2024
SARS-CoV-2-related bat viruses evade human intrinsic immunity but lack efficient transmission capacity
Peña-Hernández M, Alfajaro M, Filler R, Moriyama M, Keeler E, Ranglin Z, Kong Y, Mao T, Menasche B, Mankowski M, Zhao Z, Vogels C, Hahn A, Kalinich C, Zhang S, Huston N, Wan H, Araujo-Tavares R, Lindenbach B, Homer R, Pyle A, Martinez D, Grubaugh N, Israelow B, Iwasaki A, Wilen C. SARS-CoV-2-related bat viruses evade human intrinsic immunity but lack efficient transmission capacity. Nature Microbiology 2024, 1-13. PMID: 39075235, DOI: 10.1038/s41564-024-01765-z.Peer-Reviewed Original ResearchBat coronavirusesRelatives of SARS-CoV-2Upper airwayUpper airways of miceEpithelial cellsHuman nasal epithelial cellsAirways of miceMajor histocompatibility complex class I.SARS-CoV-2Nasal epithelial cellsHistocompatibility complex class I.Human bronchial epithelial cellsGenetic similarityBronchial epithelial cellsInnate immune restrictionCoronavirus replicationFunctional characterizationMolecular cloningReduced pathogenesisImpaired replicationBat virusCoronavirus pathogenesisPandemic potentialHigh-risk familiesImmune restriction
2023
Multiplex qPCR Discriminates Variants of Concern to Enhance Global Surveillance of SARS-CoV-2
Vogels C, Breban M, Ott I, Alpert T, Petrone M, Watkins A, Kalinich C, Earnest R, Rothman J, de Jesus J, Claro I, Ferreira G, Crispim M, Singh L, Tegally H, Anyaneji U, Hodcroft E, Mason C, Khullar G, Metti J, Dudley J, MacKay M, Nash M, Wang J, Liu C, Hui P, Murphy S, Neal C, Laszlo E, Landry M, Muyombwe A, Downing R, Razeq J, de Oliveira T, Faria N, Sabino E, Neher R, Fauver J, Grubaugh N. Multiplex qPCR Discriminates Variants of Concern to Enhance Global Surveillance of SARS-CoV-2. 2023, 891-905. DOI: 10.1201/9781003298038-30.Peer-Reviewed Original Research
2022
Global disparities in SARS-CoV-2 genomic surveillance
Brito A, Semenova E, Dudas G, Hassler G, Kalinich C, Kraemer M, Ho J, Tegally H, Githinji G, Agoti C, Matkin L, Whittaker C, Howden B, Sintchenko V, Zuckerman N, Mor O, Blankenship H, de Oliveira T, Lin R, Siqueira M, Resende P, Vasconcelos A, Spilki F, Aguiar R, Alexiev I, Ivanov I, Philipova I, Carrington C, Sahadeo N, Branda B, Gurry C, Maurer-Stroh S, Naidoo D, von Eije K, Perkins M, van Kerkhove M, Hill S, Sabino E, Pybus O, Dye C, Bhatt S, Flaxman S, Suchard M, Grubaugh N, Baele G, Faria N. Global disparities in SARS-CoV-2 genomic surveillance. Nature Communications 2022, 13: 7003. PMID: 36385137, PMCID: PMC9667854, DOI: 10.1038/s41467-022-33713-y.Peer-Reviewed Original ResearchConceptsSARS-CoV-2 genomic surveillanceMiddle-income countriesHigh-income countriesGenomic surveillanceSARS-CoV-2Global pandemic preparednessPublic health responseCOVID-19 casesPandemic preparednessHealth responseMolecular testsSocioeconomic inequalitiesTurnaround timeIncome countriesSurveillanceGlobal disparitiesDaysGenomic sequencingVaccineLineage abundance estimation for SARS-CoV-2 in wastewater using transcriptome quantification techniques
