Study Results
Results pending
The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.
Basic Information
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Recruitment Status
UNKNOWN
Clinical Phase
PHASE2
Total Enrollment
40 participants
Study Classification
INTERVENTIONAL
Study Start Date
2021-12-07
Study Completion Date
2022-06-30
Brief Summary
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The current TB treatment as recommended by World Health Organization (WHO) although capable of achieving 85% cure rates, has limitations, in particular drug interactions, toxicities, and the long treatment duration which increases the possibility of nonadherence.
Sub-therapeutic isoniazid concentrations were demonstrated in several studies, including our previous work, carried out among patients with tuberculosis receiving the standard dose (5mg/kg) of isoniazid. The investigators found 78% of patients with HIV had isoniazid concentrations below the recommended threshold. Malabsorption, drug-drug interactions, poor adherence due to high pill burden may contribute to this. Pharmacogenetic variation may compound these factors; isoniazid displays inter-individual variation in serum concentrations and clearance due to differences in individual acetylator status.
While patients who metabolize isoniazid slowly (slow acetylators) are at a higher risk of high drug concentrations and toxicities, fast acetylators are more likely to have sub-therapeutic isoniazid concentrations.
In other studies, insufficient exposure with isoniazid, one of the cornerstone drugs for TB treatment, has been associated with delayed sputum clearance, development of drug resistance, and treatment failure.
Isoniazid is metabolized by the enzyme N-acetyl transferase, which in turn is controlled by the N-acetyl transferase-2 (NAT-2) gene. Polymorphisms in this gene are responsible for the N-acetylation phenotypes, with the distribution of NAT-2 fast, intermediate, and slow acetylators being highly variable especially among African populations.
Given that NAT2 acetylator status explains most of the variability in INH exposures, knowledge of NAT2 status may be a simpler way to select the right dose for individual patients. The investigators will therefore provide higher doses to fast acetylators and compare the isoniazid pharmacokinetics in these patients to slow acetylators who receive the standard dose, who are more likely to already be achieving target concentrations.
Sub-therapeutic isoniazid concentrations were demonstrated in several studies, including our previous work, carried out among patients with tuberculosis receiving the standard dose (5mg/kg) of isoniazid. The investigators found 78% of patients with HIV had isoniazid concentrations below the recommended threshold. Malabsorption, drug-drug interactions, poor adherence due to high pill burden may contribute to this. Pharmacogenetic variation may compound these factors; isoniazid displays inter-individual variation in serum concentrations and clearance due to differences in individual acetylator status.
While patients who metabolize isoniazid slowly (slow acetylators) are at a higher risk of high drug concentrations and toxicities, fast acetylators are more likely to have sub-therapeutic isoniazid concentrations.
In other studies, insufficient exposure with isoniazid, one of the cornerstone drugs for TB treatment, has been associated with delayed sputum clearance, development of drug resistance, and treatment failure.
Isoniazid is metabolized by the enzyme N-acetyl transferase, which in turn is controlled by the N-acetyl transferase-2 (NAT-2) gene. Polymorphisms in this gene are responsible for the N-acetylation phenotypes, with the distribution of NAT-2 fast, intermediate, and slow acetylators being highly variable especially among African populations.
Given that NAT2 acetylator status explains most of the variability in INH exposures, knowledge of NAT2 status may be a simpler way to select the right dose for individual patients. The investigators will therefore provide higher doses to fast acetylators and compare the isoniazid pharmacokinetics in these patients to slow acetylators who receive the standard dose, who are more likely to already be achieving target concentrations.
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Detailed Description
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N-acetyl transferase genotyping will be performed on HIV infected patients diagnosed with T B. Slow acetylators will be initiated on the standard dose of isoniazid (5mg/kg) while fast and intermediate acetylators will be initiated on 10mg/kg of isoniazid. All other TB drugs will be given at their standard doses.
Monitoring for toxicities will be performed every two weeks (including ALT and screening for peripheral neuropathy) and isoniazid concentrations will be measured four weeks after initiating treatment at Ohr, 30mins, 1 hr, Thr and 4hr following observed drug intake.
