| 1 |
Britton_2020 |
Basic prediction methodology for covid-19: estimation and sensitivity considerations |
Tom Britton |
2020 |
2020-03-30 |
BioRxiv |
N |
|
|
10.1101/2020.03.27.20045575 |
hsgzkpg4 |
0.889159 |
|
|
| 2 |
Sugishita_2020 |
Preliminary evaluation of voluntary event cancellation as a countermeasure against the COVID-19 outbreak in Japan as of 11 March, 2020 |
Yoshiyuki Sugishita; Junko Kurita; Tamie Sugawara; Yasushi Ohkusa |
2020 |
2020-03-16 |
BioRxiv |
N |
|
|
10.1101/2020.03.12.20035220 |
zowo5ojd |
0.877709 |
|
Sugishita_2020, Kurita_2020, Ohkusa_2005, Klausner_2020 |
| 3 |
Kurita_2020 |
Estimation of protection for COVID-19 in children from epidemiological information and estimate effect of policy in Japan |
Junko Kurita; Yoshiyuki Sugishita; Tamie Sugawara; Yasushi Ohkusa |
2020 |
2020-03-30 |
BioRxiv |
N |
|
|
10.1101/2020.03.27.20045252 |
c5p0yp04 |
0.848905 |
|
Sugishita_2020, Otomaru_2019 |
| 4 |
Britton_2020 |
Basic estimation-prediction techniques for Covid-19, and a prediction for Stockholm |
Tom Britton |
2020 |
2020-04-17 |
BioRxiv |
Y |
|
|
10.1101/2020.04.15.20066050 |
0fmeu4h4 |
0.833712 |
Lauro_2020 |
|
| 5 |
Sugishita_2020 |
Insignificant effect of counter measure for coronavirus infectious disease -19 in Japan |
Yoshiyuki Sugishita; Junko Kurita; Tamie Sugawara; Yasushi Ohkusa |
2020 |
2020-03-23 |
BioRxiv |
N |
|
|
10.1101/2020.03.19.20037945 |
qljywb1t |
0.824462 |
|
Xia_W_2020 |
| 6 |
Chuang_2010 |
A dynamic estimation of the daily cumulative cases during infectious disease surveillance: application to dengue fever |
Chuang, Pei-Hung; Chuang, Jen-Hsiang; Lin, I-Feng |
2010 |
2010-05-27 |
COMM-USE |
N |
PMC2894833 |
20504379.0 |
10.1186/1471-2334-10-136 |
64ldtrjf |
0.707983 |
Black_2013 |
Nishiura_2007 |
| 7 |
Zhang_2020 |
Estimation of the reproductive number of Novel Coronavirus (COVID-19) and the probable outbreak size on the Diamond Princess cruise ship: A data-driven analysis |
Zhang, Sheng; Diao, MengYuan; Yu, Wenbo; Pei, Lei; Lin, Zhaofen; Chen, Dechang |
2020 |
2020-01-01 |
None |
Y |
PMC7110591 |
32097725.0 |
10.1016/j.ijid.2020.02.033 |
yuppix3r |
0.663488 |
|
Linton_2020, Ma_S_2020, Khosravi_2020, Jing_2020 |
| 8 |
Cowling_2020 |
Epidemiological research priorities for public health control of the ongoing global novel coronavirus (2019-nCoV) outbreak |
Cowling, Benjamin J; Leung, Gabriel M |
2020 |
2020-02-13 |
COMM-USE |
Y |
PMC7029449 |
32046814.0 |
10.2807/1560-7917.es.2020.25.6.2000110 |
belin2jq |
0.663309 |
Lauro_2020 |
Xia_W_2020, Ma_S_2020 |
| 9 |
Kurita_2020 |
Interim evaluation of emergency declaration in Japan in the first week of the COVID-19 outbreak |
Junko Kurita; Tamie Sugawara; Yasushi Ohkusa |
2020 |
2020-04-21 |
BioRxiv |
Y |
|
|
10.1101/2020.04.16.20067447 |
