Frequency Of Glucose-6-phosphate Dehydrogenase Deficiency Research Articles

Characterization of G6PD genotypes and phenotypes on the northwestern Thailand-Myanmar border.

Mutations in the glucose-6-phosphate dehydrogenase (G6PD) gene result in red blood cells with increased susceptibility to oxidative damage. Significant haemolysis can be caused by primaquine and other 8-aminoquinoline antimalarials used for the radical treatment of Plasmodium vivax malaria. The distribution and phenotypes of mutations causing G6PD deficiency in the male population of migrants and refugees in a malaria endemic region on the Thailand-Myanmar border were characterized. Blood samples for G6PD fluorescent spot test (FST), G6PD genotyping, and malaria testing were taken from 504 unrelated males of Karen and Burman ethnicities presenting to the outpatient clinics. The overall frequency of G6PD deficiency by the FST was 13.7%. Among the deficient subjects, almost 90% had the Mahidol variant (487G>A) genotype. The remaining subjects had Chinese-4 (392G>T), Viangchan (871G>A), Açores (595A>G), Seattle (844G>C) and Mediterranean (563C>T) variants. Quantification of G6PD activity was performed using a modification of the standard spectrophotometric assay on a subset of 24 samples with Mahidol, Viangchan, Seattle and Chinese-4 mutations; all samples showed a residual enzymatic activity below 10% of normal and were diagnosed correctly by the FST. Further studies are needed to characterise the haemolytic risk of using 8-aminoquinolines in patients with these genotypes.

Complement Activation in Paroxysmal Nocturnal Hemoglobinuria (PNH) Causes Oxidative Damage Which May Affect Response to Eculizumab

PNH is a rare acquired clonal disorder of the hematopoietic stem cell, characterized by a somatic mutation that inactivates the X-linked PIGA gene: this in turn results in deficiency on the cell surface of all proteins anchored by the glycosylphosphatidylinositol (GPI) molecule. Two of these proteins,CD55 andCD59, are complement regulators and their deficiency is responsible for the susceptibility of red cells (RBCs) from the mutant clone to lysis by activated complement. Since oxidative damage is another well-known mechanism of hemolysis (as in G6PD deficient red cells), we have investigated whether this plays a role also in PNH.To this end, we have carried out experiments on RBCs from healthy donors and on PNH-like RBCs (obtained in vitro from the same donors through the use of anti-CD55 and anti-CD59 blocking moAb). After exposure to AB0-compatible serum (in which thecomplement alternative pathway was activated by mild acidification) all PNH-like (but not normal) RBCs were lysed. In parallel experiments in which complement was blocked by eculizumab (ECU) - a moAb that binds to the complement component C5 and controls intravascular hemolysis in PNH patients - we measured the levels of reactive oxygen species (ROS) by the dichlorofluorescin diacetate assay. We found no significant difference of ROS levels between normal RBCs and PNH-like RBCs. We next tested in a similar way G6PD-deficient RBCs, because these are known to be exquisitely sensitive to oxidative damage. We found that ROS levels were significantly higher in the G6PD deficient RBCs that have been made PNH-like (Fig. 1). Thus, complement activation on the surface of PNH-like RBCs results in the production of ROS that can be demonstrated when C5-blockade prevents complement-mediated lysis of RBCs.The notion that G6PD deficiency can interact with PNH was strongly corroborated by the clinical observation of a 40yo woman from Sardinia (Italy) with a 2 years history of pancytopenia, who then developed florid hemolytic PNH: she had anemia with normal granulocyte and platelet counts, dark urine, high reticulocytosis, LDH up to 5x upper normal level, 95% GPI-negative granulocytes. When the patient was started on ECU. LDH levels promptly returned to normal, PNH RBCs rose from 20% (before ECU) to 42%, but reticulocyte count (~250x109/L) and blood transfusion requirement remained high (10 units in the last year). 39% of the GPI-negative RBCs had bound C3 fragments The peripheral blood smear revealed marked macro-anisocytosis, poikilocytosis, spherocytes, and hemighosts: a picture consistent with oxidative damage as seen in G6PD deficient patients during a hemolytic attack. The RBC G6PD activity was about one-half of normal (5 IU/g Hb), and DNA analysis revealed heterozygosity for the G6PD Mediterranean (Med) mutation. By mRNA sequence analysis we found that the GPI-negative clone expressed only the G6PD Med allele, suggesting that the PIG-A mutation took place in a stem cell in which the normal G6PD gene was on the inactive X-chromosome (G6PD, like PIG-A, is on the X chromosome); therefore, all the patients’ PNH RBCs were also all G6PD deficient.We have previously shown that the clinical expression of PNH can be influenced by inherited factors: specifically, a polymorphism of the complement receptor 1 (CR1) gene correlates with the blood transfusion requirement of patients on ECU (Rondelli et al, Haematologica 2014). However, the patient here reported was homozygous for the more favorable allele ofCR1. Instead, in keeping with our experimental data, the poor response to ECU seen in this patient results probably from a unique interaction, within the same population of RBCs, between the acquired PNH abnormality and her inherited G6PD deficiencyThis type of interaction is novel and it seems to have pharmacogenetic implications. Indeed, on its own G6PD deficiency affects mildly the clinical expression of PNH, because complement activation causes RBC lysis regardless; however, paradoxically, when the lysis of PNH RBCs is prevented by C5 blockade, complement activation results in oxidative damage, with which PNH G6PD deficient RBCs are unable to cope.Except for one case previously reported by Oni et al (Blood 1970), this is the first detailed study of PNH associated with G6PD deficiency. Since in some parts of the world the frequency of G6PD deficiency can be as high as 30% or more, we expect that more cases of this association will be discovered in the future. [Display omitted] DisclosuresNo relevant conflicts of interest to declare.

