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Test to Treat TB: Impact of Sputum Sequencing-guided Individualised Therapy on Outcomes in Drug-resistant Tuberculosis (T3-RCT)

Primary Purpose

Tuberculosis, Multidrug-Resistant

Status
Not yet recruiting
Phase
Not Applicable
Locations
South Africa
Study Type
Interventional
Intervention
Targeted sequencing using the GenoScreen Deeplex assay
Sponsored by
University of Cape Town
About
Eligibility
Locations
Arms
Outcomes
Full info

About this trial

This is an interventional diagnostic trial for Tuberculosis, Multidrug-Resistant

Eligibility Criteria

18 Years - undefined (Adult, Older Adult)All SexesDoes not accept healthy volunteers

Inclusion Criteria:

Subjects are required to meet ALL of the following inclusion criteria to participate:

  • Newly diagnosed culture and/or Xpert/MTB Ultra positive pulmonary TB
  • Rifampicin resistance detected using GeneXpert
  • Provide written informed consent prior to all trial-related procedures
  • Male or female aged 18 years and older.
  • Patients on TB treatment for less than or equal to 7 days.
  • Patients receiving both the shorter and longer MDR-TB regimen will be eligible.

Exclusion Criteria:

Subjects will be excluded from participation if they meet ANY of the following criteria:

  • A subject who in the opinion of the investigator is unlikely to cope with regular visits to the trial site either because of travel constraints, or drug or alcohol abuse, or other reason.
  • Currently on MDR-TB treatment and completed 7 days of treatment.
  • Any participant with a clinically significant pre-existing medical condition that, in the opinion of the investigator, may be significantly worsened by the patient's participation in the study
  • Any subject with a Karnofsky score < 50.
  • Having participated in other clinical studies within 8 weeks prior to trial start where investigational agents were used that may potentially impact current trial outcome.
  • Participant who is pregnant, breast-feeding (and not willing to stop), or planning to conceive a child within 6 months of cessation of treatment.
  • Any pre-existing laboratory abnormality, which in the opinion of the investigator will place the participant at risk (see detailed protocol for grade of abnormality).

Sites / Locations

  • University of Cape Town

Arms of the Study

Arm 1

Arm 2

Arm Type

No Intervention

Experimental

Arm Label

Programmatic MDR TB treatment regimen

Sequence based resistance testing and individualized treatment

Arm Description

Conventional MDR-TB laboratory tests. Sputum culture (and smear microscopy) will be evaluated monthly during the treatment period (and 6 monthly during the follow-up period) for the conventional arm.

Sputum extracted for targeted sequencing and drug resistance profile provided to clinician for individualized treatment.

Outcomes

Primary Outcome Measures

Impact of targeted genome sequencing to initiate more than or equal to five effective TB drugs within 14 days of diagnosis (reference standard phenotypic DST).
Impact of sputum-based targeted sequencing in detecting resistance to second-line TB drugs using the GenoScreen Deeplex assay compared to the current programmatic standard of care (Hain MDRTBplus/sl and adjunct phenotypic drug susceptibility testing) when used to inform of treatment for MDR-TB.

Secondary Outcome Measures

Feasibility of targeted sequencing to initiate more than or equal to five effective TB drugs within 14 days of diagnosis.
To determine the proportion of patients in the interventional group with a drug-resistant profile and placed on ≥ 5 likely effective drugs within 14 days of rifampicin resistant tuberculosis diagnosis.

Full Information

First Posted
August 13, 2021
Last Updated
July 25, 2023
Sponsor
University of Cape Town
Collaborators
University of Stellenbosch, Ospedale San Raffaele, Stichting Katholieke Universiteit, University of Cape Town Lung Institute
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1. Study Identification

Unique Protocol Identification Number
NCT05007795
Brief Title
Test to Treat TB: Impact of Sputum Sequencing-guided Individualised Therapy on Outcomes in Drug-resistant Tuberculosis
Acronym
T3-RCT
Official Title
Test to Treat TB: Impact of Sputum Sequencing-guided Individualised Therapy on Outcomes in Drug-resistant Tuberculosis (TB): a Proof of Concept Randomized Controlled Trial
Study Type
Interventional

2. Study Status

Record Verification Date
July 2023
Overall Recruitment Status
Not yet recruiting
Study Start Date
July 2023 (Anticipated)
Primary Completion Date
August 2026 (Anticipated)
Study Completion Date
July 2027 (Anticipated)