09kph240 |
0.619383 |
|
|
| 10 |
Abbott_2020 |
The transmissibility of novel Coronavirus in the early stages of the 2019-20 outbreak in Wuhan: Exploring initial point-source exposure sizes and durations using scenario analysis |
Abbott, Sam; Hellewell, Joel; Munday, James; Funk, Sebastian |
2020 |
2020-02-03 |
COMM-USE |
Y |
PMC7156988 |
|
10.12688/wellcomeopenres.15718.1 |
2wof34vi |
0.605337 |
|
|
| 11 |
Chowell_2004 |
Model Parameters and Outbreak Control for SARS |
Chowell, Gerardo; Castillo-Chavez, Carlos; Fenimore, Paul W.; Kribs-Zaleta, Christopher M.; Arriola, Leon; Hyman, James M. |
2004 |
2004-07-23 |
PMC |
N |
PMC3323341 |
15324546.0 |
10.3201/eid1007.030647 |
kfty0lbc |
0.599428 |
|
Gumel_2004 |
| 12 |
Hochberg_2020 |
Importance of suppression and mitigation measures in managing COVID-19 outbreaks |
Michael E. Hochberg |
2020 |
2020-04-02 |
BioRxiv |
Y |
|
|
10.1101/2020.03.31.20048835 |
4fkb1udl |
0.594286 |
|
Kretzschmar_2020, Kretzschmar_2004 |
| 13 |
Pellis_2020 |
Challenges in control of Covid-19: short doubling time and long delay to effect of interventions |
Lorenzo Pellis; Francesca Scarabel; Helena B Stage; Christopher E Overton; Lauren H K Chappell; Katrina A Lythgoe; Elizabeth Fearon; Emma Bennett; Jacob Curran-Sebastian; Rajenki Das; Martyn Fyles; Hugo Lewkowicz; Xiaoxi Pang; Bindu Vekaria; Luke Webb; Thomas A House; Ian Hall |
2020 |
2020-04-15 |
BioRxiv |
Y |
|
|
10.1101/2020.04.12.20059972 |
k5q07y4b |
0.565931 |
|
Siraj_2020, Kretzschmar_2020, Shayak_2020 |
| 14 |
Wallinga_2004 |
Different Epidemic Curves for Severe Acute Respiratory Syndrome Reveal Similar Impacts of Control Measures |
Wallinga, Jacco; Teunis, Peter |
2004 |
2004-09-15 |
PMC |
N |
PMC7110200 |
15353409.0 |
10.1093/aje/kwh255 |
rl6yum7n |
0.536853 |
|
Gumel_2004 |
| 15 |
Hellewell_2020 |
Feasibility of controlling 2019-nCoV outbreaks by isolation of cases and contacts |
Joel Hellewell; Sam Abbott; Amy Gimma; Nikos I Bosse; Christopher I Jarvis; Timothy W Russell; James D Munday; Adam J Kucharski; W John Edmunds; CMMID nCoV working group; Sebastian Funk; Rosalind M Eggo |
2020 |
2020-02-11 |
BioRxiv |
Y |
|
|
10.1101/2020.02.08.20021162 |
a8ig607t |
0.527361 |
|
Hellewell_2020, Kretzschmar_2020, Tang_2020, Xia_W_2020 |
| 16 |
Wang_2004 |
Simulating the SARS outbreak in Beijing with limited data |
Wang, Wendi; Ruan, Shigui |
2004 |
2004-04-07 |
PMC |
N |
PMC7134597 |
15019504.0 |
10.1016/j.jtbi.2003.11.014 |
eb8ysg2b |
0.522453 |
|
Gumel_2004 |
| 17 |
Hochberg_2020 |
Countries should aim to lower the reproduction number R close to 1.0 for the short-term mitigation of COVID-19 outbreaks |
Michael E. Hochberg |
2020 |
2020-04-17 |
BioRxiv |
Y |
|
|
10.1101/2020.04.14.20065268 |
f36smzln |
0.517929 |
|
|
| 18 |
Bui_L_2020 |
