Biomarker-guided tuberculosis preventive therapy (CORTIS): a randomised controlled trial. Issue 3 (March 2021)
- Record Type:
- Journal Article
- Title:
- Biomarker-guided tuberculosis preventive therapy (CORTIS): a randomised controlled trial. Issue 3 (March 2021)
- Main Title:
- Biomarker-guided tuberculosis preventive therapy (CORTIS): a randomised controlled trial
- Authors:
- Scriba, Thomas J
Fiore-Gartland, Andrew
Penn-Nicholson, Adam
Mulenga, Humphrey
Kimbung Mbandi, Stanley
Borate, Bhavesh
Mendelsohn, Simon C
Hadley, Katie
Hikuam, Chris
Kaskar, Masooda
Musvosvi, Munyaradzi
Bilek, Nicole
Self, Steven
Sumner, Tom
White, Richard G
Erasmus, Mzwandile
Jaxa, Lungisa
Raphela, Rodney
Innes, Craig
Brumskine, William
Hiemstra, Andriëtte
Malherbe, Stephanus T
Hassan-Moosa, Razia
Tameris, Michèle
Walzl, Gerhard
Naidoo, Kogieleum
Churchyard, Gavin
Hatherill, Mark
Baepanye, Kesenogile
Baepanye, Tshepiso
Clarke, Ken
Collignon, Marelize
Dlamini, Audrey
Eyre, Candice
Feni, Tebogo
Fikizolo, Moogo
Galane, Phinda
Goliath, Thelma
Gangat, Alia
Malefo-Grootboom, Shirley
Janse van Rensburg, Elba
Janse van Rensburg, Bonita
Kekana, Sophy
Zietsman, Marietjie
Kock, Adrianne
Kunene, Israel
Lakhi, Aneessa
Langa, Nondumiso
Ledwaba, Hilda
Luphoko, Marillyn
Mabasa, Immaculate
Mabe, Dorah
Mabuza, Nkosinathi
Majola, Molly
Makhetha, Mantai
Makoanyane, Mpho
Makhubalo, Blossom
Malay, Vernon
Market, Juanita
Matshego, Selvy
Mbipa, Nontsikelelo
Mmotsa, Tsiamo
Modipa, Sylvester
Mopati, Samuel
Moswegu, Palesa
Mothaga, Primrose
Muller, Dorothy
Nchwe, Grace
Nel, Maryna
Nhlangulela, Lindiwe
Ntamo, Bantubonke
Ntoahae, Lawerence
Ntshauba, Tedrius
Sanyaka, Nomsa
Seabela, Letlhogonolo
Selepe, Pearl
Senne, Melissa
Serake, MG
Thlapi, Maria
Tshikovhi, Vincent
Tswaile, Lebogang
van Aswegen, Amanda
Mbata, Lungile
Takavamanya, Constance
Pinho, Pedro
Mdlulu, John
Taljaard, Marthinette
Slabbert, Naydene
Sayed, Sharfuddin
Nielson, Tanya
Senne, Melissa
Ni Sein, Ni
Mbata, Lungile
Govender, Dhineshree
Chinappa, Tilagavathy
Zulu, Mbali Ignatia
Maphanga, Nonhle Bridgette
Hlathi, Senzo Ralph
Gumede, Goodness Khanyisile
Shezi, Thandiwe Yvonne
Maphanga, Jabulisiwe Lethabo
Jali, Zandile Patrica
Cwele, Thobelani
Gwamanda, Nonhlanhla Zanele Elsie
Dlamini, Celaphiwe
Sing, Zibuyile Phindile Penlee
Ntanjana, Ntombozuko Gloria
Nzimande, Sphelele Simo
Mbatha, Siyabonga
Maharaj, Bhavna
Moosa, Atika
Corris, Cara-Mia
Kafaar, Fazlin
Geldenhuys, Hennie
Luabeya, Angelique Kany Kany
Shenje, Justin
Botes, Natasja
Rossouw, Susan
Africa, Hadn
Diamond, Bongani
Braaf, Samentra
Stryers, Sonia
Carstens, Alida
Jansen, Ruwiyda
Mabwe, Simbarashe
Mulenga, Humphrey
Herling, Roxane
Veldsman, Ashley
Makhete, Lebohgang
Steyn, Marcia
Buhlungu, Sivuyile
Erasmus, Margareth
Davids, Ilse
Plaatjie, Patiswa
Companie, Alessandro
Ratangee, Frances
Veldtsman, Helen
Petersen, Christel
Abrahams, Charmaine
Moses, Miriam
Kelepu, Xoliswa
Gregg, Yolande
Swanepoel, Liticia
Magawu, Nomsitho
Cetywayo, Nompumelelo
Mactavie, Lauren
Valley, Habibullah
Filander, Elizabeth
Nqakala, Nambitha
Maasdorp, Elizna
Khoury, Justine
Kriel, Belinda
Smith, Bronwyn
Muller, Liesel
Tonsing, Susanne
Loxton, Andre
Hiemstra, Andriette
Ahlers, Petri
Flinn, Marika
Chung, Eva
Chung, Michelle
Sato, Alicia
… (more) - Abstract:
- Summary: Background: Targeted preventive therapy for individuals at highest risk of incident tuberculosis might impact the epidemic by interrupting transmission. We tested performance of a transcriptomic signature of tuberculosis (RISK11) and efficacy of signature-guided preventive therapy in parallel, using a hybrid three-group study design. Methods: Adult volunteers aged 18–59 years were recruited at five geographically distinct communities in South Africa. Whole blood was sampled for RISK11 by quantitative RT-PCR assay from eligible volunteers without HIV, recent previous tuberculosis (ie, <3 years before screening), or comorbidities at screening. RISK11-positive participants were block randomised (1:2; block size 15) to once-weekly, directly-observed, open-label isoniazid and rifapentine for 12 weeks (ie, RISK11 positive and 3HP positive), or no treatment (ie, RISK11 positive and 3HP negative). A subset of eligible RISK11-negative volunteers were randomly assigned to no treatment (ie, RISK11 negative and 3HP negative). Diagnostic discrimination of prevalent tuberculosis was tested in all participants at baseline. Thereafter, prognostic discrimination of incident tuberculosis was tested in the untreated RISK11-positive versus RISK11-negative groups, and treatment efficacy in the 3HP-treated versus untreated RISK11-positive