3. Sponsor/Collaborators

Responsible Party, by Official Title
Principal Investigator
Name of the Sponsor
University of Cape Town
Collaborators
University of Stellenbosch, Ospedale San Raffaele, Stichting Katholieke Universiteit, University of Cape Town Lung Institute

4. Oversight

Studies a U.S. FDA-regulated Drug Product
No
Studies a U.S. FDA-regulated Device Product
No
Data Monitoring Committee
Yes

5. Study Description

Brief Summary
Resistance to anti-tuberculosis drugs is a continually growing problem. Multidrug-resistant tuberculosis (MDRTB) is resistance to at least rifampicin and isoniazid, and extensively drug-resistant TB is additional resistance to a fluoroquinolone and a second injectable line drug. Methods currently employed in testing for resistance are inadequate and a contributing factor to the 40-50% MDR-TB treatment success rate. Current drug susceptibility testing methods are slow for most drugs, taking weeks. Rapid molecular methods such as the line probe assays, e.g. Hain GenoType MDRTBplus and sl, provide resistant calls to only a limited number of drugs, and are often less useful in smear negative patients. Molecular technologies such as sequencing can provide a comprehensive readout of drug resistance and are able to detect resistant populations at very low levels (≤1%), thus enabling individualized therapy. This can be done directly from sputum. Targeted sequencing amplifies regions of genomic DNA associated with resistance prior to sequencing. Rapid analytic software is used to process the raw sequence data, identify resistance causing mutations and provide a readout of clinically relevant information. However, the feasibility, and more importantly the impact, of this approach has not been evaluated in a clinical trial to establish proof of concept. Aim 1: To conduct a randomised controlled trial to determine the impact of sputum-based targeted sequencing in detecting resistance to second-line TB drugs compared to the current programmatic standard of care (Hain MDRTBplus/sl and adjunct phenotypic drug susceptibility testing) when used to inform of treatment for MDR-TB. Aim 2: To compare currently available drug resistant sequencing pipelines for diagnostic accuracy, sensitivity, specificity and predictive value as compared to culture based phenotypic drug susceptibility testing. Aim 3: To compare the feasibility, accuracy, turn-aroundtime, and cost implications of the above-mentioned diagnostic approaches.
Detailed Description
Trial aims: Aim 1: To conduct a randomised controlled trial to determine the impact of sputum-based targeted sequencing in detecting resistance to second-line TB drugs compared to the current programmatic standard of care (Hain MDRTBplus/sl and adjunct phenotypic drug susceptibility testing) when used to inform of treatment for MDR-TB. Sub-aim 1.1: To determine the proportion of patients (in the control and conventional groups) placed on ≥ 5 likely effective drugs within 14 days of rifampicin resistant tuberculosis diagnosis (the current WHO guideline) in the two groups (targeted sequencing versus LPA and phenotypic testing). Sub-aim 1.2: To determine time-specific treatment-related outcomes (6, 12, and 18-20 month favourable outcome rates), amplification of drug resistance rates (number of drugs), and 6-month change in chest radiograph disease scores in the two groups. Sub-aim 1.3: To determine the prevalence of minority hetero-resistant bacterial populations in patients in the same two groups and the change in these populations during the course of treatment. Aim 2: To compare currently available drug resistant sequencing pipelines for diagnostic accuracy, sensitivity, specificity and predictive value as compared to culture based phenotypic drug susceptibility testing. Aim 3: To compare the feasibility, accuracy, turn-around-time, and cost implications of the above-mentioned diagnostic approaches. Patient population: Stage 1 of this multistage study will recruit 100 patients (Stage 2 and 3 will only be undertaken if the primary outcome has been achieved in the stage 1 study). Patients aged > 18 years with newly diagnosed pulmonary rifampicin resistant tuberculosis will be recruited from the two study recruiting sites. Both HIV-infected and un-infected patients will be eligible for participation. Study staff will be referred newly diagnosed, rifampicin-resistant cases by the staff from City of Cape Town TB Clinics and TB-specific hospitals (after a discussion with the patients) at each site. Once the patient's diagnosis has been disclosed by the attending TB doctor, the study team will meet the patient after they have commenced treatment. The study staff will screen the potential participants for eligibility to participate in the study according to the