Baaijens J, Zulli A, Ott I, Nika I, van der Lugt M, Petrone M, Alpert T, Fauver J, Kalinich C, Vogels C, Breban M, Duvallet C, McElroy K, Ghaeli N, Imakaev M, Mckenzie-Bennett M, Robison K, Plocik A, Schilling R, Pierson M, Littlefield R, Spencer M, Simen B, Hanage W, Grubaugh N, Peccia J, Baym M. Lineage abundance estimation for SARS-CoV-2 in wastewater using transcriptome quantification techniques. Genome Biology 2022, 23: 236. PMID: 36348471, PMCID: PMC9643916, DOI: 10.1186/s13059-022-02805-9.Peer-Reviewed Original ResearchCombining genomic and epidemiological data to compare the transmissibility of SARS-CoV-2 variants Alpha and Iota
Petrone ME, Rothman JE, Breban MI, Ott IM, Russell A, Lasek-Nesselquist E, Badr H, Kelly K, Omerza G, Renzette N, Watkins AE, Kalinich CC, Alpert T, Brito AF, Earnest R, Tikhonova IR, Castaldi C, Kelly JP, Shudt M, Plitnick J, Schneider E, Murphy S, Neal C, Laszlo E, Altajar A, Pearson C, Muyombwe A, Downing R, Razeq J, Niccolai L, Wilson MS, Anderson ML, Wang J, Liu C, Hui P, Mane S, Taylor BP, Hanage WP, Landry ML, Peaper DR, Bilguvar K, Fauver JR, Vogels CBF, Gardner LM, Pitzer VE, St. George K, Adams MD, Grubaugh ND. Combining genomic and epidemiological data to compare the transmissibility of SARS-CoV-2 variants Alpha and Iota. Communications Biology 2022, 5: 439. PMID: 35545661, PMCID: PMC9095641, DOI: 10.1038/s42003-022-03347-3.Peer-Reviewed Original ResearchRapid emergence of SARS-CoV-2 Omicron variant is associated with an infection advantage over Delta in vaccinated persons
Chaguza C, Coppi A, Earnest R, Ferguson D, Kerantzas N, Warner F, Young HP, Breban MI, Billig K, Koch RT, Pham K, Kalinich CC, Ott IM, Fauver JR, Hahn AM, Tikhonova IR, Castaldi C, De Kumar B, Pettker CM, Warren JL, Weinberger DM, Landry ML, Peaper DR, Schulz W, Vogels CBF, Grubaugh ND. Rapid emergence of SARS-CoV-2 Omicron variant is associated with an infection advantage over Delta in vaccinated persons. Med 2022, 3: 325-334.e4. PMID: 35399324, PMCID: PMC8983481, DOI: 10.1016/j.medj.2022.03.010.Peer-Reviewed Original ResearchConceptsSpike gene target failureSARS-CoV-2 Omicron variantPositivity rateOmicron variantOmicron infectionVaccine dosesVaccine-induced immunityNumber of dosesTest positivity rateOdds of infectionSARS-CoV-2Significant reductionDominant Delta variantUnvaccinated personsVaccination statusHigher oddsDelta variantInfectionVaccine manufacturersDisease controlVirus copiesDosesPCR testOddsTarget failureComparative transmissibility of SARS-CoV-2 variants Delta and Alpha in New England, USA
