Malaria Clinical Trial
Official title:
Effect of Paracetamol on Renal Function in Plasmodium Knowlesi Malaria: A Randomised Controlled Clinical Trial
Acute kidney injury is a common complication of severe Plasmodium knowlesi malaria, and an
important contributor to mortality.
The exact pathogenic mechanisms of AKI in knowlesi malaria are not known, however it is
hypothesised that haemolysis of red blood cells and subsequent release of cell-free
haemoglobin leads to oxidative stress and lipid peroxidation in the renal tubules.
A novel mechanism of paracetamol was recently demonstrated, showing that paracetamol acts as
a potent inhibitor of hemoprotein-catalyzed lipid peroxidation. In a proof of concept trial,
paracetamol at therapeutic levels was shown to significantly decrease oxidative kidney injury
and improve renal function by inhibiting the hemoprotein-catalyzed lipid peroxidation in a
rat model of rhabdomyolysis-induced renal injury.
The investigators hypothesize that this novel inhibitory mechanism of paracetamol may provide
renal protection in adults with knowlesi malaria by reducing the hemoprotein-induced lipid
peroxidation that occurs in haemolytic conditions. As there is currently no consensus that
exists concerning adequate medical treatment for severe malaria complicated by intravascular
haemolysis and AKI, the potential application of paracetamol would be of benefit, especially
as it is safe and widely available.
Plasmodium knowlesi is the most common cause of malaria, and malaria deaths, in Sabah,
Malaysia. Acute kidney injury (AKI) is a common feature of severe knowlesi malaria; however
the mechanisms of AKI in knowlesi malaria are unknown. In falciparum malaria, recent evidence
suggests that oxidative stress from haemolysis-related cell-free haemoglobin (CFHb) may
contribute to pathogenesis of AKI.
Cell-free haemoglobin and oxidative stress: CFHb is released during intravascular haemolysis,
and when exceeding the binding capacity of plasma haptoglobin, is filtered by the glomeruli
and enters the renal tubules. CFHb is pathogenic as the ferrous heme can be oxidized to the
ferric state, conferring peroxidase activity to the hemoglobin. Consequently, the hemoglobin
can reduce hydroperoxides, such as hydrogen peroxide (H2O2) and lipid hydroperoxides, which
generate the ferryl state of heme (FeIV=O) and a protein radical. The ferryl heme and protein
radical can then generate lipid radicals by oxidation of free and phospholipid-esterified
unsaturated fatty acids. The arachidonic side chains of membrane phospholipids are
particularly vulnerable to this free radical-mediated damage in the complex cascade of lipid
oxidation leading to the generation of F2-isoprostanes (F2-IsoPs) and isofurans (IsoFs).
F2-IsoPs and IsFs are increased in severe falciparum malaria, and have been shown to induce
vasoconstriction associated with renal injury in other haemolytic conditions including
rhabdomyolysis, sepsis and post-operatively.
Paracetamol and oxidative stress: A novel mechanism of paracetamol was recently demonstrated,
showing that paracetamol acts as a potent inhibitor of hemoprotein-catalyzed lipid
peroxidation by reducing ferryl heme to its less toxic ferric state and quenching globin
radicals. In a proof of concept trial, paracetamol at therapeutic levels was shown to
significantly decrease oxidative kidney injury and improve renal function by inhibiting the
hemoprotein-catalyzed lipid peroxidation in a rat model of rhabdomyolysis-induced renal
injury. In a retrospective study of patients with sepsis, receiving paracetamol in the
setting of raised CFHb was associated with reduced lipid peroxidation, and reduced risk of
death. More recently, in a randomized placebo-controlled trial, paracetamol was associated
with a reduction in F2-IsoPs and improved renal function in adults with sepsis and detectable
CFHb.
Rationale: The investigators hypothesize that paracetamol may provide renal protection in
patients with severe knowlesi malaria by reducing the hemoprotein-induced lipid peroxidation
that occurs in haemolytic conditions. As there is currently no consensus that exists
concerning adequate medical treatment for severe malaria complicated by intravascular
haemolysis and AKI, the potential application of paracetamol would be of great benefit,
especially as it is safe and widely available.
Proposed activities: The main activity proposed is a randomised, open label, controlled trial
of regularly-dosed paracetamol, versus no paracetamol, in patients with knowlesi malaria, to
assess the effect of paracetamol on renal function and oxidative stress.
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