groups, during active surveillance through 15 months. The primary endpoint was microbiologically confirmed pulmonary tuberculosis. The primary outcomeSummary: Background: Targeted preventive therapy for individuals at highest risk of incident tuberculosis might impact the epidemic by interrupting transmission. We tested performance of a transcriptomic signature of tuberculosis (RISK11) and efficacy of signature-guided preventive therapy in parallel, using a hybrid three-group study design. Methods: Adult volunteers aged 18–59 years were recruited at five geographically distinct communities in South Africa. Whole blood was sampled for RISK11 by quantitative RT-PCR assay from eligible volunteers without HIV, recent previous tuberculosis (ie, <3 years before screening), or comorbidities at screening. RISK11-positive participants were block randomised (1:2; block size 15) to once-weekly, directly-observed, open-label isoniazid and rifapentine for 12 weeks (ie, RISK11 positive and 3HP positive), or no treatment (ie, RISK11 positive and 3HP negative). A subset of eligible RISK11-negative volunteers were randomly assigned to no treatment (ie, RISK11 negative and 3HP negative). Diagnostic discrimination of prevalent tuberculosis was tested in all participants at baseline. Thereafter, prognostic discrimination of incident tuberculosis was tested in the untreated RISK11-positive versus RISK11-negative groups, and treatment efficacy in the 3HP-treated versus untreated RISK11-positive groups, during active surveillance through 15 months. The primary endpoint was microbiologically confirmed pulmonary tuberculosis. The primary outcome measures were risk ratio [RR] for tuberculosis of RISK11-positive to RISK11-negative participants, and treatment efficacy. This trial is registered with ClinicalTrials.gov, NCT02735590 . Findings: 20 207 volunteers were screened, and 2923 participants were enrolled, including RISK11-positive participants randomly assigned to 3HP (n=375) or no 3HP (n=764), and 1784 RISK11-negative participants. Cumulative probability of prevalent or incident tuberculosis disease was 0·066 (95% CI 0·049 to 0·084) in RISK11-positive (3HP negative) participants and 0·018 (0·011 to 0·025) in RISK11-negative participants (RR 3·69, 95% CI 2·25–6·05) over 15 months. Tuberculosis prevalence was 47 (4·1%) of 1139 versus 14 (0·78%) of 1984 in RISK11-positive compared with RISK11-negative participants, respectively (diagnostic RR 5·13, 95% CI 2·93 to 9·43). Tuberculosis incidence over 15 months was 2·09 (95% CI 0·97 to 3·19) vs 0·80 (0·30 to 1·30) per 100 person years in RISK11-positive (3HP-negative) participants compared with RISK11-negative participants (cumulative incidence ratio 2·6, 95% CI 1·2 to 5·9). Serious adverse events related to 3HP included one hospitalisation for seizures (unintentional isoniazid overdose) and one death of unknown cause (possibly temporally related). Tuberculosis incidence over 15 months was 1·94 (95% CI 0·35 to 3·50) versus 2·09 (95% CI 0·97 to 3·19) per 100 person-years in 3HP-treated RISK11-positive participants compared with untreated RISK11-positive participants (efficacy 7·0%, 95% CI −145 to 65). Interpretation: The RISK11 signature discriminated between individuals with prevalent tuberculosis, or progression to incident tuberculosis, and individuals who remained healthy, but provision of 3HP to signature-positive individuals after exclusion of baseline disease did not reduce progression to tuberculosis over 15 months. Funding: Bill and Melinda Gates Foundation, South African Medical Research Council. … (more)
- Is Part Of:
- Lancet infectious diseases. Volume 21:Issue 3(2021)
- Journal:
- Lancet infectious diseases
- Issue:
- Volume 21:Issue 3(2021)
- Issue Display:
- Volume 21, Issue 3 (2021)
- Year:
- 2021
- Volume:
- 21
- Issue:
- 3
- Issue Sort Value:
- 2021-0021-0003-0000
- Page Start:
- 354
- Page End:
- 365
- Publication Date:
- 2021-03
- Subjects:
- Communicable diseases -- Periodicals
Infection -- Periodicals
Communicable Diseases -- Periodicals
Infection -- Periodicals
Maladies infectieuses -- Périodiques
Infection -- Périodiques
Communicable diseases
Infection
Periodicals
616.905 - Journal URLs:
- http://www.mdconsult.com/public/search?search_type=journal&j_sort=pub_date&j_issn=1473-3099 ↗
http://www.sciencedirect.com/science/journal/14733099 ↗
http://www.elsevier.com/journals ↗ - DOI:
- 10.1016/S1473-3099(20)30914-2 ↗
- Languages:
- English
- ISSNs:
- 1473-3099
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- Legaldeposit
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