EARLY ESTIMATION OF REPRODUCTION NUMBER OF COVID-19 IN VIETNAM |
Long Viet Bui; Truong Thanh Nguyen; Ha Nguyen |
2020 |
2020-03-30 |
BioRxiv |
Y |
|
|
10.1101/2020.03.28.20046136 |
i62celun |
0.514432 |
|
|
| 19 |
Cori_2013 |
A New Framework and Software to Estimate Time-Varying Reproduction Numbers During Epidemics |
Cori, Anne; Ferguson, Neil M.; Fraser, Christophe; Cauchemez, Simon |
2013 |
2013-09-15 |
PMC |
N |
PMC3816335 |
24043437.0 |
10.1093/aje/kwt133 |
itr3b63z |
0.493443 |
|
|
| 20 |
Park_2020 |
The time scale of asymptomatic transmission affects estimates of epidemic potential in the COVID-19 outbreak |
Sang Woo Park; Daniel M Cornforth; Jonathan Dushoff; Joshua S Weitz |
2020 |
2020-03-13 |
BioRxiv |
Y |
|
|
10.1101/2020.03.09.20033514 |
50zrnau8 |
0.485469 |
|
Kretzschmar_2020, Hellewell_2020 |
| 21 |
Gunzler_2020 |
Time-Varying COVID-19 Reproduction Number in the United States |
Douglas Gunzler; Ashwini R Sehgal |
2020 |
2020-04-15 |
BioRxiv |
Y |
|
|
10.1101/2020.04.10.20060863 |
crmrqy74 |
0.470393 |
|
|
| 22 |
SUN_P_2020 |
An SEIR Model for Assessment of Current COVID-19 Pandemic Situation in the UK |
Peiliang SUN; Kang Li |
2020 |
2020-04-17 |
BioRxiv |
Y |
|
|
10.1101/2020.04.12.20062588 |
9mdxid0u |
0.465486 |
|
|
| 23 |
Yuan_2019 |
Assessing dengue control in Tokyo, 2014 |
Yuan, Baoyin; Lee, Hyojung; Nishiura, Hiroshi |
2019 |
2019-06-21 |
COMM-USE |
N |
PMC6588210 |
31226116.0 |
10.1371/journal.pntd.0007468 |
nx2wrguu |
0.452430 |
|
Yuan_2020 |
| 24 |
Buhat_2020 |
A mathematical model of COVID-19 transmission between frontliners and the general public |
Christian Alvin H Buhat; Monica C Torres; Yancee H Olave; Maica Krizna A Gavina; Edd Francis O Felix; Gimelle B Gamilla; Kyrell Vann B Verano; Ariel L Babierra; Jomar Fajardo Rabajante |
2020 |
2020-03-30 |
BioRxiv |
Y |
|
|
10.1101/2020.03.27.20045195 |
xdjgjeb9 |
0.449930 |
|
Yuan_2020 |
| 25 |
Mills_2004 |
Transmissibility of 1918 pandemic influenza |
Mills, Christina E.; Robins, James M.; Lipsitch, Marc |
2004 |
2004-01-01 |
PMC |
N |
PMC7095078 |
15602562.0 |
10.1038/nature03063 |
hcrc95bk |
0.445406 |
|
|
| 26 |
Zhao_2020 |
Modelling the coronavirus disease (COVID-19) outbreak on the Diamond Princess ship using the public surveillance data from January 20 to February 20, 2020 |
Shi Zhao; Peihua Cao; Daozhou Gao; Zian Zhuang; Marc Chong; Yongli Cai; Jinjun Ran; Kai Wang; Yijun Lou; Weiming Wang; Lin Yang; Daihai He; Maggie H Wang |
2020 |
2020-02-29 |
BioRxiv |
Y |
|
|
10.1101/2020.02.26.20028449 |
onkdv388 |
0.444552 |
|
Xia_W_2020, Chinazzi_2020 |
| 27 |
Hellewell_2020 |
Feasibility of controlling COVID-19 outbreaks by isolation of cases and contacts |
Hellewell, Joel; Abbott, Sam; Gimma, Amy; Bosse, Nikos I; Jarvis, Christopher I; Russell, Timothy W; Munday, James D; Kucharski, Adam J; Edmunds, W John; Funk, Sebastian; Eggo, Rosalind M |
