Evaluation of Reactive Focal Mass Drug Administration for Malaria Elimination in Swaziland (fMDA)

Evaluating the Effectiveness and Feasibility of Reactive Focal Mass Drug Administration vs. Reactive Case Detection as a Community Level Intervention in Response to a Passively Identified Index Malaria Case in Swaziland

This is a cluster randomised controlled trial comparing the impact of two community based malaria interventions: reactive case detection (RACD) vs reactive targeted presumptive treatment (focal mass drug administration, fMDA) on the incidence of malaria in Swaziland.

Title Evaluating the effectiveness and feasibility of reactive focal mass drug administration (fMDA) vs. reactive case detection (RACD) as a community level intervention in response to a passively identified index malaria case in Swaziland Study design Cluster randomised controlled trial Aims Primary aim: To compare the impact of fMDA versus RACD on malaria incidence. Secondary aims Effectiveness: To compare the impact of fMDA versus RACD on seroprevalence. To compare the impact of fMDA versus RACD on prevalence of infection. Feasibility: To evaluate the safety of fMDA. To measure the adherence of DHAp using a modified DOT regimen. To determine the feasibility of reaching 80% coverage for fMDA. To compare the acceptability of fMDA. To compare the costs and cost-effectiveness of fMDA versus RACD. Study site Eastern endemic region of Swaziland, a very low endemic malaria elimination setting. A total of 287 health facilities and their catchment areas are located in this area. Time frame September 2015 - August 2017 Cluster or unit of randomisation At-risk localities will be randomized to either fMDA or RACD using a block stratified randomization based on risk rank and population Target area Individuals residing within 200 m (fMDA arm) or 500 m (RACD arm) of an index case detected in passive surveillance, individuals residing immediately beyond 200 m in the fMDA arm will be included if a minimum of 30 individuals are not enrolled within 200 m. Intervention All individuals residing in study localities will receive vector control preventative measures as per program. In the fMDA arm, all individuals in the target area will receive dihydroartemisinin-piperaquine (DHAp) once daily for 3 days with the first dose taken no later than 5 weeks from the index case presentation (goal within one week). Individuals in RACD target areas will be tested by RDT and taken to the nearest health facility for treatment as per program operating procedures. Evaluation methods The primary outcome measure of incidence will be obtained through routine surveillance data. Secondary outcomes of effectiveness will be measured at study conclusion by collecting a dried blood spot (DBS) from all residents in target areas in both arms. Prevalence of infection will be measured by loop-mediated isothermal amplification (LAMP) and seroprevalence measured by quantifying markers of recent malaria exposure. Secondary outcomes of feasibility will be measured as follows: Safety: number of serious adverse events deemed possibly, probably, or definitely related to DHAp. Adherence: proportion of individuals who completed three days of therapy among all individuals initiated on DHAp in the fMDA arm, assessed by pill count. Coverage: proportion of individuals residing within 200m (fMDA localities) or 500m (RACD localities) of an index case who consented to participate and who completed the initial procedures for their study arm (initial dose of DHAp in the fMDA arm or finger prick for RDT in the RACD arm). Acceptability: proportion of eligible individuals refusing to take part in the study and a qualitative assessment of a subset of individuals in the fMDA arm. Cost: cost per index case-level intervention and cost per case averted. Sample size The sample size is based on the number of study localities that experienced at least one incident case of malaria in the previous season. Within 77 randomized localities, we expect that 63 localities will have an incident case of malaria and receive an intervention. For the primary objective, we hypothesize that mFDA will be more effective than RACD. At the current sample size, the study is powered to detect a difference in cumulative incidence if incidence in the fMDA arm is reduced 50% compared to the RACD arm. Incidence will be measured at the locality level and among the at-risk population, or all individuals in an enumeration area (EA) where at least one case was identified (expected to be approximately 55,928 individuals among a total study population of 211,189, or a harmonic mean of 656 per locality (41,328 effective population)). Secondary outcomes of seroprevalence and prevalence will be measured on individuals residing in target areas (total N=5,400) with a harmonic mean of 60 persons receiving intervention per locality (3,780 effective population). Primary outcome Incidence of malaria cases Secondary outcomes Seroprevalence by ELISA Prevalence of infection Coverage of the intervention: proportion of the target population that receives a finger prick in the RACD arm and receives an initial dose of DHAp in the TPE arm (intention to treat analysis). Adherence to DHAp in TPE arm. Safety of DHAp Acceptance Cost per intervention episode, per case averted

Individuals in RACD Target Areas will be tested by RDT (rapid diagnostic test) and if positive, taken to the nearest health facility for treatment with artemether-lumefantrine per national policy.

