TY - JOUR
T1 - Glucose and lactate turnover in adults with falciparum malaria: effect of complications and antimalarial therapy
AU - Davis, Timothy
AU - Binh, T.Q.
AU - Thu, L.T.A.
AU - Long, T.T.A.
AU - Johnston, W.
AU - Barrett, Hugh
PY - 2002
Y1 - 2002
N2 - Hypoglycaemia and lactic acidosis are potentially life-threatening, poorly understood sequelae of Plasmodium falciparum infections. We investigated relationships between clinical status, treatment, and glucose and lactate kinetics during management of falciparum malaria in 14 Vietnamese adults. Nine had severe malaria, of whom 4 were administered quinine (Group la) and 5 artesunate (Group 1b). Five uncomplicated cases received artesunate (Group 2). Glucose and lactate turnover were studied on 3 occasions: (i) immediately after initial antimalarial treatment, (ii) at parasite clearance a median of 3 days later, and (iii) at discharge from hospital a median of 9 days post-admission. Steady-state glucose and lactate kinetics were derived from plasma isotopic enrichment during a primed-continuous infusion of D-[6,6-D-2] glucose and a parallel infusion of L-[1-C-13]lactate. Group la patients had the lowest plasma glucose concentrations in the admission study (median [range] 3(.)9 [3(.)6-5(.)1] vs 6(.)3 [4-9(.)7-1] and 4(.)5 [4(.)3-5(.)5] mmol/L in Groups 1b and 2 respectively; P <0(.)05 vs Group 1b), but glucose production rates and serum insulin concentrations that were similar to those in the other groups (P > 0.17). This was also the case at parasite clearance and suggested an inappropriate beta cell response. Group la patients had the highest admission lactate production (60 [36-77] vs 26 [21-47] and 22 [4-31] mumol/kg.min in Groups lb and 2 respectively; P <0.05 vs Group 2). Amongst the 9 severe cases, there was an inverse association between plasma glucose and lactate production at admission and parasite clearance (P <0.05), but no correlation between admission lactate production and serum bicarbonate (P = 0(.)73). The present data confirm previous studies showing that quinine depresses plasma glucose through stimulation of insulin secretion. It is hypothesized that the low plasma glucose activates Na+,K+-ATPase through increased plasma catecholamine concentrations, leading to accelerated glycolysis and increased lactate production in well-oxygenated tissues. In some severely ill patients with falciparum malaria, a raised plasma lactate on its own may, therefore, be an unreliable index of a developing acidosis.
AB - Hypoglycaemia and lactic acidosis are potentially life-threatening, poorly understood sequelae of Plasmodium falciparum infections. We investigated relationships between clinical status, treatment, and glucose and lactate kinetics during management of falciparum malaria in 14 Vietnamese adults. Nine had severe malaria, of whom 4 were administered quinine (Group la) and 5 artesunate (Group 1b). Five uncomplicated cases received artesunate (Group 2). Glucose and lactate turnover were studied on 3 occasions: (i) immediately after initial antimalarial treatment, (ii) at parasite clearance a median of 3 days later, and (iii) at discharge from hospital a median of 9 days post-admission. Steady-state glucose and lactate kinetics were derived from plasma isotopic enrichment during a primed-continuous infusion of D-[6,6-D-2] glucose and a parallel infusion of L-[1-C-13]lactate. Group la patients had the lowest plasma glucose concentrations in the admission study (median [range] 3(.)9 [3(.)6-5(.)1] vs 6(.)3 [4-9(.)7-1] and 4(.)5 [4(.)3-5(.)5] mmol/L in Groups 1b and 2 respectively; P <0(.)05 vs Group 1b), but glucose production rates and serum insulin concentrations that were similar to those in the other groups (P > 0.17). This was also the case at parasite clearance and suggested an inappropriate beta cell response. Group la patients had the highest admission lactate production (60 [36-77] vs 26 [21-47] and 22 [4-31] mumol/kg.min in Groups lb and 2 respectively; P <0.05 vs Group 2). Amongst the 9 severe cases, there was an inverse association between plasma glucose and lactate production at admission and parasite clearance (P <0.05), but no correlation between admission lactate production and serum bicarbonate (P = 0(.)73). The present data confirm previous studies showing that quinine depresses plasma glucose through stimulation of insulin secretion. It is hypothesized that the low plasma glucose activates Na+,K+-ATPase through increased plasma catecholamine concentrations, leading to accelerated glycolysis and increased lactate production in well-oxygenated tissues. In some severely ill patients with falciparum malaria, a raised plasma lactate on its own may, therefore, be an unreliable index of a developing acidosis.
U2 - 10.1016/S0035-9203(02)90377-9
DO - 10.1016/S0035-9203(02)90377-9
M3 - Article
SN - 0035-9203
VL - 96
SP - 411
EP - 417
JO - Transactions of the Royal Society of Tropical Medicine and Hygiene
JF - Transactions of the Royal Society of Tropical Medicine and Hygiene
IS - 4
ER -