Tuberculosis Clinical Trial
Official title:
The Impact of Pharmacists' Interventions on the Quality of Life of HIV-TB Co-infection Outpatients in Indonesia: a Therapeutic Drug Monitoring (TDM) Approach
Rationale:
The co-infection of human immunodeficiency virus (HIV) and tuberculosis (TB) diseases
presents further problems to patient's adherence due to high pill burden and adverse effects
in the drug combination therapy. This situation is also a risk of the increase of multi-drug
resistant TB and may affect the quality of life of patients. However, the prevalence of
non-adherence has not been studied much in these patients in Indonesia, especially in West
Java with several HIV patients who are still struggling with TB as their opportunistic
infection. Pharmacist interventions in several studies have resulted in a better outcome of
patients' therapy, especially in patients who need long-term adherence and compliance with
drug treatment. It is hypothesized that patients' quality of life of HIV-TB co-infection
patients will be improved with the intervention conducted by the pharmacist.
Objective:
In general, the study aimed to evaluate the utility of study participants with specific aims
to describe the number of DRP and interventions applied, to describe drug concentration in
selected participants (TB drugs: Rifampicin and Pyrazinamide), to compare changes of CD4+
cell counts and plasma HIV RNA (viral load) between baseline and after of intervention, to
assess participants compliance and persistence to medication therapy, and descriptive
analysis on the direct and indirect costs.
Study design:
This is a prospective, cluster-randomized study with a stepped-wedge design. Clusters
correspond to participating centers. A randomly selected center is crossed-over into the
intervention with calculation after the start of inclusions within 6-months follow-up in 3
different clinics in Indonesia (Bekasi City Public Hospital, Persahabatan Public Hospital
Jakarta and Cipto Mangunkusumo general hospital).
Intervention:
Interventions are given by a pharmacist as a drug consultant is an intervention concerning
the drug treatment of HAART and anti-TB. Monthly, patients will have a discussion regarding
their medication and drug-related problems they experience. The pharmacist will identify
drug-related problems before and during treatment and solve the problems.
Main study parameters/endpoints: change from baseline utility (quality of life) at 6 months
Secondary endpoints: changes from baseline in CD4+, VL, adherence, persistence at 6 months
and total costs.
1. STUDY BACKGROUND
1.1 HIV and TB Diseases Human Immunodeficiency Virus (HIV) is a global health concern
which the World Health Organization (WHO) estimates that 36.7 million people are living
with HIV (PLHIV) with 1.1 million deaths of PLHIV in 2015, worldwide. Among them, there
were 2.1 [1.8-2.4] million new HIV infections. Because of its immunosuppressive action,
people living with HIV (PLHIV) are prone to be infected with opportunistic infections,
such as tuberculosis (TB), pneumonia, and toxoplasmosis. TB itself is known as one of
the main risks of death in PLHIV as it considerably accelerates the progression of HIV
to AIDS by not only activating viral replication but also accentuating the decline in
CD4 cell counts. It is also estimated that TB would affect one-third of the world's
population and 9 million new cases of TB are discovered worldwide each year, with more
than 1 million cases occurring in patients with HIV or AIDS. The incidence of TB
globally has risen enormously since 1990, particularly in certain countries where there
is a significant overlap between HIV and TB epidemics. The risk of developing TB is 29
(26-31) times higher in PLHIV than people without HIV as Mycobacterium tuberculosis and
HIV are potentiating one another in accelerating the decrease of the immunological
function and causing early death.
HIV treatments have been implemented since the first production of antiretroviral drugs
and have been developing fast since because of the increasing number of HIV cases
worldwide. The introduction of ARV reduces the development of TB, but this disease
continues to occur among PLHIV. Antiretroviral and anti-TB drugs have their complex
regimens, and the combination of these drugs in HIV-TB co-infection patients has caused
increasingly even more complex regimens, potential toxicities, and issues of adherence
due to potential interaction between antiretroviral and anti-TB medications. In HIV
patients receiving regular antiretroviral drugs and becoming infected with TB,
considerations on the alteration or discontinuation of antiretroviral drugs and
selection of TB agents are based upon the efficacy of each selected drug, drug
interactions, drug resistance, prevention of treatment failure, and patient adherence.