2020 |
2020-02-28 |
None |
Y |
PMC7097845 |
32119825.0 |
10.1016/s2214-109x(20)30074-7 |
ueb7mjnv |
0.438046 |
|
Kretzschmar_2020, Hellewell_2020, Xia_W_2020 |
| 28 |
Tang_2020 |
The effectiveness of quarantine and isolation determine the trend of the COVID-19 epidemics in the final phase of the current outbreak in China |
Tang, Biao; Xia, Fan; Tang, Sanyi; Bragazzi, Nicola Luigi; Li, Qian; Sun, Xiaodan; Liang, Juhua; Xiao, Yanni; Wu, Jianhong |
2020 |
2020-04-17 |
PMC |
Y |
|
|
10.1016/j.ijid.2020.03.018 |
gdsh8wmv |
0.437203 |
|
Yuan_2020 |
| 29 |
Zhang_2017 |
Estimating and modelling the transmissibility of Middle East Respiratory Syndrome CoronaVirus during the 2015 outbreak in the Republic of Korea |
Zhang, Xu‐Sheng; Pebody, Richard; Charlett, Andre; de Angelis, Daniela; Birrell, Paul; Kang, Hunseok; Baguelin, Marc; Choi, Yoon Hong |
2017 |
2017-08-17 |
COMM-USE |
N |
PMC5598245 |
28703921.0 |
10.1111/irv.12467 |
rla49fx0 |
0.432979 |
|
|
| 30 |
Nishiura_2007 |
Time variations in the transmissibility of pandemic influenza in Prussia, Germany, from 1918–19 |
Nishiura, Hiroshi |
2007 |
2007-06-04 |
COMM-USE |
N |
PMC1892008 |
17547753.0 |
10.1186/1742-4682-4-20 |
evyniq0v |
0.432808 |
|
|
| 31 |
Zhang_2018 |
Estimating human-to-human transmissibility of hepatitis A virus in an outbreak at an elementary school in China, 2011 |
Zhang, Xu-Sheng; Iacono, Giovanni Lo |
2018 |
2018-09-24 |
COMM-USE |
N |
PMC6152969 |
30248120.0 |
10.1371/journal.pone.0204201 |
3nk2ipyi |
0.431926 |
|
|
| 32 |
Lopez_2020 |
A modified SEIR model to predict the COVID-19 outbreak in Spain: simulating control scenarios and multi-scale epidemics |
Leonardo R Lopez; Xavier Rodo |
2020 |
2020-03-30 |
BioRxiv |
Y |
|
|
10.1101/2020.03.27.20045005 |
m27nyzrw |
0.429917 |
|
Yuan_2020 |
| 33 |
Caley_2007 |
Quantifying social distancing arising from pandemic influenza |
Caley, Peter; Philp, David J; McCracken, Kevin |
2007 |
2007-10-04 |
PMC |
N |
PMC3226987 |
17916550.0 |
10.1098/rsif.2007.1197 |
lusrcpns |
0.423505 |
|
Firestone_2012, Milne_2020, Grubaugh_2018 |
| 34 |
Sjödin_2020 |
Only strict quarantine measures can curb the coronavirus disease (COVID-19) outbreak in Italy, 2020 |
Sjödin, Henrik; Wilder-Smith, Annelies; Osman, Sarah; Farooq, Zia; Rocklöv, Joacim |
2020 |
2020-04-02 |
None |
Y |
PMC7140595 |
32265005.0 |
10.2807/1560-7917.es.2020.25.13.2000280 |
agnbus8b |
0.411408 |
|
Jiang_2020 |
| 35 |
Gastañaduy_2017 |
Assessment of the Status of Measles Elimination in the United States, 2001–2014 |
Gastañaduy, Paul A.; Paul, Prabasaj; Fiebelkorn, Amy Parker; Redd, Susan B.; Lopman, Ben A.; Gambhir, Manoj; Wallace, Gregory S. |
2017 |
2017-04-01 |
None |
N |
