DAFTAR PUSTAKA - EVALUASI PERBANDINGAN NILAI Ct (Cycle threshold) TERHADAP PEMERIKSAAN SARS-CoV

Amin M, Akhmad MS, Habib ZAB. 2020. Covid-19 (Corona Virus Disease 2019):

Tinjauan Perspektif Keilmuan Biologi, Sosial dan Agama. Malang: PT. Cita Intrans Selaras.

Andrade C. 2019. The P Value and Statistical Significance: Misunderstandings, Explanations, Challenges and Alternatives. Indian Psychiatric Society.

Badan Nasional Penanggulangan Bencana. 2020. Perkembangan COVID-19 di Indonesia.

Cao W, Ziwei F, Guoqiang h, Mei H, Xinrong X, Jiaxin D, Jiazhong Z. The Psychological Impact of the COVID-19 Epidemic on College Students in China. Elsevier: Psychiatry Research.

David MMD, Richard F, Timothy B, Brian MD, Josenia T, Richard V, Michael H.

2020. Pooling Testing for SARS-CoV-2 IN Hospitalizaed Patients. Journal of Hospital Medicine. 15(9).

Deckert A, Till B dan Nicholas NAK. 2020. Simulation of Pooled-Sample Analysis Strategies for COVID-19 mass testing. Bull World Health Organ. 98: 590- 598.

Deka S, Deepiyoti K, Amit M, Ravi S. 2020. Analysis of Multi-Sample Pools in the Detection of SARS-CoV-2 RNA for Mass Screening: An Indian Perspective.

Indian Journal of Medical Microbiology. Volume 38.

Dikrektorat Jenderal Pencegahan dan Pengendalian Penyakit. 2020. Pedoman Kesiapsiagaan Menghadap Coronavirus (COVID-19). Jakarta: Indonesia.

Fitriani NI. 2020. Tinjauan Pustaka COVID-19: Virologi, Patogenesis dan Manifestasi. Jurnal Medika Malahayati. 4(3).

Griesemer SB, Greta VS, Kirsten SG. 2021. Assessment of Sample Pooling for Clinical SARS-CoV-2 Testing. Journal of Clinical Microbioloy. 15(4).

Handayani D, Dwi RH, Fathiyah I, Erlina B, Heidy A. 2020. Penyakit Virus Corona 2019. Jurnal Respirologi Indonesia. 40(2).

Herawati N. 2020. Jenis-jenis Metode Rapid-Test untuk Deteksi Virus SARS-CoV-2.

Biotrends. 11(1).

Hewajuli DA, Dharmayanti NLPI. 2014. Perkembangan Teknologi Reverse Transcriptase-Polymerase Chain Reaction dalam Mengidentifikasi Genom Avian Influenza dan Newcastle Disease. Wartazoa. 24(1).

Hirotsu Y, Makoto M, Masahiro S, Kenji A, Yuki N, Kazuhiro H, Hitomi S, Miyoko H, Hitoshi M, Toshiharu T, Yumiko K, Yoshihiro M, Maso. 2021. Prospective Study of 1308 Nasopharyngeal swabs from 1033 Patients Using The Lumipulse SARS-CoV-2 Antigent Test: Comparison With RT-qRT-PCR.

International Journal of Infectious Diseases.

Handous I, Naila H, Manel M, Olfa H, Nissaf BEBA, Jalel B. 2021. Pooling Nasopharyngeal Swab Specimens to Improve Testing Capacity for SARS-CoV-2 by Real-Time RT-PCR. Biological Procedures Online.

Ikawaty R. 2020. Dinamika Interaksi Reseptor ACE2 dan SARS-CoV-2 Terhadap Manifestasi Klinis COVID-19. Jurnal Kesehatan dan Kedokteran. 1(2).

Lagopati N, Panagiota T, Ioanna M, Aikaterini P, Angelos P, Alexandros Z, Konstantinos E, George S, Vassilis GG. 2021. Sample Pooling Strategies for SARS-CoV-2 Detection. Journal of Virological Methods. 289.

Lim KL, Nur AJ, Siew TW, Loke TK, Boon KT, Kok KC, Shew FW, Wan LEC, Nurul HR, Patricia KCL, Sulaiman LH, Kenny V. A Novel Strategy For Community Screening of SARS-CoV-2 (COVID-19): Sample Pooling Method.

Plos One. 15(8).

Mahmoud SA, Esra I, Bhagyashree T, Juliet GT, Preety R, Subhashini G, Walid AZ.

2021. Evaluation of Pooling of Samples for Testing SARS-CoV-2 for Mass Screening of COVID-19. Journal BMC Infectious Diseases.

Maccura Biotechnology Co., Ltd. 2020. SARS-CoV-2 Fluorescent PCR Kit. Shanghai International Holding Corp. GmbH (Europe) Eiffestrasse: Germany.

Maccura Biotechnology Co., Ltd. 2020. Mag-Bind RNA Extraction Kit. Shanghai International Holding Corp. GmbH (Europe) Eiffestrasse: Germany.

Manurung JJ. Relationship Between CT Value on RT-PCR Test and Clinical Parameters of COVID-19 Patients. Medula (Medical Faculty, Lampung University). 11(1).

Masri M, Delima EM, Rusny. 2020. Everything About Corona. Makassar: Alauddin University Press.

Meletis G, Styliani P, Maria E, Georgia G, Evangelia G, Antonios K, Ilias M, Anna P. 2021. Prospective Evaluation of Specimen Pooling Strategy for Detection of SARS-CoV-2 Using Pools of Five and Six Specimens. Springer: Virus Disease.