Associations between red cell polymorphisms and Plasmodium falciparum infection in the middle belt of Ghana.

BackgroundRed blood cell (RBC) polymorphisms are common in malaria endemic regions and are known to protect against severe forms of the disease. Therefore, it is important to screen for these polymorphisms in drugs or vaccines efficacy trials. This study was undertaken to evaluate associations between clinical malaria and RBC polymorphisms to assess biological interactions that may be necessary for consideration when designing clinical trials.MethodIn a cross-sectional study of 341 febrile children less than five years of age, associations between clinical malaria and common RBC polymorphisms including the sickle cell gene and G6PD deficiency was evaluated between November 2008 and June 2009 in the middle belt of Ghana, Kintampo. G6PD deficiency was determined by quantitative methods whiles haemoglobin variants were determined by haemoglobin titan gel electrophoresis. Blood smears were stained with Giemsa and parasite densities were determined microscopically.ResultsThe prevalence of clinical malarial among the enrolled children was 31.9%. The frequency of G6PD deficiency was 19.0% and that for the haemoglobin variants were 74.7%, 14.7%, 9.1%, 0.9% respectively for HbAA, HbAC, HbAS and HbSS. In Multivariate regression analysis, children with the HbAS genotype had 79% lower risk of malaria infection compared to those with the HbAA genotypes (OR = 0.21, 95% CI: 0.06–0.73, p = 0.01). HbAC genotype was not significantly associated with malaria infection relative to the HbAA genotype (OR = 0.70, 95% CI: 0.35–1.42, p = 0.33). G6PD deficient subgroup had a marginally increased risk of malaria infection compared to the G6PD normal subgroup (OR = 1.76, 95% CI: 0.98–3.16, p = 0.06).ConclusionThese results confirm previous findings showing a protective effect of sickle cell trait on clinical malaria infection. However, G6PD deficiency was associated with a marginal increase in susceptibility to clinical malaria compared to children without G6PD deficiency.