PMC7110139 |
28338902.0 |
10.1093/aje/kww168 |
yxcw10bo |
0.408540 |
Muniz-Rodriguez_2020 |
Otomaru_2019 |
| 36 |
Diaz-Quijano_2020 |
Translating transmissibility measures into recommendations for coronavirus prevention |
Diaz-Quijano, Fredi Alexander; Rodriguez-Morales, Alfonso Javier; Waldman, Eliseu Alves |
2020 |
2020-04-03 |
COMM-USE |
Y |
PMC7135119 |
|
10.11606/s1518-8787.2020054002471 |
4wlkftda |
0.398838 |
|
He_X_2020 |
| 37 |
Rodriguez_2020 |
A mechanistic population balance model to evaluate the impact of interventions on infectious disease outbreaks: Case for COVID19 |
Jorge Rodriguez; Juan M Acuna; Joao M Uratani; Mauricio Paton |
2020 |
2020-04-07 |
BioRxiv |
Y |
|
|
10.1101/2020.04.04.20053017 |
vmsq5hhz |
0.396209 |
|
|
| 38 |
Khosravi_2020 |
The basic reproduction number and prediction of the epidemic size of the novel coronavirus (COVID-19) in Shahroud, Iran |
Ahmad Khosravi; Reza Chaman; Marzieh Rohani-Rasaf; Fariba Zare; Shiva Mehravaran; Mohammad Hassan Emamian |
2020 |
2020-04-08 |
BioRxiv |
Y |
|
|
10.1101/2020.04.04.20052308 |
36fbcobw |
0.393492 |
|
|
| 39 |
Sugishita_2020 |
Forecast of the COVID-19 outbreak, collapse of medical facilities, and lockdown effects in Tokyo, Japan |
Yoshiyuki Sugishita; Junko Kurita; Tamie Sugawara; Yasushi Ohkusa |
2020 |
2020-04-06 |
BioRxiv |
Y |
|
|
10.1101/2020.04.02.20051490 |
86ovj7xg |
0.389676 |
|
Siraj_2020 |
| 40 |
Massad_2005 |
Forecasting versus projection models in epidemiology: The case of the SARS epidemics |
Massad, Eduardo; Burattini, Marcelo N.; Lopez, Luis F.; Coutinho, Francisco A.B. |
2005 |
2005-12-31 |
PMC |
N |
PMC7116954 |
15893110.0 |
10.1016/j.mehy.2004.09.029 |
l0c69uul |
0.388456 |
|
Gumel_2004 |
| 41 |
Anderson_2020 |
How will country-based mitigation measures influence the course of the COVID-19 epidemic? |
Anderson, Roy M; Heesterbeek, Hans; Klinkenberg, Don; Hollingsworth, T Déirdre |
2020 |
2020-03-27 |
None |
Y |
PMC7158572 |
32164834.0 |
10.1016/s0140-6736(20)30567-5 |
lbcxl6w9 |
0.387917 |
|
Yuan_2020, Milne_2020 |
| 42 |
Chowell_2014 |
Synthesizing data and models for the spread of MERS-CoV, 2013: Key role of index cases and hospital transmission |
Chowell, Gerardo; Blumberg, Seth; Simonsen, Lone; Miller, Mark A.; Viboud, Cécile |
2014 |
2014-12-31 |
None |
N |
PMC4258236 |
25480133.0 |
10.1016/j.epidem.2014.09.011 |
kpbpqsxj |
0.381666 |
|
Breban_2013 |
| 43 |
Sanche_2020 |
The Novel Coronavirus, 2019-nCoV, is Highly Contagious and More Infectious Than Initially Estimated |
Steven Sanche; Yen Ting Lin; Chonggang Xu; Ethan Romero-Severson; Nick Hengartner; Ruian Ke |
2020 |
2020-02-11 |
BioRxiv |
Y |
|
|
10.1101/2020.02.07.20021154 |
45g12waw |
0.380950 |
|
|
| 44 |
Gloeckner_2020 |
Now-casting the COVID-19 epidemic: The use case of Japan, March 2020 |
