Kandou GD, Tilaar CR. Analisis Pelaksanaan Pencegahan dan Pengendalian Infeksi di Kamar Operasi RSUD Dr Sam Ratulangi Tondano Implementation Analysis of Prevention and Control of Infection in Operating Room Dr. Sam Ratulangi Hospital Tondano. JIKMU, Vol.5 no.2, April 2015, 238-49 [Google Scholar]
  7. McAlearney AS, Hefner JL, Sieck CJ, Walker DM, Aldrich AM, Sova LN, et al. Searching for management approaches to reduce HAI transmission (SMART): a study protocol. Implementation Science. 2017:12 [Google Scholar]
  8. Khan HA, Ahmad A, Mehboob R. Nosocomial infections and their control strategies. Asian Pac J Trop Biomed. 2015;5:509–14. [CrossRef] [Google Scholar]
  9. Tanya P.M.P, Olivia A.W, Fredine E.S.R. Jurnal eBm, vol.7 no.1 Jan-Jun. Jurnal eBM 2019. [Google Scholar]
  10. Susilawati, Ilham, Guspianto. Pengaruh Kualitas Lingkungan Fisik Udara Terhadap Angka Kuman Di Rumah Sakit. JMJ: Vol 8 Nov, 2021: 240-6. Available at : https://online-journal.unja.ac.id/kedokteran/article/download/13349/12124 [Google Scholar]
  11. Susilawati, Ilham, Guspianto. Pengaruh Kualitas Lingkungan Fisik Udara Terhadap Angka Kuman Di Rumah Sakit. JMJ: Vol 8 Nov, 2021: 240-6. Available at : https://online-journal.unja.ac.id/kedokteran/article/download/13349/12124. [Google Scholar]
  12. Madebo C, Haile A, Eticha T, Solomon F. Hospital-Based Air-Borne and Surface-Borne Bacterial Pathogens and Their Antimicrobial Profiles in Wolaita Sodo, Southern Ethiopia. Int J Microbiol. 2022;2022:1–9. [CrossRef] [Google Scholar]
  13. Susilawati S, Ilham I, Guspianto G. PENGARUH KUALITAS LINGKUNGAN FISIK UDARA TERHADAP ANGKA KUMAN DI RUMAH SAKIT. Jambi Medical Journal : Jurnal Kedokteran dan Kesehatan. 2021;9(3):240–6. Available from: https://online-journal.unja.ac.id/kedokteran/article/download/13349/12124 [Google Scholar]
  14. Khan HA, Baig FK, Mehboob R. Nosocomial infections: Epidemiology, prevention, control and surveillance. Asian Pac J Trop Biomed, 2017;7(5):478–82. [CrossRef] [Google Scholar]
  15. Kenes, Safira Alatas - Gambaran Epidemiologi 80-86.p65. 2007. [Google Scholar]
  16. Asnawati OR, Syukur SB, Yunus H, Abas FF, Tabrani S, Yahya M, et al. Pengendalian Infeksi Di Ruangan Interna RSUD Aloei Saboe Kota Gorontalo. Jurnal Pengabdian Kepada Masyarakat. 2022;1 [Google Scholar]
  17. Kemenkes RI. Article. 2011. p. 1–2 Program Pencegahan dan Pengendalian Infeksi Nosokomial Merupakan Unsur Patient Safety. Available from: https://sehatnegeriku.kemkes.go.id/baca/rilis-media/20111107/041835/program-pencegahan-dan-pengendalian-infeksi-nosokimial-merupakan-unsur-patient-safety/ [Google Scholar]
  18. Simatupang T, Naria E, Dharma S. Analisis Pengelolaan Kesehatan Lingkungan Rumah Sakit Sebagai Usaha Pencagahan Infeksi Nosokomial di Rumah Sakit Martha Friska Kelurahan Brayan Kota Kecamatan Medan Barat. 2024. Available from: https://media.neliti.com/media/publications/14542-ID-analisis-pengelolaan-kesehatan-lingkungan-rumah-sakit-sebagai-usaha-pencegahan-i.pdf [Google Scholar]
  19. Saito KJ, Joegijantoro R, Saktiawan Y, Widyagama S, Malang H, Jans K, et al. Pengaruh Kualitas Udara Fisik Dan Kepatuhan Keluarga Pasien Terhadap Pencegahan Infeksi Nosokomial di RS X. Mhjeh. 2022. [Google Scholar]
  20. Wen R, Li X, Liu T, Lin G. Effect of a real-time automatic nosocomial infection surveillance system on hospital-acquired infection prevention and control. BMC Infect Dis. 2022;22(1):1–9. [Google Scholar]
