The rationale for this in vivo diagnosis is plasma chloroquine levels taken 35 days to fall below 10 ng/mL, the minimum effective concentration of chloroquine against P. vivax. At present, no genetic markers for CRPV have been identified. Recent work by Suwanarusk demonstrated two polymorphisms: the pvmdr1 Y976F mutation and an insertion in the first exon Small Molecule Compound Library of pvcrt-o, associated with a significantly higher chloroquine inhibitory concentration.8 However, research is still going on to define the
role of these genetic polymorphisms in CRPV. Any diagnosis of CRPV is further complicated by the role of hypnozoites in P. vivax relapses. Relapse with P. vivax may represent failure to treat with primaquine, failure of primaquine therapy against hypnozoites, or recrudescence of blood-stage parasites resistant to chloroquine, assuming there has been no intervening Nutlin 3a exposure causing re-infection. In this patient’s case, we were unable to confirm if the patient did have falciparum malaria while hospitalized in Jakarta. The possibilities include initial misdiagnosis of P. vivax as P. falciparum, unrecognized mixed infection with both species, or subsequent re-infection with P. vivax. But between his second and third hospital admissions in Singapore, these three possibilities were ruled out. The very slow clearance of his parasitemia on chloroquine
(Figure 1) strongly suggests CRPV because chloroquine-sensitive P. vivax should become undetectable within 48 to
72 hours of initiating therapy.9 His relapse within 24 days of directly observed inpatient therapy consisting of chloroquine followed by primaquine eradication would confirm an in vivo diagnosis of biological resistance to chloroquine. Given the difficulties in diagnosing CRPV prior to clinical relapse, treatment decisions rely upon careful travel exposure history and epidemiological data on emerging resistance in malarial species. The Centers for Disease Control and Prevention (CDC) currently recommends quinine sulfate plus doxycycline or mefloquine instead of chloroquine for initial treatment for P. vivax acquired in Indonesia or Papua New Guinea, followed by a 14-day course Astemizole of primaquine for hypnozoite eradication.10 There are to date relatively few clinical trials supporting recommendations for CRPV treatment regimens. In an open label trial involving 243 Javanese adults and children with falciparum and vivax malaria acquired in Indonesian Papua, mefloquine had a cumulative 28-day efficacy of 99.6% compared to 82% for chloroquine against P. vivax infection, albeit with primaquine included in both arms of the study.11 Atovaquone/proguanil for 3 days was used to treat 16 patients with P. vivax and 3 patients with mixed P. vivax and P. falciparum infection with 100% response at 28 days.