Earnest R, Uddin R, Matluk N, Renzette N, Turbett SE, Siddle KJ, Loreth C, Adams G, Tomkins-Tinch CH, Petrone ME, Rothman JE, Breban MI, Koch RT, Billig K, Fauver JR, Vogels CBF, Bilguvar K, De Kumar B, Landry ML, Peaper DR, Kelly K, Omerza G, Grieser H, Meak S, Martha J, Dewey HB, Kales S, Berenzy D, Carpenter-Azevedo K, King E, Huard RC, Novitsky V, Howison M, Darpolor J, Manne A, Kantor R, Smole SC, Brown CM, Fink T, Lang AS, Gallagher GR, Pitzer VE, Sabeti PC, Gabriel S, MacInnis BL, Team N, Altajar A, DeJesus A, Brito A, Watkins A, Muyombwe A, Blumenstiel B, Neal C, Kalinich C, Liu C, Loreth C, Castaldi C, Pearson C, Bernard C, Nolet C, Ferguson D, Buzby E, Laszlo E, Reagan F, Vicente G, Rooke H, Munger H, Johnson H, Tikhonova I, Ott I, Razeq J, Meldrim J, Brown J, Wang J, Vostok J, Beauchamp J, Grimsby J, Hall J, Messer K, Larkin K, Vernest K, Madoff L, Green L, Webber L, Gagne L, Ulcena M, Ray M, Fisher M, Barter M, Lee M, DeFelice M, Cipicchio M, Smith N, Lennon N, Fitzgerald N, Kerantzas N, Hui P, Harrington R, Downing R, Haye R, Lynch R, Anderson S, Hennigan S, English S, Cofsky S, Clancy S, Mane S, Ash S, Baez S, Fleming S, Murphy S, Chaluvadi S, Alpert T, Rivard T, Schulz W, Mandese Z, Tewhey R, Adams M, Park D, Lemieux J, Grubaugh N. Comparative transmissibility of SARS-CoV-2 variants Delta and Alpha in New England, USA. Cell Reports Medicine 2022, 3: 100583. PMID: 35480627, PMCID: PMC8913280, DOI: 10.1016/j.xcrm.2022.100583.Peer-Reviewed Original ResearchConceptsEnhanced transmissibilitySARS-CoV-2 variant DeltaSARS-CoV-2 Delta variantViral RNA copiesPublic health programsAlpha infectionDelta infectionEffective reproductive numberDelta variantHealth programsVariant DeltaRNA copiesInfectionAlphaReproductive numberTransmissibilityEpidemiological dynamicsAssessment of Clinical Effectiveness of BNT162b2 COVID-19 Vaccine in US Adolescents
Oliveira CR, Niccolai LM, Sheikha H, Elmansy L, Kalinich CC, Grubaugh ND, Shapiro ED, Billig K, Breban M, Brito A, Earnest R, Fauver J, Koch T, Ott I, Petrone M, Vogels C, Pham K, Tikhonova I, Castaldi C, Mane S, Bilguvar K, De Kumar B, Ferguson D, Kerantzas N, Landry M, Peaper D, Schulz W. Assessment of Clinical Effectiveness of BNT162b2 COVID-19 Vaccine in US Adolescents. JAMA Network Open 2022, 5: e220935. PMID: 35238933, PMCID: PMC8895259, DOI: 10.1001/jamanetworkopen.2022.0935.Peer-Reviewed Original ResearchConceptsSARS-CoV-2 infectionCase-control studyVaccine effectivenessBNT162b2 vaccineSARS-CoV-2Medical recordsAsymptomatic SARS-CoV-2 infectionBNT162b2 COVID-19 vaccineRetrospective case-control studyRT-PCR test resultsSARS-CoV-2 testUS adolescentsReverse transcription polymerase chain reaction testConditional logistic regression modelsTranscription polymerase chain reaction testDoses of vaccineControl participantsClinical trial populationsRelevant clinical dataCase participantsCOVID-19 vaccinePositive test resultsChain reaction testCounty of residenceNegative test results
2021
362. Saliva as a Reliable Sample Type for Mass SARS-CoV-2 Testing Strategies
Wyllie A, Vogels C, Allicock O, Watkins A, Petrone M, Yolda-Carr D, Harden C, Brackney D, Kalinich C, Breban M, Ott I, Sikka R, Kadiri L, Grubaugh N. 362. Saliva as a Reliable Sample Type for Mass SARS-CoV-2 Testing Strategies. Open Forum Infectious Diseases 2021, 8: 284-284. PMCID: PMC8644416, DOI: 10.1093/ofid/ofab466.563.Peer-Reviewed Original ResearchA stem-loop RNA RIG-I agonist protects against acute and chronic SARS-CoV-2 infection in mice