following criteria: Inclusion criteria: Subjects are required to meet ALL of the following inclusion criteria to participate: Newly diagnosed culture and/or Xpert/MTB Ultra positive pulmonary TB Rifampicin resistance detected using GeneXpert Provide written informed consent prior to all trial-related procedures Male or female aged 18 years and older. Patients on TB treatment for less than or equal to 7 days. Patients receiving both the shorter and longer MDR-TB regimen will be eligible. Exclusion criteria: Subjects will be excluded from participation if they meet ANY of the following criteria: A subject who in the opinion of the investigator is unlikely to cope with regular visits to the trial site either because of travel constraints, or drug or alcohol abuse, or other reason. Currently on MDR-TB treatment and completed 7 days of treatment. Any participant with a clinically significant pre-existing medical condition that, in the opinion of the investigator, may be significantly worsened by the patient's participation in the study Any subject with a Karnofsky score < 50. Having participated in other clinical studies within 8 weeks prior to trial start where investigational agents were used that may potentially impact current trial outcome. Participant who is pregnant, breast-feeding (and not willing to stop), or planning to conceive a child within 6 months of cessation of treatment. Any pre-existing laboratory abnormality, which in the opinion of the investigator will place the participant at risk (see detailed protocol for grade of abnormality). All inclusion and no exclusion criteria must be met prior to enrolment and randomisation. Whenever the investigator has reason to suspect that there might be a health problem (other than TB), participation should only be considered after discussing the case with the medical monitor. Trial design: An open-label pragmatic proof of concept randomized controlled trial will be undertaken. This will be a multi-arm multi-staged (MAMS) trial with three stages. We have funding to currently complete stage 1, but further funding will be made available through the MRC AMR EMU (PI= K Dheda) if the primary outcomes are achieved. Stage 1 primary outcome measure: Proportion of patients initiated on treatment with ≥5 likely effective drugs within 14 days of rifampicin resistant tuberculosis diagnosis in each group (n=100). Stage 2 primary outcome measure: Six-month unfavourable outcome rates in each group (n=230 inclusive of stage 1 patients). Stage 3 primary outcome measure: End of treatment (12 or 18-20 month depending on the regimen used) unfavourable outcome rate in each group (n=280 inclusive of stage 2 patients) Enrolled participants will be randomised 1:1 (open-label) to receive either the empiric standard of care (9-11 month or sometimes the 18-20 month conventional treatment regimen) or the individualised interventional regimen for MDR-TB. Treatment duration in the conventional arm will be 9-11 months, or 18-20 months, based on the SA Department of Health Policy Guidelines for the treatment of MDR, with sputum culture (and smear microscopy) being evaluated monthly during the treatment period (and 6 monthly during the follow-up period). In the interventional arm sputum culture (and smear microscopy) will also be evaluated monthly during the treatment period (and 6 monthly during the follow-up phase). Interventional arm: The regimen in the interventional arm will be individualised and constructed in accordance to the Xpert/MTB Ultra, and results from targeted genome sequencing. The regimen will be developed using drugs from the table below (new WHO classification). The duration of treatment will be in accordance to the National TB program (NTP) guidelines i.e. patients who have been exposed to second-line drugs for >1 month previously, patients who require substitution of a key drug (i.e bedaquiline, linezolid or levofloxacin), those with a haemoglobin of < 8g/dl, or patients with complicated extra-pulmonary TB (meningitis, bone and complicated abdominal TB), will receive the longer regimen (18-20 months with some medications like bedaquiline and linezolid being prescribed for ~ 6 months) while all other patients will receive the NTP recommended shorter regimen (9-11 months with some medications, like bedaquiline (6 months) and linezolid (2 months), being used for shorter duration). Note: The SA guidelines for the management of MDR-TB are currently finalised but may change slightly or over time; our study will adopt the final decision from the NTP with regards to selection/indications for the long vs. short course regimen and their respective duration of treatment. WHO Grouping Group A: Include all three medications (unless they can not be used) - Bedaquiline, Linezolid, Levofloxacin