Patients will be continued on standard dose isoniazid after completing the first 8 weeks of treatment (intensive phase).
Sputum cultures for mycobacteria will be performed at baseline, week 2, 4 and week 8. TB treatment outcome will be assessed after 6 months of treatment.
Non-linear mixed effects modelling will be used to model PK-PD data taking into account clinical and demographic factors like age, sex and BMI. The investigators will develop a model to establish the population parameters for isoniazid (for example clearance, absorption rate constant and volume of distribution) and the variability around these primary PK parameters. The investigators will then use the model to derive secondary PK parameters, namely area under the concentration-time curve (AUC) and maximum concentrations (Cmax) of isoniazid for each participant. The investigators will compare the PK parameters of isoniazid in fast/intermediate acetylators taking 10mg/kg and slow acetylators taking 5mg/kg of isoniazid.
In addition to the main objectives of the study, the investigators will also compare the PK in patients in the PG guided isoniazid dosing group to those in the historical cohort while matching for NAT2 status, age and sex. In the historical cohort, NAT-2 acetlyator genotyping was performed but patients received standard dosing regardless of NAT-2 acetylator status. In this trial, the investigators will use pharmacogenetic guided therapy for all participants. The investigators will therefore be able to compare the pharmacokinetic data above, safety and efficacy in patients who received pharmacogenetic therapy and those who did not.
The investigators will use PK-PD models to describe the relationship between concentrations and pharmacodynamic data (including toxicities and sputum conversion at week 8) in patients on the different doses. In addition to this, the investigators will also make this same comparison for patients in this study and those who did not receive PG guided therapy from the historical cohort. The investigators will also compare the number of grade 3-5 adverse events and time to sputum culture conversion in patients in patients who did and did not receive PG guided therapy while matching for NAT2 status, age and sex
Monitoring for toxicities will be performed every two weeks (including ALT and screening for peripheral neuropathy) and isoniazid concentrations will be measured four weeks after initiating treatment at Ohr, 30mins, 1 hr, Thr and 4hr following observed drug intake.
Patients will be continued on standard dose isoniazid after completing the first 8 weeks of treatment (intensive phase).
Sputum cultures for mycobacteria will be performed at baseline, week 2, 4 and week 8. TB treatment outcome will be assessed after 6 months of treatment.
Non-linear mixed effects modelling will be used to model PK-PD data taking into account clinical and demographic factors like age, sex and BMI. The investigators will develop a model to establish the population parameters for isoniazid (for example clearance, absorption rate constant and volume of distribution) and the variability around these primary PK parameters. The investigators will then use the model to derive secondary PK parameters, namely area under the concentration-time curve (AUC) and maximum concentrations (Cmax) of isoniazid for each participant. The investigators will compare the PK parameters of isoniazid in fast/intermediate acetylators taking 10mg/kg and slow acetylators taking 5mg/kg of isoniazid.
In addition to the main objectives of the study, the investigators will also compare the PK in patients in the PG guided isoniazid dosing group to those in the historical cohort while matching for NAT2 status, age and sex. In the historical cohort, NAT-2 acetlyator genotyping was performed but patients received standard dosing regardless of NAT-2 acetylator status. In this trial, the investigators will use pharmacogenetic guided therapy for all participants. The investigators will therefore be able to compare the pharmacokinetic data above, safety and efficacy in patients who received pharmacogenetic therapy and those who did not.
The investigators will use PK-PD models to describe the relationship between concentrations and pharmacodynamic data (including toxicities and sputum conversion at week 8) in patients on the different doses. In addition to this, the investigators will also make this same comparison for patients in this study and those who did not receive PG guided therapy from the historical cohort. The investigators will also compare the number of grade 3-5 adverse events and time to sputum culture conversion in patients in patients who did and did not receive PG guided therapy while matching for NAT2 status, age and sex
Conditions
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Tuberculosis
Study Design
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Allocation Method
NON_RANDOMIZED
Intervention Model
PARALLEL
Primary Study Purpose
TREATMENT
Blinding Strategy
NONE
Study Groups
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Fast/intermediate acetylators
Participants in this arm have fast/intermediate acetylator status from NAT2 genotyping.