Mao T, Israelow B, Lucas C, Vogels CBF, Gomez-Calvo ML, Fedorova O, Breban MI, Menasche BL, Dong H, Linehan M, Alpert T, Anderson F, Earnest R, Fauver J, Kalinich C, Munyenyembe K, Ott I, Petrone M, Rothman J, Watkins A, Wilen C, Landry M, Grubaugh N, Pyle A, Iwasaki A. A stem-loop RNA RIG-I agonist protects against acute and chronic SARS-CoV-2 infection in mice. Journal Of Experimental Medicine 2021, 219: e20211818. PMID: 34757384, PMCID: PMC8590200, DOI: 10.1084/jem.20211818.Peer-Reviewed Original ResearchConceptsSARS-CoV-2 infectionChronic SARS-CoV-2 infectionVariants of concernLethal SARS-CoV-2 infectionPost-infection therapyLower respiratory tractPost-exposure treatmentType I interferonSARS-CoV-2Effective medical countermeasuresAdaptive immune systemBroad-spectrum antiviralsContext of infectionSingle doseRespiratory tractViral controlImmunodeficient miceSevere diseaseMouse modelI interferonViral infectionImmune systemInnate immunityDisease preventionConsiderable efficacyEarly Release - Tracing the Origin, Spread, and Molecular Evolution of Zika Virus in Puerto Rico, 2016–2017 - Volume 27, Number 11—November 2021 - Emerging Infectious Diseases journal - CDC
Santiago GA, Kalinich CC, Cruz-López F, González GL, Flores B, Hentoff A, Charriez KN, Fauver JR, Adams LE, Sharp TM, Black A, Bedford T, Ellis E, Ellis B, Waterman SH, Paz-Bailey G, Grubaugh ND, Muñoz-Jordán JL. Early Release - Tracing the Origin, Spread, and Molecular Evolution of Zika Virus in Puerto Rico, 2016–2017 - Volume 27, Number 11—November 2021 - Emerging Infectious Diseases journal - CDC. Emerging Infectious Diseases 2021, 27: 2971-2973. PMID: 34670646, PMCID: PMC8544999, DOI: 10.3201/eid2711.211575.Peer-Reviewed Original ResearchLongitudinal Immune Profiling of a Severe Acute Respiratory Syndrome Coronavirus 2 Reinfection in a Solid Organ Transplant Recipient
Klein J, Brito AF, Trubin P, Lu P, Wong P, Alpert T, Peña-Hernández MA, Haynes W, Kamath K, Liu F, Vogels CBF, Fauver JR, Lucas C, Oh J, Mao T, Silva J, Wyllie AL, Muenker MC, Casanovas-Massana A, Moore AJ, Petrone ME, Kalinich CC, Dela Cruz C, Farhadian S, Ring A, Shon J, Ko AI, Grubaugh ND, Israelow B, Iwasaki A, Azar MM, Team F. Longitudinal Immune Profiling of a Severe Acute Respiratory Syndrome Coronavirus 2 Reinfection in a Solid Organ Transplant Recipient. The Journal Of Infectious Diseases 2021, 225: 374-384. PMID: 34718647, PMCID: PMC8807168, DOI: 10.1093/infdis/jiab553.Peer-Reviewed Original ResearchConceptsSevere acute respiratory syndrome coronavirus 2 (SARS-CoV-2) reinfectionLongitudinal immune profilingTransplant recipientsImmune profilingPrimary SARS-CoV-2 infectionCD4 T cell poolMale renal transplant recipientSolid organ transplant recipientsSARS-CoV-2 reinfectionSARS-CoV-2 antibodiesSARS-CoV-2 infectionWhole viral genome sequencingRenal transplant recipientsImmune escape mutationsOrgan transplant recipientsT cell poolTime of reinfectionCoronavirus disease 2019Lower neutralization titersHumoral memory responsesViral genome sequencingInitial diagnosisImmunologic deficiencyHumoral responseImmunologic investigationsViral dynamics of acute SARS-CoV-2 infection and applications to diagnostic and public health strategies