G6PD Deficient Variants Differ in Risk of Hospitalization Among Gaza Strip Palestinian Children

AbstractAbstract 4268Glucose-6-phosphate dehydrogenase (G6PD) deficiency, affecting more than 500 million people worldwide, is one of the most common inherited disorders. There are 186 G6PD mutations published, with some that cluster within defined ethnic/racial groups, and in some populations more than one variant is encountered. These prevalent variants are generally considered to be benign in adults, but their morbidity, presenting as acute hemolytic anemia, in young children can be significant. However, comprehensive molecular characterization of ethnically prevalent G6PD mutants and their relative clinical significance is lacking.In a region where the frequency of G6PD deficiency in the population is significant (>3%) and fava beans, green and dried, are a dietary staple, the risk of acute hemolytic crisis is significant. We studied 80 consecutively hospitalized unrelated Gaza Strip Palestinian children (ages 34–52 months, mean=39.5) for acute hemolytic anemia and found G6PD deficiency accounted for most cases (65 of 80 children; 81%) and almost all occurred after ingestion of green fava beans. Molecular analyses revealed 5 separate mutations, with 3 accounting for most cases. These were G6PD Mediterraneanc.563T, African G6PD A-c.202A/c.376G, and G6PD Cairoc.404C with relative allele frequencies of 0.33, 0.26, and 0.18 respectively. The detection of G6PD Cairo in 14 unrelated hospitalized children was surprising as this variant was encountered previously only in a single Egyptian individual. This unanticipated molecular heterogeneity of G6PD variants among Gaza Strip Palestinians provided a unique opportunity to test their relative clinical significance. We compared the prevalence of these variants to a control group consisting of 466 self-reported healthy, non-anemic, unrelated Palestinian adults (46 women and 420 men; 512 X-chromosomes). Within this cohort, the proportion with the G6PD deficient variants was 3.3%. The most common mutation was G6PD A+c.376A (allele frequency 0.016), comprising 47% of the variants detected while the G6PD variants Mediterranean and A- had allele frequencies of 0.0098 and 0.0078, respectively, comprising 29.4% and 23.5% of the detected variants. G6PD Cairo was not detected. The proportion of G6PD Mediterranean and G6PD A- variants in the general population are equivalent to their representation in the hospitalized children population. However, the number of G6PD Cairo variants in the hospitalized cohort was vastly larger than that observed in the general population indicating that these carriers are at a greater risk of hospitalization (Table 1). We found a dramatically increased risk of acute hemolytic anemia requiring hospitalization associated with all three variants. Fisher’s Exact test was used to determine the association between the risk of hospital admission and presence of the variants and was significant for all at p<0.0001. Additionally, odds ratios for hospitalization are 41.1 (for G6PD A-) and 70.0 (for G6PD Mediterranean) compared to wild type [odds ratio was infinite for G6PD Cairo since it was not detected in the healthy population].This is the first study comparing the relative clinical impact of three prevalent G6PD deficient variants in the same population and habitat to identify clinically significant effects due to the different genetic mutations.Table 1:Distribution of G6PD variants in Gaza among hospitalized children vs. general Gaza populationG6PDMediterraneanA-Cairo+-+-+-Hospitalized children265421591466Healthy population346344620466Odds ratio (95% CI)70.0 (20.1–367.4)41.1 (13.1–168.2)∞Fisher's Exact p-value<0.0001<0.0001<0.0001Confidence interval (CI)-NSR and MMS contributed equally to this work. Disclosures:No relevant conflicts of interest to declare.

523 A Case Report; Brucellosis Triggering Hemolytic Anemia in Glucose-6-Phosphate Dehydrogenase Deficiency

Background and AimsGlucose-6-phosphate dehydrogenase (G6PD) deficiency is the most common red blood cell enzyme deficiency in worldwide. It may lead to acute hemolytic anemia triggered by infection, drugs or broad...