In the Intensive phase (Month 1-2) of treatment, they will receive; Oral Isoniazid 10mg/kg/day + Rifampicin, Ethambutol and Pyrazinamide at standard dose.
In the continuation phase (Month 3 - 6 ) of treatment, they will receive; Oral Isoniazid 5mg/kg/day +Rifampicin at standard dose
Group Type
EXPERIMENTAL
Isoniazid Tablets
Intervention Type
DRUG
High dose of isoniazid
Slow acetylators
Participants in this arm have a slow acetylator status from NAT2 genotyping. They will receive the standard of care. In the Intensive phase (Month 1-2) of treatment, they will receive; Oral Isoniazid 5mg/kg/day + Rifampicin, Ethambutol and Pyrazinamide at standard dose.
In the continuation phase (Month 3 - 6 ) of treatment, they will receive; Oral Isoniazid 5mg/kg/day +Rifampicin at standard dose
Group Type
NO_INTERVENTION
No interventions assigned to this group
Interventions
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Isoniazid Tablets
High dose of isoniazid
Intervention Type
DRUG
Other Intervention Names
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INH
Eligibility Criteria
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Inclusion Criteria
* Evidence of a personally signed and dated informed consent document indicating that the subject (or a legal representative) has been informed of all pertinent aspects of the study.
* Subjects who are willing and able to comply with scheduled visits, treatment plan, laboratory tests, and other study procedures.
* Age of ≥18 years
* Bacteriologically confirmed pulmonary TB (determined by Xpert, culture, or microscopy)
* Confirmed HIV-1 infection.
* On TB treatment for ≤ 7 days at the time of enrolment (Within this time, the patient is still expected to have mycobacteria present in sputum and will provide enough time to conduct screening procedures)
* Subjects who are willing and able to comply with scheduled visits, treatment plan, laboratory tests, and other study procedures.
* Age of ≥18 years
* Bacteriologically confirmed pulmonary TB (determined by Xpert, culture, or microscopy)
* Confirmed HIV-1 infection.
* On TB treatment for ≤ 7 days at the time of enrolment (Within this time, the patient is still expected to have mycobacteria present in sputum and will provide enough time to conduct screening procedures)
Exclusion Criteria
* TB infection of any organ/systems requiring TB treatment longer than 6 months
* Pregnancy
* Decompensated liver disease and/or aminotransferases \>2.5 x ULN
* Pregnancy
* Decompensated liver disease and/or aminotransferases \>2.5 x ULN
Minimum Eligible Age
18 Years
Maximum Eligible Age
90 Years
Eligible Sex
ALL
Accepts Healthy Volunteers
No
Sponsors
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Makerere University
OTHER
Sponsor Role
lead
Responsible Party
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Responsibility Role
SPONSOR
Principal Investigators
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Christine Sekaggya-Wiltshire, MBChB, PhD
Role: PRINCIPAL_INVESTIGATOR
Infectious Diseases Institute-Kampala
Locations
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Infectious Diseases Institute
Kampala, , Uganda
Site Status
RECRUITING
Countries
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Uganda
Central Contacts
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Facility Contacts
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References
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Adams LV, Mahlalela N, Talbot EA, Pasipamire M, Ginindza S, Calnan M, Haumba S. High completion rates of isoniazid preventive therapy among persons living with HIV in Swaziland. Int J Tuberc Lung Dis. 2017 Oct 1;21(10):1127-1132. doi: 10.5588/ijtld.16.0946.
Reference Type
BACKGROUND
World Health Organization, Guildelines for treatment of Tuberculosis. 2013.
Reference Type
BACKGROUND
Han T. Effectiveness of standard short-course chemotherapy for treating tuberculosis and the impact of drug resistance on its outcome. JBI Libr Syst Rev. 2006;4(3):1-27. doi: 10.11124/01938924-200604030-00001.