Kissler SM, Fauver JR, Mack C, Olesen SW, Tai C, Shiue KY, Kalinich CC, Jednak S, Ott IM, Vogels CBF, Wohlgemuth J, Weisberger J, DiFiori J, Anderson DJ, Mancell J, Ho DD, Grubaugh ND, Grad YH. Viral dynamics of acute SARS-CoV-2 infection and applications to diagnostic and public health strategies. PLOS Biology 2021, 19: e3001333. PMID: 34252080, PMCID: PMC8297933, DOI: 10.1371/journal.pbio.3001333.Peer-Reviewed Original ResearchConceptsSARS-CoV-2 infectionViral RNA concentrationClearance phaseAcute SARS-CoV-2 infectionReverse transcription-PCR testingPeak viral concentrationPersistent viral RNAPositive PCR testTranscription-PCR testingViral proliferationPublic health strategiesRNA concentrationViral concentrationInfection stagesCycle threshold valuesAcute infectionAsymptomatic individualsTest turnaround timeSymptomatic individualsClinical measuresHealth strategiesPatient progressPCR testingInfectionViral dynamicsDiverse functional autoantibodies in patients with COVID-19
Wang EY, Mao T, Klein J, Dai Y, Huck JD, Jaycox JR, Liu F, Zhou T, Israelow B, Wong P, Coppi A, Lucas C, Silva J, Oh JE, Song E, Perotti ES, Zheng NS, Fischer S, Campbell M, Fournier JB, Wyllie AL, Vogels CBF, Ott IM, Kalinich CC, Petrone ME, Watkins AE, Dela Cruz C, Farhadian S, Schulz W, Ma S, Grubaugh N, Ko A, Iwasaki A, Ring A. Diverse functional autoantibodies in patients with COVID-19. Nature 2021, 595: 283-288. PMID: 34010947, DOI: 10.1038/s41586-021-03631-y.Peer-Reviewed Original ResearchConceptsPeripheral immune cell compositionSARS-CoV-2 infectionCOVID-19Effects of autoantibodiesTissue-associated antigensSpecific clinical characteristicsInnate immune activationImmune cell compositionCOVID-19 exhibitCOVID-19 manifestsAnalysis of autoantibodiesSARS-CoV-2Functional autoantibodiesMouse surrogateClinical characteristicsVirological controlClinical outcomesImmune activationMild diseaseAsymptomatic infectionAutoantibody reactivityDisease progressionHealthcare workersHigh prevalenceAutoantibodiesLying in wait: the resurgence of dengue virus after the Zika epidemic in Brazil
Brito AF, Machado LC, Oidtman RJ, Siconelli MJL, Tran QM, Fauver JR, Carvalho RDO, Dezordi FZ, Pereira MR, de Castro-Jorge LA, Minto ECM, Passos LMR, Kalinich CC, Petrone ME, Allen E, España GC, Huang AT, Cummings DAT, Baele G, Franca RFO, da Fonseca BAL, Perkins TA, Wallau GL, Grubaugh ND. Lying in wait: the resurgence of dengue virus after the Zika epidemic in Brazil. Nature Communications 2021, 12: 2619. PMID: 33976183, PMCID: PMC8113494, DOI: 10.1038/s41467-021-22921-7.Peer-Reviewed Original ResearchMeSH KeywordsAdolescentAdultAgedAged, 80 and