Stephan Gloeckner; Gerard Krause; Michael Hoehle |
2020 |
2020-03-23 |
BioRxiv |
Y |
|
|
10.1101/2020.03.18.20037473 |
4fyihdkv |
0.379951 |
|
Siraj_2020 |
| 45 |
Hortacsu_2020 |
Estimating the Fraction of Unreported Infections in Epidemics with a Known Epicenter: an Application to COVID-19 |
Ali Hortacsu; Jiarui Liu; Timothy Schwieg |
2020 |
2020-04-17 |
BioRxiv |
Y |
|
|
10.1101/2020.04.13.20063511 |
pv9risbr |
0.369673 |
|
|
| 46 |
Bondy_2009 |
Quantifying the impact of community quarantine on SARS transmission in Ontario: estimation of secondary case count difference and number needed to quarantine |
Bondy, Susan J; Russell, Margaret L; Laflèche, Julie ML; Rea, Elizabeth |
2009 |
2009-12-24 |
COMM-USE |
N |
PMC2808319 |
20034405.0 |
10.1186/1471-2458-9-488 |
73yg1bi1 |
0.369041 |
|
Gupta_2005, Hsieh_2007, Ooi_P_2005, Hsieh_2005 |
| 47 |
Bogaards_2007 |
The potential of targeted antibody prophylaxis in SARS outbreak control: A mathematic analysis |
Bogaards, Johannes Antonie; Putter, Hein; Jan Weverling, Gerrit; ter Meulen, Jan; Goudsmit, Jaap |
2007 |
2007-03-31 |
PMC |
N |
PMC7106269 |
17298911.0 |
10.1016/j.tmaid.2006.01.007 |
rafcdzhm |
0.365419 |
|
|
| 48 |
Hossain_2020 |
The effects of border control and quarantine measures on global spread of COVID-19 |
M. Pear Hossain; Alvin Junus; Xiaolin Zhu; Pengfei Jia; Tzai-Hung Wen; Dirk Pfeiffer; Hsiang-Yu Yuan |
2020 |
2020-03-17 |
BioRxiv |
Y |
|
|
10.1101/2020.03.13.20035261 |
lwe7whmg |
0.357801 |
|
Yuan_2020, Kretzschmar_2020 |
| 49 |
Mizumoto_2020 |
Transmission potential of the novel coronavirus (COVID-19) onboard the Diamond Princess Cruises Ship, 2020 |
Kenji Mizumoto; Gerardo Chowell |
2020 |
2020-02-27 |
BioRxiv |
Y |
|
|
10.1101/2020.02.24.20027649 |
eoxrh2sl |
0.356832 |
|
Mizumoto_2020, Sekizuka_2020 |
| 50 |
Vierlboeck_2020 |
The Easter and Passover Blip in New York City |
Maximilian Vierlboeck; Roshanak R Nilchiani; Christine M Edwards |
2020 |
2020-04-17 |
BioRxiv |
Y |
|
|
10.1101/2020.04.14.20065300 |
72v6qufw |
0.356761 |
Lauro_2020 |
|
| 51 |
Kwok_2006 |
Using models to identify routes of nosocomial infection: a large hospital outbreak of SARS in Hong Kong |
Kwok, Kin On; Leung, Gabriel M; Lam, Wai Yee; Riley, Steven |
2006 |
2006-12-12 |
PMC |
N |
PMC2197207 |
17254984.0 |
10.1098/rspb.2006.0026 |
r6bzrkhg |
0.356390 |
|
Park_2016 |
| 52 |
Kretzschmar_2020 |
Effectiveness of isolation and contact tracing for containment and slowing down a COVID-19 epidemic: a modelling study |
Mirjam E Kretzschmar; Ganna Rozhnova; Michiel E van Boven |
2020 |
2020-03-13 |
BioRxiv |
Y |
|
|
10.1101/2020.03.10.20033738 |
kgkcgpmq |
0.349835 |
|
Hellewell_2020, Xia_W_2020, Jing_2020 |
| 53 |
Nishiura_2016 |