Reference Type
BACKGROUND
Chideya S, Winston CA, Peloquin CA, Bradford WZ, Hopewell PC, Wells CD, Reingold AL, Kenyon TA, Moeti TL, Tappero JW. Isoniazid, rifampin, ethambutol, and pyrazinamide pharmacokinetics and treatment outcomes among a predominantly HIV-infected cohort of adults with tuberculosis from Botswana. Clin Infect Dis. 2009 Jun 15;48(12):1685-94. doi: 10.1086/599040.
Reference Type
BACKGROUND
McIlleron H, Rustomjee R, Vahedi M, Mthiyane T, Denti P, Connolly C, Rida W, Pym A, Smith PJ, Onyebujoh PC. Reduced antituberculosis drug concentrations in HIV-infected patients who are men or have low weight: implications for international dosing guidelines. Antimicrob Agents Chemother. 2012 Jun;56(6):3232-8. doi: 10.1128/AAC.05526-11. Epub 2012 Mar 12.
Reference Type
BACKGROUND
Park JS, Lee JY, Lee YJ, Kim SJ, Cho YJ, Yoon HI, Lee CT, Song J, Lee JH. Serum Levels of Antituberculosis Drugs and Their Effect on Tuberculosis Treatment Outcome. Antimicrob Agents Chemother. 2015 Oct 12;60(1):92-8. doi: 10.1128/AAC.00693-15. Print 2016 Jan.
Reference Type
BACKGROUND
Peloquin CA, Nitta AT, Burman WJ, Brudney KF, Miranda-Massari JR, McGuinness ME, Berning SE, Gerena GT. Low antituberculosis drug concentrations in patients with AIDS. Ann Pharmacother. 1996 Sep;30(9):919-25. doi: 10.1177/106002809603000901.
Reference Type
BACKGROUND
Sekaggya-Wiltshire C, von Braun A, Lamorde M, Ledergerber B, Buzibye A, Henning L, Musaazi J, Gutteck U, Denti P, de Kock M, Jetter A, Byakika-Kibwika P, Eberhard N, Matovu J, Joloba M, Muller D, Manabe YC, Kamya MR, Corti N, Kambugu A, Castelnuovo B, Fehr JS. Delayed Sputum Culture Conversion in Tuberculosis-Human Immunodeficiency Virus-Coinfected Patients With Low Isoniazid and Rifampicin Concentrations. Clin Infect Dis. 2018 Aug 16;67(5):708-716. doi: 10.1093/cid/ciy179.
Reference Type
BACKGROUND
Ding J, Thuy Thuong Thuong N, Pham TV, Heemskerk D, Pouplin T, Tran CTH, Nguyen MTH, Nguyen PH, Phan LP, Nguyen CVV, Thwaites G, Tarning J. Pharmacokinetics and Pharmacodynamics of Intensive Antituberculosis Treatment of Tuberculous Meningitis. Clin Pharmacol Ther. 2020 Apr;107(4):1023-1033. doi: 10.1002/cpt.1783. Epub 2020 Feb 29.
Reference Type
BACKGROUND
Jindani A, Aber VR, Edwards EA, Mitchison DA. The early bactericidal activity of drugs in patients with pulmonary tuberculosis. Am Rev Respir Dis. 1980 Jun;121(6):939-49. doi: 10.1164/arrd.1980.121.6.939. No abstract available.
Reference Type
BACKGROUND
Sloan D: Pharmacokinetic Variability in TB Therapy: Associations with HIV and Effect on Outcome. In: Conference on Retroviruses and Opportunistic Infections. Boston, Massachusetts, U.S.A; 2014
Reference Type
BACKGROUND
Mah A, Kharrat H, Ahmed R, Gao Z, Der E, Hansen E, Long R, Kunimoto D, Cooper R. Serum drug concentrations of INH and RMP predict 2-month sputum culture results in tuberculosis patients. Int J Tuberc Lung Dis. 2015 Feb;19(2):210-5. doi: 10.5588/ijtld.14.0405.
