The lateral dotted line in the graphic represents the cutoff of 40% of normal G6PD activity applied to separate those positive or negative for G6PD deficiency.

The graphic also shows the slightly lower frequency of false negatives among CSG, and the higher frequency of false positives, especially at levels immediately higher than 40% of normal G6PD activity. Table II lists the test outcomes and statistics for the sensitivity and specificity www.selleckchem.com/products/INCB18424.html of the FST and CSG when using ≤40% of normal G6PD activity as the threshold of positivity for G6PD deficiency. The analysis tends to affirm the trends seen in the scatter plot of Fig 3, that is, equality of sensitivity in the FST and CSG (90% vs 96%; P = 0.19) and lesser specificity in the CSG (89% vs 75%; P = 0.01). In brief, the CSG performed as well as the FST in detecting G6PD deficiency at ≤40% of normal, but more often misclassified higher levels of activity as positive for deficiency. Fig 4 and Fig 5 illustrate FST and CSG positivity across the range of G6PD activity levels that naturally occur among patients in both the hemizygous and heterozygous states. The essentially similar findings across CuCl treatments (either variable concentrations or variable proportions of treated

RBCs) affirm the dependence of qualitative diagnostic outcomes on net G6PD activity in RBC suspensions. In buy Tanespimycin other words, the presence of uninhibited G6PD enzyme did not overcome the effects of variable proportions of CuCl-inhibited G6PD enzyme. The model suggests that hemizygotes and heterozygotes will test as G6PD

deficient depending on the same net G6PD activity level, whether because of all RBCs being inhibited or some proportion of them. Findings in the experiments modeling the heterozygous state model suggest that both Nintedanib (BIBF 1120) the FST and CSG will perform inconsistently between the range of 40% and 70% of RBCs being G6PD deficient (at the approximately 10% of normal activity with 1.0-mM CuCl treatment). The odds of being classified as deficient increased in proportion to the diminishing net G6PD activity within that range. The laboratory findings reported here demonstrate noninferiority of a point-of-care screening device for G6PD deficiency (CSG) compared with a screening kit routinely used in the laboratory (FST). CSG has the enormous advantage over FST of appearing suitable for use in the impoverished rural tropics. The successful distribution and use of such a device may finally provide access to antirelapse therapy with primaquine to millions of patients otherwise suffering repeated attacks of acute vivax malaria. Definitive validation of that suitability and adequate diagnostic performance must await large scale, real world assessments in patients with G6PD deficiency and vivax malaria. The current laboratory findings lend to making the substantial investments required to do so.