  21. Liu J, Liao X, Qian S, Yuan J, Wang F, Liu Y, et al. Community Transmission of Severe Acute Respiratory Syndrome Coronavirus 2, Shenzhen, China, 2020. Emerg Infect Dis. 2020;26 [Google Scholar]
  22. La Rosa G, Fratini M, Libera S Della, Iaconelli M, Muscillo M. Viral infections acquired indoors through airborne, droplet or contact transmission. Ann Ist Super Sanita. 2013;49:124–32. [PubMed] [Google Scholar]
  23. Kemenkes RI. Pedoman-Pedoman Teknis di Bidang Bangunan dan Sarana Rumah Sakit. 2012 [Google Scholar]
  24. Mousavi ES, Grosskopf KR. Ventilation Rates and Airflow Pathways in Patient Rooms: A Case Study of Bioaerosol Containment and Removal. Annals of Occupational Hygiene. 2015;59(9):1190–9. [CrossRef] [PubMed] [Google Scholar]
  25. F. Mohammed M, A. Al-dabbagh K. Air conditioning systems and nosocomial infections in Mosul hospitals. Iraqi Journal of Pharmacy. 2011;11(1):59–68. [CrossRef] [Google Scholar]
  26. Seventer JM van, Hochberg NS. Principles of Infectious Diseases: Transmission, Diagnosis, Prevention, and Control. International Encyclopedia of Public Health. 2017; Available from: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7150340/ [Google Scholar]
  27. Fung CP, Hsieh TL, Tan KH, Loh CH, Wu JS, Li CC, et al. Infection Control And Hospital Epidemiology Rapid Creation Of a Temporary Isolation Ward For Patients With Severe Acute Respiratory Syndrome in Taiwan. 2004. [Google Scholar]
  28. Charuniza T, Syarifuddin H, Jalius J. Analisis Kualitas Mikrobiologi Udara Dalam Kamar Operasi Pada Instalasi Bedah Sentral Rumah Sakit “X” Kota Jambi Tahun 2019. Jurnal Pembangunan Berkelanjutan. 2020;3(2):7–12. [CrossRef] [Google Scholar]
  29. Eric JW, Max K, Ken W, et al. Environmental and Occupational Healrh Response to SARS, Taiwan. Perspectives, Emerging Infectious Disease, Vol.10, no.7 July, 2003 [Google Scholar]
  30. Doremalen N van, Bushmaker T, Morris DH, Holbrook MG, Gamble A, Williamson BN, et al. Aerosol and Surface Stability of SARS-CoV-2 as Compared with SARS-CoV-1. New England Journal of Medicine. 2020; Vol 392 No.16. Available at: https://www.nejm.org/doi/full/10.1056/NEJMc2004973 [Google Scholar]
  31. Mackenzie D. Ultraviolet Light Fights New Virus. Engineering (Beijing). 2020;6(8). Available from: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7319933/ [Google Scholar]
  32. Li Y, Leung GM, Tang JW, Yang X, Chao CY, Lin JZ, et al. Role of ventilation in airborne transmission of infectious agents in the built environment - a multidisciplinary systematic review. Indoor Air. 2007;17(1). Available from: https://pubmed.ncbi.nlm.nih.gov/17257148/ [Google Scholar]
  33. Ines OC. Indoor airflow patterns, dispersion of human exhalation flow and risk of airborne cross-infection between people in a room. Available at : https://helvia.uco.es/xmlui/bitstream/handle/10396/6679/486.pdf?sequence=1&isAllowed= y [Google Scholar]
  34. Wu D, Chen J, Fu X, Li Z, Tan F, Lin H. Study on the migration characteristics of bioaerosols and optimization of ventilation patterns in a negative pressure isolation ward considering different patient postures. Cheng S, editor. PLoS One. 2023 Aug 17;18(8):e0290288. Available at : https://dx.plos.org/10.1371/journal.pone.0290288 [CrossRef] [PubMed] [Google Scholar]