Reference Type
BACKGROUND
Cordes H, Thiel C, Aschmann HE, Baier V, Blank LM, Kuepfer L. A Physiologically Based Pharmacokinetic Model of Isoniazid and Its Application in Individualizing Tuberculosis Chemotherapy. Antimicrob Agents Chemother. 2016 Sep 23;60(10):6134-45. doi: 10.1128/AAC.00508-16. Print 2016 Oct.
Reference Type
BACKGROUND
Katiyar SK, Bihari S, Prakash S, Mamtani M, Kulkarni H. A randomised controlled trial of high-dose isoniazid adjuvant therapy for multidrug-resistant tuberculosis. Int J Tuberc Lung Dis. 2008 Feb;12(2):139-45.
Reference Type
BACKGROUND
Sekaggya-Wiltshire C, von Braun A, Scherrer AU, Manabe YC, Buzibye A, Muller D, Ledergerber B, Gutteck U, Corti N, Kambugu A, Byakika-Kibwika P, Lamorde M, Castelnuovo B, Fehr J, Kamya MR. Anti-TB drug concentrations and drug-associated toxicities among TB/HIV-coinfected patients. J Antimicrob Chemother. 2017 Apr 1;72(4):1172-1177. doi: 10.1093/jac/dkw534.
Reference Type
BACKGROUND
Denti P, Jeremiah K, Chigutsa E, Faurholt-Jepsen D, PrayGod G, Range N, Castel S, Wiesner L, Hagen CM, Christiansen M, Changalucha J, McIlleron H, Friis H, Andersen AB. Pharmacokinetics of Isoniazid, Pyrazinamide, and Ethambutol in Newly Diagnosed Pulmonary TB Patients in Tanzania. PLoS One. 2015 Oct 26;10(10):e0141002. doi: 10.1371/journal.pone.0141002. eCollection 2015.
Reference Type
BACKGROUND
Aklillu E, Carrillo JA, Makonnen E, Bertilsson L, Djordjevic N. N-Acetyltransferase-2 (NAT2) phenotype is influenced by genotype-environment interaction in Ethiopians. Eur J Clin Pharmacol. 2018 Jul;74(7):903-911. doi: 10.1007/s00228-018-2448-y. Epub 2018 Mar 27.
Reference Type
BACKGROUND
Zaid RB, Nargis M, Neelotpol S, Sayeed MA, Banu A, Shurovi S, Hassan KN, Salimullah M, Ali L, Azad Khan AK. Importance of acetylator phenotype in the identity of Asian populations. Hum Biol. 2007 Jun;79(3):363-8. doi: 10.1353/hub.2007.0041.
Reference Type
BACKGROUND
Meier C, Brauchli YB, Jick SS, Kraenzlin ME, Meier CR. Use of depot medroxyprogesterone acetate and fracture risk. J Clin Endocrinol Metab. 2010 Nov;95(11):4909-16. doi: 10.1210/jc.2010-0032. Epub 2010 Aug 4.
Reference Type
BACKGROUND
Burhan E, Ruesen C, Ruslami R, Ginanjar A, Mangunnegoro H, Ascobat P, Donders R, van Crevel R, Aarnoutse R. Isoniazid, rifampin, and pyrazinamide plasma concentrations in relation to treatment response in Indonesian pulmonary tuberculosis patients. Antimicrob Agents Chemother. 2013 Aug;57(8):3614-9. doi: 10.1128/AAC.02468-12. Epub 2013 May 20.
Reference Type
BACKGROUND
Migliori GB, Raviglione MC, Schaberg T, Davies PD, Zellweger JP, Grzemska M, Mihaescu T, Clancy L, Casali L. Tuberculosis management in Europe. Task Force of the European Respiratory Society (ERS), the World Health Organisation (WHO) and the International Union against Tuberculosis and Lung Disease (IUATLD) Europe Region. Eur Respir J. 1999 Oct;14(4):978-92. doi: 10.1183/09031936.99.14497899. No abstract available.
Reference Type
BACKGROUND
Other Identifiers
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IDI SRC Ref:16/2020
Identifier Type: -
Identifier Source: org_study_id
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