1.1.2 Pharmaceutical Care Interventions Such concerning and life-threatening diseases
treatments have been massively conducted with a significant success worldwide, marked
with the lower incidence of new cases of HIV and TB. However, the major diagnostic and
therapeutic deficiencies remain. Health professionals, such as physicians, nurses,
pharmacists, and other health professionals are required to ensure the success of HIV TB
co-infection therapy based on the guidelines made by international organizations and
local governments.
In the past few decades, there has been a shifting perspective of the pharmacist's role
from the traditional role of dispensing medication to the patient-oriented perspective
in collaboration with or without other health providers to achieve improvement of
patient outcomes as well as the improvement of quality of life. The Pharmaceutical Care
(PC) program which involves the specific role of a pharmacist has been implemented
mostly in high-income countries to hospitalized- and out-patients. Several systematic
reviews and meta-analysis are conducted to evaluate the impact of the patients-oriented
intervention in any disease states;8-12 thus the thoroughly and rigorous reviews enable
other researchers or health providers to assess and implement the most valid processes
of pharmacist intervention in their setting.
1.1.3 Therapeutic Drug Monitoring in TB Drugs TDM is a multi-disciplinary clinical
approach of evaluating and monitoring drug concentration in the blood, defined as the
clinical laboratory measurement with proper medical interpretation. It is generally
aimed to improve the quality of patient care by adjusting a patient's drug dosage
individually within a therapeutic range. A combination of pharmaceutical,
pharmacokinetics, pharmacodynamics knowledge and skills are needed to assess the
efficacy and safety of particular drugs to achieve a maximum benefit of the patient's
drug therapy.
By far, TDM has been used in many indications, such as to evaluate drug-drug
interactions, to assess drug efficacy and safety (toxicity level), and adherence or
compliance. However, TDM is not necessarily carried out for all medications. There are
several patients' criteria that may have the advantage of TDM, such as: patients with
low response of drug treatment that may lead to treatment failure, patients with poor
compliance to the treatment, and patients who get treated with narrow therapeutic range
drugs (theophylline, aminoglycoside antibiotic, cyclosporine, and lithium). It is
believed that TDM has a role in improving TB treatment, especially in TB patients with a
low response to the treatment and in HIV/TB co-infection patients. Several studies have
conducted TDM and revealed that it could be used as a useful strategy to identify the
cause of slow response in TB treatment; thus, it may shorten the time to respond and
achieve treatment completion and also optimize ARV dosage when combined with TB drugs.
1.1.4 Pharmacoeconomics of the pharmacists' interventions There has been an increase in
the number of diseases burden worldwide during the past few years which inevitably
adding the burden of healthcare expenditures. Many strategies in healthcare settings
intended to constrain the expenses, especially to restrict the expenses on drugs.
Several studies try to assess the further impact of the intervention from the economic
perspective point of view whereas pharmacists as the focus or in a multidisciplinary
team. From a public health point of view, pharmacists may actively be involved in health
promotion, such as smoking cessation, prevention and treatment of chronic and infectious
diseases (e.g., diabetes, hypertension, HIV/AIDS and tuberculosis (TB).
2. STUDY OBJECTIVES
This study aims to evaluate the change in utility (quality of life) of study participants.