Community Expansion and Gene Geography of Sickle Cell Trait and G6PD Deficiency, and Natural Selection against Malaria: Experience from Tribal Land of India

Malaria is globally endemic in tropical and subtropical regions and so is the hemoglobinopathies, thalassemias and glucose-6-phosphate dehydrogenase (G6PD) deficiency. This biological dogma of hyper-endemic all over the tribal land in India leads to high morbidity and mortality. The directed genetic abnormalities of human erythrocytes have found to decrease the susceptibility towards malaria parasites and the heterozygotes of abnormalities probably confer protection against the Plasmodium falciparum infection. A fascinating trend for an inverse relationship between sickle cell disorders and G6PD deficiency in scheduled caste and tribal communities of Central-Eastern India has been observed. When the frequency of sickle cell allele decreases in malaria endemic cross-section of the tribal population, the frequency of G6PD deficiency allele increases and vice versa. This medical aspect is important from an evolutionary biological background and could be an excellent point for molecular analyses to determine the signature of selection in the genomic regions of β- globin and G6PD genes. Since the selection favors the mutation with least cost to the population [as the clinical manifestations of G6PD deficiency are mild and do not result in a complete loss of enzyme activity against the sickle cell disease with high morbidity and mortality in the region] and the predominant frequency of G6PD deficiency over the sickle cell disorders in some tribal communities, it seems that the replacement of sickle cell allele for G6PD deficiency is occurring in the scheduled castes/tribes of Chhattisgarh, Madhya Pradesh, Maharashtra and Odisha states in Central India. These findings are consistent with our previous studies carried out in Central-Eastern India.

G6PD Genotype and Its Associated Enzymatic Activity in a Chinese Population

Knowledge of the G6PD genotype and its associated enzyme activity is significant for population genetics, diagnosis of disease, and management of patients. We tested 2,872 unrelated subjects from a Hakka population in China for G6PD activity by the WHO standard method and for genotype by DHPLC and DNA sequencing. Among female heterozygotes, 78.5% had relatively normal enzyme activity. The phenotype frequency of G6PD deficiency is 0.028, and the causal allele frequency is 0.060 in females. The accuracy, sensitivity, and specificity of DHPLC are more than 98% for detecting G6PD-deficient hemizygotes, heterozygotes, and homozygotes. Measuring enzyme activity alone is not sufficient for the diagnosis of heterozygotes. A combination of enzyme activity and DNA analysis should be used.

Prevalence and molecular study of G6PD deficiency in Malaysian Orang Asli

This study aims to define the prevalence and the molecular basis of G6PD deficiency in the Negrito tribe of the Malaysian Orang Asli. Four hundred and eighty seven consenting Negrito volunteers were screened for G6PD deficiency through the use of a fluorescent spot test. DNA from deficient individuals underwent PCR-RFLP analysis using thirteen recognized G6PD mutations. In the instances when the mutation could not be identified by PCR-RFLP, the entire coding region of the G6PD gene was subjected to DNA sequencing. In total, 9% (44/486) of the sample were found to be G6PD-deficient. However, only 25 samples were subjected to PCR-RFLP and DNA sequencing. Of these, three were found to carry Viangchan, one Coimbra and 16, a combination of C1311T in exon 11 and IVS11 T93C. Mutation(s) for the five remaining samples are unknown. The mean G6PD enzyme activity ranged 5.7 IU/gHb in deficient individuals. Our results demonstrate that the frequency of G6PD deficiency is higher among the Negrito Orang Asli than other Malaysian races. The dual presence of C1311T and IVS11 T93C in 64% of the deficient individuals (16/44) could well be a result of genetic drift within this isolated group.

Prevalência da deficiência da glicose-6-fosfato desidrogenase em doadores de sangue de Mossoró, Rio Grande do Norte

Glucose-6-phosphate dehydrogenase (G6PD) deficiency is the most common human enzymopathy. It affects as many as 330 million individuals worldwide. This deficiency may determine neonatal jaundice, chronic nonspherocytic hemolytic anemia and acute hemolytic anemia induced by drugs, infections and broad bean ingestion. The efficacy of blood transfusion is decreased when the donor is G6PD deficient. In this study, we aimed at determining the prevalence of G6PD deficiency in blood donors of Mossoro, Brazil. Samples of 714 blood donors (576 men and 138 women; 343 white and 371 non-white) with ages ranging from 18 to 62 years and that accepted to participate in the study were analyzed. All participants answered a standard questionnaire. G6PD activity was analyzed by the methemoglobin reduction test with deficiency being confirmed by the semiquantitative test. The overall prevalence of G6PD deficiency in blood donors was 3.8%, similar to the rate described for others regions of Brazil. There was no significant statistical difference in the frequency of G6PD deficiency between men and women, nor between white and non-white blood donors. This relatively high frequency of G6PD deficiency highlights a need to screen blood donors for this condition.

