P. Knowlesi Trial of Artemether-lumefantrine vs Chloroquine (CAN KNOW)

Naturally acquired infections with Plasmodium knowlesi, the fifth human malaria, are growing [1]. Since 2004 increasing numbers of cases have been reported from residents and returned travelers predominantly from Malaysia and other countries in South-East Asia including Thailand, Vietnam, Myanmar, Singapore, Indonesia and the Philippines [2-8]. Cases coincide with the geographic distribution of its natural simian hosts (long-tailed and pig-tailed macaques) and Anopheles leucosphyrus group mosquito vector [9, 10], with potential human-to-human transmission unknown. Eastern Malaysia appears to be the epicentre, with around 1400 PCR-confirmed P. knowlesi human mono-infections reported in 2009, comprising 41% of 2,189 total malaria cases in Sarawak [11] and 343 cases from selected samples sent to Sabah's State Reference Laboratory [12]. P. knowlesi is also now the most common cause of malaria in different contrasting regions, including 70% of malaria admissions in the heavily forested area of Kapit in Sarawak [1, 13], 63% of samples from the interior division of Sabah [14], and in 87% of malaria admissions in the deforested coastal area of Kudat in Sabah, where it is also the major cause of malaria in children [15].

Despite the increase in reported incidence, difficulties with microscopic diagnosis and a lack of PCR based epidemiological surveillance studies throughout South-East Asia mean the true disease burden is underestimated. P. knowlesi is microscopically misidentified as P . falciparum and P. malariae due to morphological similarities in the early trophozoite, and late trophozoite and schizont life stages respectively, with studies showing up to 80% of P. malariae [16-19] and 7-12% of P. falciparum [1, 16] in this region are actually P. knowlesi when definitively evaluated with PCR. Misdiagnosis has concerning treatment implications, as unlike P. malariae, knowlesi malaria has a rapid 24-hour replication rate and can cause hyperparasitaemia, severe complications and fatal outcomes [13, 17, 18], while the inadvertent use of chloroquine for widely chloroquine-resistant P. falciparum may also have fatal consequences.

Naturally acquired infections with Plasmodium knowlesi, the fifth human malaria, are growing [1]. Since 2004 increasing numbers of cases have been reported from residents and returned travelers predominantly from Malaysia and other countries in South-East Asia including Thailand, Vietnam, Myanmar, Singapore, Indonesia and the Philippines [2-8]. Cases coincide with the geographic distribution of its natural simian hosts (long-tailed and pig-tailed macaques) and Anopheles leucosphyrus group mosquito vector [9, 10], with potential human-to-human transmission unknown. Eastern Malaysia appears to be the epicentre, with around 1400 PCR-confirmed P. knowlesi human mono-infections reported in 2009, comprising 41% of 2,189 total malaria cases in Sarawak [11] and 343 cases from selected samples sent to Sabah's State Reference Laboratory [12]. P. knowlesi is also now the most common cause of malaria in different contrasting regions, including 70% of malaria admissions in the heavily forested area of Kapit in Sarawak [1, 13], 63% of samples from the interior division of Sabah [14], and in 87% of malaria admissions in the deforested coastal area of Kudat in Sabah, where it is also the major cause of malaria in children [15].

Despite the increase in reported incidence, difficulties with microscopic diagnosis and a lack of PCR based epidemiological surveillance studies throughout South-East Asia mean the true disease burden is underestimated. P. knowlesi is microscopically misidentified as P . falciparum and P. malariae due to morphological similarities in the early trophozoite, and late trophozoite and schizont life stages respectively, with studies showing up to 80% of P. malariae [16-19] and 7-12% of P. falciparum [1, 16] in this region are actually P. knowlesi when definitively evaluated with PCR. Current rapid diagnostic tests (RDT) for malaria can distinguish falciparum Current rapid diagnostic tests (RDT) for malaria can distinguish falciparum from other Plasmodium species with a sensitivity of up to 99% at parasite counts > 1,000/ μL [20], but a knowlesi specific antigen has not been developed and current antibody panels are unable to differentiate between P. knowlesi and other mixed Plasmodium spp. infections [21]. Misdiagnosis has concerning treatment implications, as unlike P. malariae, knowlesi malaria has a rapid 24-hour replication rate and can cause hyperparasitaemia, severe complications and fatal outcomes [13, 17, 18], while the inadvertent use of chloroquine for widely chloroquine-resistant P. falciparum may also have fatal consequences.

Artemether-lumefantrine (A-L) is a common and widely available ACT, and along with artesunate-mefloquine (AS-MQ) is one of only 2 first line WHO recommended options for the treatment of uncomplicated P.falciparum infection which are registered in Malaysia and produced according to international good manufacturing practice (GMP) standards. ACTs are the current mainstay of malaria eradication efforts 28, with a mechanism of action resulting both in a rapid reduction in parasite mass and resolution of clinical features, while the long acting component eliminates residual parasites and delays the development of de novo resistance 29,30.

Initial reported use of A-L for knowlesi malaria was from our retrospective study at a tertiary referral hospital in Sabah, where a small sample size of 8 out of 34 patients with PCR confirmed uncomplicated P.knowlesi infection were treated with oral artemether-lumefantrine. Median microscopic parasite clearance time was 1 day (range 0-3), which was significantly faster than those receiving chloroquine (median 2.5 days, range 1-3), while this also resulted in fewer days of hospitalization and health sector associated costs. The proportion remaining parasitaemic at day 1 was 33% 16. Our subsequent prospective study at the same site documented 109 knowlesi malaria patients successfully treated with A-L, with no recurrences identified. Unpublished data from this study showed that of the patients with uncomplicated P. knowlesi malaria enrolled, 51 received A-L monotherapy, with a median parasite clearance time of 2 days31.

Evaluation of A-L is required in addition to AS-MQ, as there are a number of pharmacokinetic and pharmacodynamic differences that may affect clinical outcomes. In contrast to AS-MQ, adequate oral absorption of A-L requires co-adminstration with fatty foods, with twice daily dosing28. The longer acting partner drug in A-L is lumefantrine, which has a half life of 3 days compared to mefloquine in AS-MQ which is 21 days. Therefore there may be differences in P. knowlesi recurrence at day 28 or 42 as the follow up time recommended by WHO for anti-malarial efficacy monitoring studies 32.

Chloroquine with primaquine was initially suggested to have favourable treatment outcomes for uncomplicated P. knowlesi human infections after a retrospective review of patients from Kapit Hospital in Sarawak in 2004 15. Following this a single prospective observational study conducted at the same site between 2006-7 administered chloroquine as a total base dose of 25mg/kg and primaquine as a gametocidal agent to 73 patients with uncomplicated PCR-confirmed P. knowlesi malaria, with results showing median fever clearance of 26 hours, mean times to 50% and 90% microscopic parasite clearance of 3.1 and 10.3 hours respectively, and a median PCR adjusted clearance time of 3 days. The proportion remaining parasitaemic at day 1 was 55%. None of the 60 patients who completed the 28-day follow up demonstrated any evidence of resistance, re-infection or recrudescence 25.