overAntibodies, ViralBrazilChildChild, PreschoolDengueDengue VirusDisease SusceptibilityEpidemicsEpidemiological MonitoringFemaleGenome, ViralHumansImmunity, HeterologousIncidenceInfantInfant, NewbornMaleMiddle AgedMolecular TypingMosquito VectorsPhylogeographySerotypingYoung AdultZika VirusZika Virus InfectionConceptsDengue virus serotype 1Zika epidemicZika virus epidemicDENV lineagesVirus serotype 1DENV infectionProtective immunityDENV transmissionDengue susceptibilityDengue virusViral spreadLow transmission levelsSerotype 1Virus epidemicMajor outbreaksModel mosquitoEpidemicInfectionDengueTransmission suitabilityDengue incidenceYearsDengue dynamicsOutbreakIncidenceMultiplex qPCR discriminates variants of concern to enhance global surveillance of SARS-CoV-2
Vogels CBF, Breban MI, Ott IM, Alpert T, Petrone ME, Watkins AE, Kalinich CC, Earnest R, Rothman JE, de Jesus J, Claro I, Ferreira G, Crispim MAE, Network B, Singh L, Tegally H, Anyaneji UJ, Africa N, Hodcroft EB, Mason CE, Khullar G, Metti J, Dudley JT, MacKay MJ, Nash M, Wang J, Liu C, Hui P, Murphy S, Neal C, Laszlo E, Landry ML, Muyombwe A, Downing R, Razeq J, de Oliveira T, Faria NR, Sabino EC, Neher RA, Fauver JR, Grubaugh ND. Multiplex qPCR discriminates variants of concern to enhance global surveillance of SARS-CoV-2. PLOS Biology 2021, 19: e3001236. PMID: 33961632, PMCID: PMC8133773, DOI: 10.1371/journal.pbio.3001236.Peer-Reviewed Original ResearchDiverse Functional Autoantibodies that Underlie Immune Perturbations in COVID-19
Mao T, Wang E, Klein J, Dai Y, Huck J, Liu F, Zheng N, Zhou T, Goldman-Israelow B, Wong P, Lucas C, Silva J, Oh J, Song E, Perotti E, Fischer S, Campbell M, Fournier J, Wyllie A, Vogels C, Ott I, Kalinich C, Petrone M, Watkins A, Cruz C, Farhadian S, Schulz W, Grubaugh N, Ko A, Iwasaki A, Ring A. Diverse Functional Autoantibodies that Underlie Immune Perturbations in COVID-19. The Journal Of Immunology 2021, 206: 114.04-114.04. DOI: 10.4049/jimmunol.206.supp.114.04.Peer-Reviewed Original ResearchSARS-CoV-2 infectionClinical outcomesSARS-CoV-2 resultsPre-existing autoantibodiesPrevalence of autoantibodiesAntiviral antibody responseCOVID-19 pathogenesisCOVID-19 patientsCOVID-19SARS-CoV-2COVID-19 diseaseFunctional autoantibodiesMurine surrogateAutoantibody responseImmune activationImmune perturbationsAutoantibody repertoireAntibody responseAutoantibody targetsSevere diseaseImmunological functionsAutoantibodiesMouse modelUninfected controlsAbstract InfectionEarly introductions and transmission of SARS-CoV-2 variant B.1.1.7 in the United States
