HIV Clinical Trial
Official title:
Pharmacokinetics and Safety of the WHO Recommended Increased Dosages of the First-line Anti-TB Medications in Children With TB and HIV/TB Coinfection
Tuberculosis (also known as TB) is a common infection and a major cause of death in children. Effective treatment using a combination of anti-tuberculosis (anti-TB) medications saves lives, but dosages of these medications are not well established in children. Several research studies have shown that the recommended dosages of the anti-TB medications in children do not lead to adequate blood levels to kill the bacteria in some children. This situation may lead to treatment failure and emergence of drug resistance. As a result, the world Health Organization (WHO) recently recommended increased dosages for all the TB medications in children. This study is being conducted to find out if the increased dosages of the anti-TB drugs are safe and lead to adequate drug levels in the blood of children with TB with or without HIV infection.
The treatment guidelines for childhood TB are largely inferred from studies in adults, as
few controlled trials have been done in children to establish optimum regimens. The standard
anti-TB treatment consists of a combination of isoniazid, rifampin, pyrazinamide and
ethambutol for two months induction phase followed by 2 months of isoniazid and rifampin in
the continuation phase. The plasma and tissue concentrations of each of the drugs in the
combination regimen needs to be optimized to maximize bacterial killing and reduce the risk
of treatment failure with emergence of drug resistance. Several studies have shown that the
peak concentrations of these drugs in a large proportion of children are so low that there
is a concern for ineffective therapy in some children. This concern led to the recent
recommendation by the WHO to increase the dosages of all first-line anti-TB drugs in
children. To our knowledge, the safety and pharmacokinetics of the new dosages have not been
studied in children in West Africa. In addition, differences in drug absorption, metabolism
and excretion may put some children at risk of low drug concentrations when the standard
weight-based fixed-dosages are prescribed to all children. Identification of these
individuals clinically or through genetic testing may be important for individualized
dosing. The factors that may influence drug concentrations and treatment effects include
age, HIV coinfection status, nutritional status and genetic polymorphisms of drug
metabolizing enzymes and transporters. Younger children appear to eliminate the drugs faster
and have lower plasma peak concentrations compared to older children and adults treated with
similar mg/kg doses. The association between nutritional status and the plasma
pharmacokinetics of the anti-TB drugs is less clear, as some but not all studies report a
significant relationship. HIV coinfection is an important factor that has been associated
with poor treatment responses as a result of poor drug absorption.
The primary objective of this study is to evaluate the pharmacokinetics and tolerability of
the elevated dosages of the first-line anti-TB in children, as well as factors associated
with inter-individual variability in anti-TB drugs exposure in Ghanaian children.
A two-arm pharmacokinetic study in children with active TB with or without HIV coinfection
will be performed at Komfo Anokye Teaching Hospital, Kumasi, Ghana. Children aged between 3
months and 14 years, for whom informed consent by parent or guardian have been obtained,
will be enrolled. A complete medical history, physical examination, and nutritional status
assessment will be performed at enrolment at subsequent study visits. Relevant data will be
collected using standardized forms. Baseline measurements prior to initiation of anti-TB
treatment will include complete blood count (CBC), blood urea nitrogen, creatinine, liver
function tests (LFTs), as well as CD4 cell count determination and plasma HIV-1 RNA level
(if HIV co-infected). Measurements LFTs will be repeated at week 2 of therapy or when
clinically indicated to evaluate for drug toxicity. All study participants will follow-up at
2 and 4 weeks and then monthly to assess adverse events and clinical response to therapy.
Anti-TB treatment will be initiated immediately upon TB diagnosis and concurrent initiation
ART will be allowed in co-infected children as per national and WHO guidelines. The standard
anti-TB regimen consists of daily ingestion of isoniazid, rifampin, pyrazinamide and
ethambutol for 2 months, then rifampin and isoniazid daily for 4 months. The new WHO
recommended doses for children will be prescribed. Weight-based fixed-dose combination
tablets are used. Children will receive directly observed therapy for the anti-TB treatment
by healthcare worker at the hospital or family member at home. Treatment outcome
(completed/cured, died, defaulted, discontinued, transferred out) is defined according to
WHO criteria.
Pharmacokinetic sampling will be performed at 4 weeks of anti-TB therapy. Study drugs will
be administered after at least a 2-hour fast in non-breastfed children and blood samples
obtained through intravascular catheters at times 0, 2, 4, 6, 8-hours post dosing. Actual
times of dosing and sampling will be accurately recorded. Doses vomited < 30 minutes after
dosing will require cancellation of PK testing and rescheduling. The samples will be placed
immediately on ice and centrifuged within 30 minutes at 3000g for 10 minutes at 4oC. Plasma
will be stored at - 70oC until measurement of drug concentrations. Drug concentrations will
be determined using validated gas chromatography with mass spectrometry.
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