  35. Linden PF. The Fluid Mechanics Of Natural Ventilation. Annu Rev Fluid Mech. 1999;31. Volume 31, 1999:201–38. Available at : https://www.annualreviews.org/content/journals/10.1146/annurev.fluid.31.1.201 [CrossRef] [Google Scholar]
  36. McWilliams J. Review of air flow measurement techniques. Published in 2002. Available from: https://escholarship.org/content/qt7532b84f/qt7532b84f.pdf?t=lnq7u0 [Google Scholar]
  37. Sansone E, Keimig S. The Influence of Door Swing and Door Velocity on The Effectiveness of Directional Airflow. 372-11. Available at : https://www.aivc.org/sites/default/files/airbase_4028.pdf [Google Scholar]
  38. Hendiger J, Chludzińska M, Ziętek P. Influence of the Pressure Difference and Door Swing on Heavy Contaminants Migration between Rooms. PLoS One. 2016;11(5):e0155159. [CrossRef] [PubMed] [Google Scholar]
  39. Tan H, Wong KY, Othman MHD, Nyakuma BB, Vui Sheng DDC, Kek HY, et al. Does human movement-induced airflow elevate infection risk in burn patient’s isolation ward? A validated dynamics numerical simulation approach. Energy Build. 2023;283:112810. [CrossRef] [Google Scholar]
  40. Nielsen P V. Control of airborne infectious diseases in ventilated spaces. J R Soc Interface. 2009;6 Suppl 6. Available from: https://pubmed.ncbi.nlm.nih.gov/19740921/ [CrossRef] [PubMed] [Google Scholar]
  41. Mayasari A, Zulkarnain, Agrina SNewWind. Analisis Lingkungan Fisik Udara Terhadap Angka Kuman di Rumah Sakit. ISSN 1978-5283. 2020:13(1) [Google Scholar]
  42. Cdc. Guidelines for Environmental Infection Control in. Issue on august 2014. Available at : https://stacks.cdc.gov/view/cdc/11303/cdc_11303_DS1.pdf?download-document-submit=Download [Google Scholar]
  43. Khankari K. Analysis of Spread Index Measure of Laboratory Ventilation Effectiveness. Ashrae Annual Conference, 2018 [Google Scholar]
  44. Chow TT, Yang XY. Ventilation performance in the operating theatre against airborne infection: numerical study on an ultra-clean system. Journal of Hospital Infection. 2005;59(2):138–47 [CrossRef] [Google Scholar]
  45. Khankari K. Analysis of Contaminant Flow Path and Laboratory Ventilation Effectiveness. In: ASHRAE Annual Conference, 2016. [Google Scholar]
  46. Qian H, Li Y, Seto WH, Ching P, Ching WH, Sun HQ. Natural ventilation for reducing airborne infection in hospitals. Build Environ. 2010;45(3):559–65. [CrossRef] [Google Scholar]
  47. Supriyantoro, Kemenkes RI. Pedoman Teknis Prasarana Sisten Tata Udara Pada Bangunan Rumah Sakit. April, 2012 [Google Scholar]
  48. Qian H, Zheng X. Ventilation control for airborne transmission of human exhaled bio-aerosols in buildings. J Thorac Dis, 2018;10(Suppl 19). Available from: https://jtd.amegroups.org/article/view/18723/pdf [Google Scholar]
  49. Mosayebi M, Hajihossein R, Ghorbanzadeh B, Kalantari S. A Risk for Nosocomial Infection: Contamination of Hospital Air Cooling Systems by Acanthamoeba spp. International Journal of Hospital Research. 2016;5(1):17–21. [CrossRef] [Google Scholar]
  50. Gomersall CD, Tai DYH, Loo S, Derrick JL, Goh MS, Buckley TA, et al. Expanding ICU facilities in an epidemic: recommendations based on experience from the SARS epidemic in Hong Kong and Singapore. Intensive Care Med. 2006;32(7):1004–13. [CrossRef] [PubMed] [Google Scholar]
  51. Jung CC, Wu PC, Tseng CH, Su HJ. Indoor air quality varies with ventilation types and working areas in hospitals. Build Environ, 2015;85:190–5. [CrossRef] [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.