Alpert T, Brito AF, Lasek-Nesselquist E, Rothman J, Valesano AL, MacKay MJ, Petrone ME, Breban MI, Watkins AE, Vogels CBF, Kalinich CC, Dellicour S, Russell A, Kelly JP, Shudt M, Plitnick J, Schneider E, Fitzsimmons WJ, Khullar G, Metti J, Dudley JT, Nash M, Beaubier N, Wang J, Liu C, Hui P, Muyombwe A, Downing R, Razeq J, Bart SM, Grills A, Morrison SM, Murphy S, Neal C, Laszlo E, Rennert H, Cushing M, Westblade L, Velu P, Craney A, Cong L, Peaper DR, Landry ML, Cook PW, Fauver JR, Mason CE, Lauring AS, St George K, MacCannell DR, Grubaugh ND. Early introductions and transmission of SARS-CoV-2 variant B.1.1.7 in the United States. Cell 2021, 184: 2595-2604.e13. PMID: 33891875, PMCID: PMC8018830, DOI: 10.1016/j.cell.2021.03.061.Peer-Reviewed Original ResearchConceptsSARS-CoV-2 lineage B.1.1.7SARS-CoV-2 variant B.1.1.7Global public health concernPublic health concernPublic health responseCOVID-19 casesLineage B.1.1.7Variant B.1.1.7Health responseHealth concernB.1.1.7Increased transmissibilityEarly introductionGenomic surveillanceUnited StatesDiagnostic dataDominant lineageStability of SARS-CoV-2 RNA in Nonsupplemented Saliva - Volume 27, Number 4—April 2021 - Emerging Infectious Diseases journal - CDC
Ott IM, Strine MS, Watkins AE, Boot M, Kalinich CC, Harden CA, Vogels CBF, Casanovas-Massana A, Moore AJ, Muenker MC, Nakahata M, Tokuyama M, Nelson A, Fournier J, Bermejo S, Campbell M, Datta R, Dela Cruz CS, Farhadian SF, Ko AI, Iwasaki A, Grubaugh ND, Wilen CB, Wyllie AL, . Stability of SARS-CoV-2 RNA in Nonsupplemented Saliva - Volume 27, Number 4—April 2021 - Emerging Infectious Diseases journal - CDC. Emerging Infectious Diseases 2021, 27: 1146-1150. PMID: 33754989, PMCID: PMC8007305, DOI: 10.3201/eid2704.204199.Peer-Reviewed Original Research
2020
SalivaDirect: A simplified and flexible platform to enhance SARS-CoV-2 testing capacity
Vogels CBF, Watkins AE, Harden CA, Brackney DE, Shafer J, Wang J, Caraballo C, Kalinich CC, Ott IM, Fauver JR, Kudo E, Lu P, Venkataraman A, Tokuyama M, Moore AJ, Muenker MC, Casanovas-Massana A, Fournier J, Bermejo S, Campbell M, Datta R, Nelson A, Team Y, Anastasio K, Askenase M, Batsu M, Bickerton S, Brower K, Bucklin M, Cahill S, Cao Y, Courchaine E, DeIuliis G, Earnest R, Geng B, Goldman-Israelow B, Handoko R, Khoury-Hanold W, Kim D, Knaggs L, Kuang M, Lapidus S, Lim J, Linehan M, Lu-Culligan A, Martin A, Matos I, McDonald D, Minasyan M, Nakahata M, Naushad N, Nouws J, Obaid A, Odio C, Oh J, Omer S, Park A, Park H, Peng X, Petrone M, Prophet S, Rice T, Rose K, Sewanan L, Sharma L, Shaw A, Shepard D, Smolgovsky M, Sonnert N, Strong Y, Todeasa C, Valdez J, Velazquez S, Vijayakumar P, White E, Yang Y, Dela Cruz C, Ko A, Iwasaki A, Krumholz H, Matheus J, Hui P, Liu C, Farhadian S, Sikka R, Wyllie A, Grubaugh N. SalivaDirect: A simplified and flexible platform to enhance SARS-CoV-2 testing capacity. Med 2020, 2: 263-280.e6. PMID: 33521748, PMCID: PMC7836249, DOI: 10.1016/j.medj.2020.12.010.Peer-Reviewed Original ResearchConceptsEmergency use authorizationSARS-CoV-2 testingSARS-CoV-2 screeningSARS-CoV-2 testing capacitySupply chain shortagesHospital cohortNasopharyngeal swabsHealthy individualsDrug AdministrationHigh positive agreementQRT-PCR assaysDiagnostic testsU.S. FoodSafe reopeningTesting capacityGlobal healthPositive agreementFast GrantLower ratesSalivaNucleic acid extractionSwabsValid alternativeAssay costsCollection tubes