Precision Rifampin Trial for Personalized Dosing (P-RIF)
Status and phase
Conditions
Treatments
Details and patient eligibility
About
Individual pharmacokinetic variability is an important driver of tuberculosis (TB) treatment failure particularly among undernourished populations, and that suboptimal serum drug concentrations are associated with delayed response to treatment, death, and acquired bacterial drug resistance. Serum drug exposures can be approximated by urine excretion as measured by spectrophotometry, replacing the need for specialized equipment for serum testing. Anti-TB pharmacokinetic variability has also been associated with enteric pathogen burden. The overall hypothesis is that urine spectrophotometry will identify people with below-target rifampin serum concentrations, which can be corrected to target levels after dose adjustment as confirmed by serum mass spectrometry. Therefore, this protocol includes a clinical trial to assess efficacy and safety of rifampin dose adjustment based on urinary excretion levels among adults and children who are being treated for drug-sensitive pulmonary TB at our longstanding collaborative research site in Haydom Lutheran Hospital, Tanzania.
Full description
This is a single-site trial at Haydom Lutheran Hospital, a regional referral hospital level in Manyara Region of northern Tanzania. The primary objective: Among children and adults in Tanzania initiating treatment for drug-susceptible pulmonary TB, perform urine spectrophotometric testing for rifampin, and collect serum throughout the 24 hour dosing interval for later concentration measurement by gold-standard mass spectrometry and comparative pharmacokinetics. Patients with urine rifampin excretion below target will undergo incremental dose increase and urine spectrophotometry and serum collection will be repeated. Stool will also be evaluated at regular intervals to understand the association with enteropathogen burden and effects on rifampin absorption, urine excretion, and serum exposures. Participants will randomized to an early group where urine spectrophotometry and dose adjustment is performed at Day 14 after treatment initiation, or a delayed group where the intervention is performed at Day 21. Primary efficacy endpoint is the proportion of subjects in the early and delayed groups that reach serum target AUC0-24 (35 ug/mL for adults; 31.7 ug/mL for children) at Day 21, before the urine based dose adjustment is made in the delayed group. Primary safety endpoint is the number of severe adverse events. Secondary endpoints include: time to sputum culture conversion to negative, weight change. Time to culture conversion and weight change are stratified by age given pediatric populations are more likely to be culture negative and clinically diagnosed with weight gain a central measurement of treatment response. Safety of dose adjustment strategy parameters include clinical adverse events, liver function tests, kidney function tests and hematological parameters
Enrollment
Sex
Ages
Volunteers
Inclusion criteria
- Age 3 or older
- Diagnosed with active, rifampin-susceptible, pulmonary TB- sputum positive for M. tuberculosis complex without rpoB mutation, or culture for M. tuberculosis with conventional rifampin susceptibility OR among children unable to expectorate, meeting confirmed or probable consensus clinical case definitions for intrathoracic childhood TB
- Initiating combination anti-TB therapy with isoniazid, rifampin, pyrazinamide, and ethambutol
- Subject or guardian is able to provide informed consent; and for children 7 years or older, provide assent
- Stated willingness to comply with all trial procedures and availability for the duration of the trial
- Resident within a pre-defined geographic area to ensure TB clinic follow-up
Exclusion criteria
- Urinary incontinence: may complicate urine collection
- Oliguria: may complicate urine collection and limit correlation of urinary excretion and serum concentrations
- Kidney disease, defined as a glomerular filtration rate (GFR) < 60 mL/min: In 5R01 AI137080, those adults with GFR < 60 mL/min had reduced correlation or urinary rifampin excretion and serum concentrations.
- Severe anemia, defined as a hemoglobin level less than 7 g/dL: given planned phlebotomy
- Elevated liver function tests, defined as DAIDS grade 3 or above (ALT or AST >/= 5 x upper limit of normal): may confound potential toxicity signals of dose adjustment strategy
- Pregnancy: Urine rifampin spectrophotometry has not been studied in pregnant people, higher dose rifampin also less studied in pregnancy, and may confound potential toxicity signals (e.g. elevated liver function tests in pregnancy). Urine pregnancy test will be completed at screening in people of child-bearing potential. Child-bearing potential is defined as a person able to menstruate (menstruation in the last 12 months) and not receiving a form of contraception with less than <1% failure rate (oral levonorgestrel, IUD or etonogestrel implant).
- Weight <10.0 kg (dose increase may exceed 30mg/kg/dose)
- Current treatment with a drug known to have significant interaction with anti-TB therapy
- Excessive alcohol use? (for example, Men consuming > 14 standardized drinks per week and/or > 4 drinks per day OR women consuming >7 standardized drinks per week, and/or >3 drinks per day, or at the discretion of the investigator(s).
Trial design
Primary purpose
Allocation
Interventional model
Masking
200 participants in 2 patient groups
Trial contacts and locations
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Central trial contact
Scott Heysell, MD, MPH
Data sourced from clinicaltrials.gov
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