Group B: Add both medicines (unless they cannot be used) - Clofazimine, Cycloserine/ Terizidone Group C: Add to complete the regimen and when medicines from Group A and B cannot be used - PZA, Delaminid, Ethambutol, Imipenem-cilastin/ Meropenem, Amikacin/ Streptomycin, High dose Isoniazid, Ethionamide/ Prothionamide, p-aminosalicylic, Terizidone Conventional Arm: Treatment in the conventional arm will be in accordance to the National TB program's recommendations. Patients on short and long course regimen will be included. Conventional regimen for adult MDR-TB as per the SA Department of Health Policy Guidelines on the treatment of MDR: DRUGS: Bedaquiline (Bdq) 6 months Daily dosing Linezolid (Lzd) Only 2-months Daily Levofloxacin Daily Clofazimine Daily PZA Daily Ethambutol Daily High dose INH Daily The conventional arm is adopted from the NTP. Any changes by the NTP to the standard of care will be mirrored in the conventional arm. Study endpoints: Primary Endpoint: feasibility and impact of targeted genome sequencing to initiate more than or equal to five effective TB drugs within 14 days of diagnosis (reference standard phenotypic DST). Feasibility is a co-primary endpoint. Secondary efficacy endpoints: favourable outcome rate (time-specific 6, 12, 18, 24 month post treatment initiation) time-specific rate of treatment failure time-specific culture conversion rates time-specific relapse rate (including the 6 and 12 months of follow-up) time-specific rates of resistance amplification adverse event rates cost effectiveness Sample size calculations: We estimate that the proportion of patients receiving effective treatment (at least 5 drugs started within 14 days) will be ~47% and ~82% in the conventional and intervention arms, respectively (rounded off conservatively to 50% and 80%; see Table 4 below for a summary readout representing detailed drug-specific calculations based on published data from several seminal studies(1-5)). Individualized therapy in the intervention arm, based on appropriate sequencing readouts, and the availability of susceptibility readouts for ethambutol and pyrazinamide will greatly reduce ineffective drugs and allow effective alternatives to be used. Based on the assumptions outlined in Table 5, a sample size of 100 patients will allow us to detect a 30% difference in the primary outcome between the arms assuming 95% confidence, and 80% power, considering a 10% loss to follow-up rate, and an additional 1% allowance for interim analysis (performed after 50 patients are recruited). We feel that a 30% difference is what would be required to be meaningful clinically in terms of outcome relative to resource investment. We have designed a multistage trial and the sample size calculations for the stages to determine the six-month favourable outcome rate, and six-month culture conversion rate, and twelve-month favourable outcome rate are shown in Table 5. Trial duration: Both arms will recruit 1:1 with the duration of treatment being 9-11 months (or 18-20 months), regardless of the arm that the participant may be assigned to. The follow up will be a total duration of 12 months for both arms after treatment completion. Ethical and management considerations: (i) Informed consent will be obtained from all patients. The consent form will be translated into the relevant local languages and interpreters made available where necessary. Data will be kept confidential and password-protected, with all personal identifiers removed from research-related information. The patients will be given the option to withdraw from the study at any time. Pregnant patients will not be enrolled. There will be no gender bias during the conduct of the study. This study will not discriminate against HIV-infected persons and will recruit both HIV-infected and uninfected persons. Newly diagnosed HIV-infected participants will be commenced on ARV treatment using either nevirapine or a lopinavir/ritonavir combination with two other NRTI's (for compatibility with bedaquiline). HIV-infected participants already on alternative ARV treatment regimens will be changed to the above-mentioned regimen. (v) Participants whose MDR-TB treatment has failed: In the conventional arm, management of failed MDR-TB treatment will be as per the NTP guidelines (with guidance from the provincial and national committees). In the interventional arm, participants where treatment has failed will be referred to the NTP and presented at the provincial and national committees with recommendations based on the extended DST pattern. (vi) Management of cases of relapse and re-infection in either treatment arm: As per cases with treatment failure. Insurance for research-related injuries: Provided by the University of Cape Town's No-Fault Insurance