Millioni R, Cinzia M. 2020. Test Groups, Not Individuals: A Review of the Pooling Approaches for SARS-CoV-2 Diagnosis. Journal Diagnostics. Volume 11.

Mulu A, Dawit HA, Fekadu A, Dessalegn AT, Sinknesh W, Gebeyehu A, Tamrayehu S, Meseret H, Alemseget A, Abebe GB, Getachew TB. 2021.

Evaluation of Sample Pooling for Screening of SARS-CoV-2. Plos One. 16(2).

Nugroho WD, Wulandari IC, Alanish ST, Nur I, Intan C, Murdewi I, Priyo S, dan Atyanti I. 2020. Literature Review. Transmisi Covid-19 dari Manusia ke Manusia di Asia. Jurnal of Bionursing. 2(2).

PAMKI. 2020. Diagnostik SARS-CoV-2 Di Indonesia.

Prastyowati A. 2020. Mengenal Karakteristik Virus SARS-CoV-2 Penyebab Penyakit COVID-19 Sebagai Dasar Upaya Untuk Pengembangan Obat Antivirus Dan Vaksin. Biotrends. 11(1).

Fraga D, Tea M, Steven F. 2014. Real-Time PCR.

PDPI. 2020. Pedoman Tatalaksana COVID-19. Jakarta: Indonesia.

Public Health England. 2020. Understanding Cycle Threshold (CT) in SARS-CoV- 2 RT-PCR: A Guide For Health Protection Teams.

Public Health Ontario. 2020. An Overview of Cycle Threshold Values and Their Role in SARS-CoV-2 Real-Time PCR Test Interpretation. Focus On.

Rao SN, Davide M, Victoria S, Josep P. 2020. Clinical utility of Cycle Threshold values in the context of COVID-19. Research Square.

Safrizal ZA, Danang IP, Safriza S. 2020. Pedoman Umum Menghadapi Pandemi COVID-19 Bagi Pemerintah Daerah Pencegahan, Pengendalian, Diagnosis dan Manajemen. Jakarta: Indonesia.

Sugiyono. 2008. Metode Penelitian Kualitatif dan Kuatitatif dan R&D. Bandung:

Alfabeta.

Sami H, Nusrat P, Parvez AK, Haris MK. Effect of Sample Pooling on the Cycel Threshold Value in RT-PCR Testing for COVID-19 and Logistic Savings.

CrossMark: The Open COVID Journal. Volume 1.

Sahajpal N, Ashis KM, Allan N, Sudha A, Kimya J, Pankaj KA, Meenakshi A, Yasmeen J, Alka C, Madhuri H, Vamsi K, Amyn R, Ravindra K. 2020.

Proposal of RT-PCR Based Mass Population Screening for Severse Acute Respiratory Syndrome Coronavirus 2 (Coronavirus Disease 2019). The Journal of Moleculer Diagnostics. 22(10).

Salazar AD, Antonio A, Rocio T, Ana F, Juan CA, Manuel C, Juan CG, Antonio M, Matilde T, Mercedes PR, Carolina R, Maria JP, Samuel B, Esther SC, Gema B, Eva T, Cristina R, Jose LCC, Natalia C, Amparo C, Juan MSC, Eduardo M.

Federico B, Maria JG, Angeles P, Maria LPDM, Federico G. 2020. Sample Pooling for SARS-CoV-2 RT-PCR Screening. Clinical Microbiology and Infection 26.

Sawicki R, Izabela KG, Anastazja B, Agnieszka S, Malgorzata PD. 2021. Sample Pooling as a Strategy for Community Monitoring for SARS-CoV-2. Scientific Reports.

Szentesi SG, Lavinia DC, Andrea F, Paul NC. 2021. Does COVID-19 Affect Safety and Security Perception in the Hospitality Industry? A Romanian Case Study.

Sustainability. Volume 13.

Wardiana A. 2020. Diagnosis SARS-CoV-2: Peran Sistem Deteksi dan Ragam Metode Uji Dalam Menanggulangi Pandemi COVID-19. BioTrends. 11(1).

WHO. 2020. Deteksi Antigen Dalam Diagnosis Infeksi SARS-CoV-2 Menggunakan Imunoasai Cepat.

WHO, 2020. Tes Diagnostik untuk SARS-CoV-2.

Yanti B, Fitri DI, Klarina ESS. 2020. Perbedaan uji diagnostik antigen, RT-PCR dan tes cepat molekuler pada Coronavirus Disease 2019. Jurnal Kedokeran Syiah Kuala. 20(3).

Yuliana. 2020. Corona Virus Disease (COVID-19): Sebuah Tinjauan Literatur.Wellness and Healthy Magazine. 2(1).

Lampiran 1. Hubungan antara tingkat viral load dengan nilai Ct pada RT-PCR dengan uji Chi-Square

Rank * Interpretasi Crosstabulation

Chi-square Tests

a. 3 cells (50,0%) have expected count less than 5.

The minimum expected count is 3,00.

Lampiran 2. Hubungan antara sampel pooled test dengan nilai Ct pada RT-PCR

Interpretasi

a. 3 cells (50,0%) have expected count less than 5.

The minimum expected count is 3,00.

Dalam dokumen EVALUASI PERBANDINGAN NILAI Ct (Cycle threshold) TERHADAP PEMERIKSAAN SARS-CoV-2 MENGGUNAKAN METODE POOLED TEST DI PROVINSI SUMATERA UTARA SKRIPSI (Halaman 42-46)