The specific aims of this study are:
1. To compare the changes of CD4+ cell-counts between baseline and after the study;
2. To compare the difference of plasma HIV RNA (viral load) between baseline and after the
study;
3. To assess participants' adherence or compliance to medication therapy (antiretroviral
and anti-TB drugs);
4. To assess the direct costs and indirect costs of the pharmacists' interventions.
3. STUDY DESIGN AND SETTING
3.1 STUDY DESIGN
The HIV-TB IND02017 study is a prospective, stepped wedge cluster randomized trial where
stepwise randomization occurs at a clinic level. Clinics will be randomized to one of three
roll-out schedules, each contributing at least one-month control period and one-month
intervention period to the analysis. Data will be collected at the level of the individual,
even though the randomization will be implemented at a clinic level. A stepped wedge design
(SWD) is a type of crossover design in which different clusters will receive both control and
intervention activities with varying points of time. It usually starts with all clusters in
the control period, and at subsequent time points, each cluster will receive the intervention
period with different duration of the intervention period. This design is being acknowledged
in recent years for pragmatic reasons, such as in the HIV disease where there is a strong
belief that adding new intervention will give good results than harms for patients with a
higher risk of ethical issues if they are randomized into control and intervention groups.
SWD has advantages compared to a parallel and crossover design, whereas SWD only needs fewer
clusters and samples, useful in trial with resources and cost constraints and ethically
acceptable since all the participants in clusters will receive the interventions.
3.2 STUDY SETTING
The study of the impact of pharmacist intervention on improvement of quality of life of
TB-infected HIV patients will be implemented in 3 hospital clinics in Jakarta and West Java
(Bekasi public hospital, Persahabatan public hospital, and Cipto Mangunkusumo General
Hospital Jakarta). The intervention program across each of these sites is 6-months in length
or until treatment completion and will be operated in community clinics as this study has
targeted HIV/TB outpatients. Pharmacists are the investigators in this study. Participants
will be followed for their medication therapy and evaluated by the investigator during the
study with the monthly intervention and counseling session at the time of medicine pick up.
4. STUDY POPULATION
4.1 POPULATION
The study will include all HIV patients who develop TB disease at the time of the study at
three participating hospital sites, and the follow-up patients will also be applied and
maintained throughout the study. Identification of TB disease classification in HIV patients
is based on the WHO standard guidelines for tuberculosis and Pedoman Nasional Pengendalian
Tuberculosis 2014 (the 2014 Tuberculosis Control National Guidelines), which will include
smear sputum results, chest X-ray, and geneXpert (if applicable).
4.2 INCLUSION AND EXCLUSION CRITERIA Will be elaborated in the next section.
4.3 SAMPLE SIZE CALCULATION
The sample size calculation for the stepped wedge design is based on Hemming et al.48 We
considered a small effect size of 0.30 with the statistical power of 80% and 5% significance
in this study because no studies were investigating the effect of pharmacist intervention in
HIV-TB co-infection patients. Based on the assumption and t-test calculation on individual
randomization, such design would need 352 study participants (176 per arm). An intra-cluster
correlation (ICC) of 0.05 is assumed with the meaning of little correlation between the
clusters, which leads to a design effect of 2.12 in the stepped wedge model. With a fixed
number of 3 clusters (k), time of observation (t) of 5, the number of observations (m) of 2,
and 20% losses of follow-up patients, the sample size is calculated by N = 92 patients.
Calculations of the sample size of stepped wedge model are as follows:
Design effect (DE-SW) Formula:
Total sample size per cluster : M = m x (t+1) = 2 x (5+1) = 12 participants Total study
sample size : N = M x k = 12 x 3 = 36 participants Total required sample size : N = N x DE =
36 x 2.12 = 76.32 participants Total sample size : N = 76.32 + 20% excess ≈ 92 participants
(anticipated)
Notations:
m : the number of observations made in each cluster: 2 = quality of life and
adherence/monitoring drug therapy; k : the number of clusters: 3 clusters (a fixed number of
clusters) t : the number of steps: 5 (5 months) t+1 : the number of time points of study
implementation (6 time points: before starting the study (time point 1), after month 1 (time
point 2), after month 2 (time point 3), etc.)
5. MEASUREMENTS
Measurements included in the study are:
1. Drug-Related Problem (DRP);
2. The number of interventions;
3. TB outcome;
4. Adherence;
5. Persistence;
6. Quality of life;
8) Direct costs; 9) Indirect costs.
;
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