In the fMDA arm, all individuals in the Target Area will receive dihydroartemisinin-piperaquine (DHAp) once daily for 3 days with the first dose taken no later than 5 weeks from the index case presentation (goal within one week).

In the fMDA arm, all individuals in the target area will receive dihydroartemisinin-piperaquine (DHAp) once daily for 3 days with the first dose taken no later than 5 weeks from the index case presentation (goal within one week).

Individuals in RACD target areas will be tested by RDT and if positive will be taken to the nearest health facility for treatment as per program operating procedures.

Proportion of persons residing within approximately 200 m of the index case who consented to participate in the study and who completed the initial procedures for their study arm (finger prick for RDT (rapid diagnostic test) in the RACD arm, initial dose of DHAp in the fMDA arm)

Proportion of persons who completed 3 days of therapy among all individuals initiated on fMDA as assessed by pill count in the first intervention per study locality

Number of participants experiencing serious adverse events (SAEs) deemed possibly, probably, or definitely related to DHAp

Cost per index case-level intervention, cost per case averted, collected in 10 RACD and 10 fMDA events.

RACD Inclusion Criteria: Index case resides in study locality All non-index cases that reside or spent at least one night in the Target Area in the past 5 weeks Non-index case resides within 200 meters of index case unless study team was not able to recruit 30 individuals by 3rd visit, in which case non-index case individuals may reside up to 500 meters from index case Provide informed consent RACD Exclusion Criteria: Refusal to participate Target Area overlaps with prior RACD Target Area from within the past 5 weeks fMDA Inclusion Criteria: Index case resides in study locality All non-index cases that reside or have spent at least one night in the Target Area in the past 5 weeks Non-index case resides within 200 meters of index case unless study team was not able to recruit 30 individuals by 3rd visit, in which case non-index case individuals may reside up to 500 meters from index case Provide informed consent fMDA Exclusion Criteria: Refusal to participate Temperature > 38.0⁰C, report of fever in the past 48 hours, or other illness (will be referred to the nearest health facility for further evaluation) fMDA Target Area overlaps with prior Target Area within the past 8 weeks For fMDA specifically (though still eligible for follow-up blood survey): Pregnancy, breastfeeding, and women who have had menarche but no menses in the past 4 weeks Children less than 6 months of age or <5 kg Known allergy or history of adverse reaction to DP (still eligible for f/u blood surveys) Already taken 2 courses of DP in the past year or taken 1 course within the past 2 months Moderate or severe renal or hepatic insufficiency Currently with severe malaria Family history of sudden death or of congenital prolongation of the QTc (correct QT interval) interval. Known congenital prolongation of the QTc-interval or any clinical condition known to prolong the QTc interval. History of symptomatic cardiac arrhythmias or with clinically relevant bradycardia. Any predisposing cardiac conditions for arrhythmia such as severe hypertension, left ventricular hypertrophy (including hypertrophic cardiomyopathy) or congestive cardiac failure accompanied by reduced left ventricle ejection fraction. Electrolyte disturbances, particularly hypokalaemia, hypocalcaemia or hypomagnesaemia (including vomiting in child) Taking medicinal products that are known to prolong the QTc interval. See note for list of drugs. Recent treatment with medicinal products known to prolong the QTc interval that may still be circulating at the time that Eurartesim is commenced (e.g. mefloquine, halofantrine, lumefantrine, chloroquine, quinine and other antimalarial agents) taking into account their elimination half-life NOTE: Medicinal products that are known to prolong the QTc interval include: Antiarrhythmics (e.g. amiodarone, disopyramide, dofetilide, ibutilide, procainamide, quinidine, hydroquinidine, sotalol). Neuroleptics (e.g. phenothiazines, sertindole, sultopride, chlorpromazine, haloperidol, mesoridazine, pimozide, or thioridazine), antidepressive agents. Certain antimicrobial agents, including agents of the following classes: - macrolides (e.g. erythromycin, clarithromycin), - fluoroquinolones (e.g. moxifloxacin, sparfloxacin), - imidazole and triazole antifungal agents, - and also pentamidine and saquinavir. Certain non-sedating antihistamines (e.g. terfenadine, astemizole, mizolastine). Cisapride, droperidol, domperidone, bepridil, diphemanil, probucol, levomethadyl, methadone, vinca alkaloids, arsenic trioxide

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