Identifying determinants of heterogeneous transmission dynamics of the Middle East respiratory syndrome (MERS) outbreak in the Republic of Korea, 2015: a retrospective epidemiological analysis |
Nishiura, Hiroshi; Endo, Akira; Saitoh, Masaya; Kinoshita, Ryo; Ueno, Ryo; Nakaoka, Shinji; Miyamatsu, Yuichiro; Dong, Yueping; Chowell, Gerardo; Mizumoto, Kenji |
2016 |
2016-02-22 |
NONCOMM |
N |
PMC4769415 |
26908522.0 |
10.1136/bmjopen-2015-009936 |
8mvz3425 |
0.347715 |
|
Lee_S_2015, Park_2016 |
| 54 |
Kim_S_2020 |
School Opening Delay Effect on Transmission Dynamics of Coronavirus Disease 2019 in Korea: Based on Mathematical Modeling and Simulation Study |
Kim, Soyoung; Kim, Yae-Jean; Peck, Kyong Ran; Jung, Eunok |
2020 |
2020-04-01 |
NONCOMM |
Y |
PMC7131906 |
32242349.0 |
10.3346/jkms.2020.35.e143 |
ndscdqcb |
0.344939 |
Cowling_2008 |
Tang_2020, Yuan_2020 |
| 55 |
Pourbohloul_2009 |
Initial human transmission dynamics of the pandemic (H1N1) 2009 virus in North America |
Pourbohloul, Babak; Ahued, Armando; Davoudi, Bahman; Meza, Rafael; Meyers, Lauren A.; Skowronski, Danuta M.; Villaseñor, Ignacio; Galván, Fernando; Cravioto, Patricia; Earn, David J. D.; Dushoff, Jonathan; Fisman, David; Edmunds, W. John; Hupert, Nathaniel; Scarpino, Samuel V.; Trujillo, Jesús; Lutzow, Miguel; Morales, Jorge; Contreras, Ada; Chávez, Carolina; Patrick, David M.; Brunham, Robert C. |
2009 |
2009-08-18 |
PMC |
N |
PMC3122129 |
19702583.0 |
10.1111/j.1750-2659.2009.00100.x |
1vvlzuue |
0.344740 |
|
|
| 56 |
Tariq_2020 |
Real-time monitoring the transmission potential of COVID-19 in Singapore, February 2020 |
Amna Tariq; Yiseul Lee; Kimberlyn Roosa; Seth Blumberg; Ping Yan; Stefan Ma; Gerardo Chowell |
2020 |
2020-02-25 |
BioRxiv |
Y |
|
|
10.1101/2020.02.21.20026435 |
vw3h1m5y |
0.343639 |
|
Yuan_2020, Siraj_2020 |
| 57 |
Poletto_2016 |
Quantifying spatiotemporal heterogeneity of MERS-CoV transmission in the Middle East region: A combined modelling approach |
Poletto, Chiara; Colizza, Vittoria; Boëlle, Pierre-Yves |
2016 |
2016-06-30 |
PMC |
N |
PMC7104927 |
27266844.0 |
10.1016/j.epidem.2015.12.001 |
qejtarkd |
0.341106 |
Blumberg_2020 |
Routledge_2019, Kretzschmar_2020 |
| 58 |
Stangeland_2020 |
How to evaluate the success of the COVID-19 measures implemented by the Norwegian government by analyzing changes in doubling time |
Biljana Stangeland |
2020 |
2020-03-30 |
BioRxiv |
Y |
|
|
10.1101/2020.03.29.20045187 |
617bm90s |
0.330078 |
|
Pike_2020, Pedersen_2020, Klausner_2020, Anderson_2020 |
| 59 |
Khailaie_2020 |
Estimate of the development of the epidemic reproduction number Rt from Coronavirus SARS-CoV-2 case data and implications for political measures based on prognostics |
Sahamoddin Khailaie; Tanmay Mitra; Arnab Bandyopadhyay; Marta Schips; Pietro Mascheroni; Patrizio Vanella; Berit Lange; Sebastian Binder; Michael Meyer-Hermann |