6. Conditions and Keywords

Primary Disease or Condition Being Studied in the Trial, or the Focus of the Study
Tuberculosis, Multidrug-Resistant

7. Study Design

Primary Purpose
Diagnostic
Study Phase
Not Applicable
Interventional Study Model
Parallel Assignment
Masking
None (Open Label)
Allocation
Randomized
Enrollment
280 (Anticipated)

8. Arms, Groups, and Interventions

Arm Title
Programmatic MDR TB treatment regimen
Arm Type
No Intervention
Arm Description
Conventional MDR-TB laboratory tests. Sputum culture (and smear microscopy) will be evaluated monthly during the treatment period (and 6 monthly during the follow-up period) for the conventional arm.
Arm Title
Sequence based resistance testing and individualized treatment
Arm Type
Experimental
Arm Description
Sputum extracted for targeted sequencing and drug resistance profile provided to clinician for individualized treatment.
Intervention Type
Diagnostic Test
Intervention Name(s)
Targeted sequencing using the GenoScreen Deeplex assay
Intervention Description
Targeted sequencing to be performed on DNA extracted directly from clinical sputum samples using an on-demand strategy to generate a drug resistant profile. Clinicians treating the patients will have access to this and prescribe 5 or more effective drugs to the patients within 14 days of diagnosis.
Primary Outcome Measure Information:
Title
Impact of targeted genome sequencing to initiate more than or equal to five effective TB drugs within 14 days of diagnosis (reference standard phenotypic DST).
Description
Impact of sputum-based targeted sequencing in detecting resistance to second-line TB drugs using the GenoScreen Deeplex assay compared to the current programmatic standard of care (Hain MDRTBplus/sl and adjunct phenotypic drug susceptibility testing) when used to inform of treatment for MDR-TB.
Time Frame
14 days
Secondary Outcome Measure Information:
Title
Feasibility of targeted sequencing to initiate more than or equal to five effective TB drugs within 14 days of diagnosis.
Description
To determine the proportion of patients in the interventional group with a drug-resistant profile and placed on ≥ 5 likely effective drugs within 14 days of rifampicin resistant tuberculosis diagnosis.
Time Frame
14 days
Other Pre-specified Outcome Measures:
Title
Favourable outcome rate
Description
Rate of favourable outcome (cure or treatment complete) in conventional and interventional arms
Time Frame
6, 12, 18, 24 month post treatment initiation
Title
Rate of treatment failure
Description
Rate of treatment failures in conventional and interventional arm
Time Frame
6, 12, 18, 24 month post treatment initiation
Title
Culture conversion rates
Description
Culture conversion rates in conventional and interventional arm
Time Frame
6, 12, 18, 24 month post treatment initiation
Title
Relapse rate
Description
Rate of relapse in conventional and interventional arm
Time Frame
6 and 12 months of follow-up
Title
Rates of resistance amplification
Description
Rates of resistance amplification in conventional and interventional arm
Time Frame
12 and 24 months post treatment initiation
Title
Adverse event rates
Description
Adverse event rates in conventional and interventional arm
Time Frame
6, 12, 18, 24 month post treatment initiation
Title
Cost effectiveness
Description
Cost implications of the targeted sequencing diagnostic approach compared to the current programmatic standard of care.
Time Frame
24 month post treatment initiation

10. Eligibility

Sex
All
Minimum Age & Unit of Time
18 Years
Accepts Healthy Volunteers
No
Eligibility Criteria
Inclusion Criteria: Subjects are required to meet ALL of the following inclusion criteria to participate: Newly diagnosed culture and/or Xpert/MTB Ultra positive pulmonary TB Rifampicin resistance detected using GeneXpert Provide written informed consent prior to all trial-related procedures Male or female aged 18 years and older. Patients on TB treatment for less than or equal to 7 days. Patients receiving both the shorter and longer MDR-TB regimen will be eligible. Exclusion Criteria: Subjects will be excluded from participation if they meet ANY of the following criteria: A subject who in the opinion of the investigator is unlikely to cope with regular visits to the trial site either because of travel constraints, or drug or alcohol abuse, or other reason. Currently on MDR-TB treatment and completed 7 days of treatment. Any participant with a clinically significant pre-existing medical condition that, in the opinion of the investigator, may be significantly worsened by the patient's participation in the study Any subject with a Karnofsky score < 50. Having participated in other clinical studies within 8 weeks prior to trial start where investigational agents were used that may potentially impact current trial outcome. Participant who is pregnant, breast-feeding (and not willing to stop), or planning to conceive a child within 6 months of cessation of treatment. Any pre-existing laboratory abnormality, which in the opinion of the investigator will place the participant at risk (see detailed protocol for grade of abnormality).
Central Contact Person:
First Name & Middle Initial & Last Name or Official Title & Degree
Keertan Dheda, MD/PhD
Phone
+27214066509
Email
keertan.dheda@uct.ac.za
First Name & Middle Initial & Last Name or Official Title & Degree
Ali Esmail, MD
Email
ali.esmail@uct.ac.za
Overall Study Officials:
First Name & Middle Initial & Last Name & Degree
Keertan Dheda, MD/PhD
Organizational Affiliation
University of Cape Town
Official's Role
Principal Investigator
Facility Information:
Facility Name
University of Cape Town
City
Cape Town
State/Province
Western Cape
Country
South Africa

12. IPD Sharing Statement

Plan to Share IPD
Yes
IPD Sharing Plan Description
De-identified individual participant data will be made available to researchers who provide methodologically sound proposals to the principal investigator.
IPD Sharing Time Frame
Beginning 3 months to 5 years following publication.
IPD Sharing Access Criteria
Individual participant data will be made available to researchers who provide methodologically sound proposals beginning 3 months and ending 5 years following publication. Data sharing requests should be directed to keertan.dheda@uct.ac.za. A data access agreement will need to be concluded.

Learn more about this trial

Test to Treat TB: Impact of Sputum Sequencing-guided Individualised Therapy on Outcomes in Drug-resistant Tuberculosis

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