2020 |
2020-04-07 |
BioRxiv |
Y |
|
|
10.1101/2020.04.04.20053637 |
0uzma5vr |
0.329026 |
|
|
| 60 |
Mizumoto_2020 |
Transmission potential of the novel coronavirus (COVID-19) onboard the diamond Princess Cruises Ship, 2020 |
Mizumoto, Kenji; Chowell, Gerardo |
2020 |
2020-02-29 |
None |
Y |
PMC7068636 |
32190785.0 |
10.1016/j.idm.2020.02.003 |
ue7g2vpx |
0.325329 |
|
Mizumoto_2020, Xia_W_2020 |
| 61 |
Leavitt_2019 |
Estimating the Relative Probability of Direct Transmission between Infectious Disease Patients |
Sarah V Leavitt; Robyn S Lee; Paola Sebastiani; Charles R. Horsburgh; Helen E Jenkins; Laura F White |
2019 |
2019-04-26 |
BioRxiv |
N |
|
|
10.1101/612945 |
xhffsa77 |
0.322299 |
|
Robert_2020 |
| 62 |
Toth_2016 |
Estimates of the risk of large or long-lasting outbreaks of Middle East respiratory syndrome after importations outside the Arabian Peninsula |
Toth, Damon J.A.; Tanner, Windy D.; Khader, Karim; Gundlapalli, Adi V. |
2016 |
2016-09-30 |
PMC |
N |
PMC5047297 |
27663788.0 |
10.1016/j.epidem.2016.04.002 |
i1egk513 |
0.317607 |
|
|
| 63 |
Lloyd-Smith_2003 |
Curtailing transmission of severe acute respiratory syndrome within a community and its hospital. |
Lloyd-Smith, James O; Galvani, Alison P; Getz, Wayne M |
2003 |
2003-10-07 |
PMC |
N |
PMC1691475 |
14561285.0 |
10.1098/rspb.2003.2481 |
xk7mz04p |
0.316620 |
|
|
| 64 |
Odendaal_2020 |
Method for Active Pandemic Curve Management (MAPCM) |
Willem G Odendaal |
2020 |
2020-04-13 |
BioRxiv |
Y |
|
|
10.1101/2020.04.06.20055699 |
a6ldr0mn |
0.316620 |
|
|
| 65 |
Black_2013 |
Estimating a Markovian Epidemic Model Using Household Serial Interval Data from the Early Phase of an Epidemic |
Black, Andrew J.; Ross, Joshua V. |
2013 |
2013-08-30 |
None |
N |
PMC3758268 |
24023679.0 |
10.1371/journal.pone.0073420 |
ecxcw96m |
0.313410 |
|
|
| 66 |
Li_Y_2004 |
Predicting Super Spreading Events during the 2003 Severe Acute Respiratory Syndrome Epidemics in Hong Kong and Singapore |
Li, Yuguo; Yu, Ignatius T. S.; Xu, Pengcheng; Lee, J. H. W.; Wong, Tze Wai; Ooi, Peng Lim; Sleigh, Adrian C. |
2004 |
2004-10-15 |
PMC |
N |
PMC7109976 |
15466494.0 |
10.1093/aje/kwh273 |
axns3ukm |
0.311460 |
|
Lee_S_2015 |
| 67 |
Hsieh_2015 |
2015 Middle East Respiratory Syndrome Coronavirus (MERS-CoV) nosocomial outbreak in South Korea: insights from modeling |
Hsieh, Ying-Hen |
2015 |
2015-12-17 |
COMM-USE |
N |
PMC4690341 |
26713252.0 |
10.7717/peerj.1505 |
hyc93ybc |
0.307779 |
|
|
| 68 |
Perez-Reche_2020 |
Importance of untested infectious individuals for the suppression of COVID-19 epidemics |
Francisco Perez-Reche; Norval Strachan |
2020 |
2020-04-17 |
BioRxiv |
Y |
|
|
10.1101/2020.04.13.20064022 |
i2rmc37q |
0.300276 |
|
|