Glucose-6-Phosphate Dehydrogenase Deficiency in Danguria Tharu Settled in Baharaich District of Uttar Pradesh

The present study reports the frequency of G6PD deficiency among the Danguria Tharus of Uttar Pradesh settled at Baharaich district in the tarai region where malaria is prominent. The analyses of data indicate that 23.21% Tharu males are G6PD deficient. In females the deficiency is partial and confined to 12.5% females only. The available literature on the subject reveals that prevalence of G6PD deficiency ranges among different Indian populations from 0- 27%. Danguria Tharus have a higher frequency of G6PD deficiency.

Glucose-6-Phosphate Dehydrogenase Deficiency in an Endemic Area for Malaria in Manaus: A Cross-Sectional Survey in the Brazilian Amazon

BackgroundThere is a paucity of information regarding glucose-6-phosphate dehydrogenase (G6PD) deficiency in endemic areas for malaria in Latin America.Methodology/Principal FindingsThis study determined the prevalence of the G6PD deficiency in 200 male non-consanguineous individuals residing in the Ismail Aziz Community, on the outskirts of Manaus (Brazilian Amazon). Six individuals (3%) were deficient using the qualitative Brewer's test. Gel electrophoresis showed that five of these patients were G6PD A−. The deficiency was not associated with the ethnic origin (P = 0.571). In a multivariate logistic regression analysis, G6PD deficiency protected against three or more episodes of malaria (P = 0.049), independently of the age, and was associated with a history of jaundice (P = 0.020) and need of blood transfusion (P = 0.045) during previous treatment for malarial infection, independently of the age and the previous malarial exposure.Conclusions/SignificanceThe frequency of G6PD deficiency was similar to other studies performed in Brazil and the finding of a predominant G6PD A− variant will help the clinical management of patients with drug-induced haemolysis. The history of jaundice and blood transfusion during previous malarial infection may trigger the screening of patients for G6PD deficiency. The apparent protection against multiple malarial infections in an area primarily endemic for Plasmodium vivax needs further investigation.

Glucose-6-Phosphate Dehydrogenase (G6PD) Deficiency in Nonarteritic Anterior Ischemic Optic Neuropathy in a Sardinian Population, Italy

Glucose-6-phosphate dehydrogenase (G6PD) deficiency is one of the most common human genetic abnormalities, with a high prevalence in Sardinia, Italy. Evidence indicates that G6PD-deficient patients are protected against ischemic heart and cerebrovascular disease and retinal vein occlusion. The purpose of this study was to assess the frequency of G6PD deficiency in Sardinian patients with nonarteritic anterior ischemic optic neuropathy (NAION) and ascertain whether G6PD deficiency may offer protection against NAION. Erythrocyte G6PD activity was determined by using a quantitative assay in 140 patients with NAION and 280 age- and gender-matched comparison patients. Conditional logistic regression models were used to investigate the association between G6PD deficiency and NAION. G6PD deficiency was found in 7 (5%) patients with NAION and 34 (12.1%) control subjects. Differences between cases and controls were statistically significant (P = 0.02). Conditional logistic regression analysis, including as covariates G6PD deficiency, hypertension, diabetes, and hypercholesterolemia, revealed that G6PD deficiency was significantly associated with decreased risk for NAION (odds ratio [OR] = 0.4, 95% confidence interval [CI] = 0.17-0.94, P = 0.035). Conditional logistic regression analyses, including systolic or diastolic blood pressure and plasma glucose and cholesterol levels confirmed that G6PD deficiency was associated with a decreased risk for NAION, but the ORs were not significant at the 0.05 significance level (P = 0.085 and P = 0.071). Models including gender x G6PD deficiency interaction disclosed that gender was not an effect modifier of G6PD deficiency (P > 0.20). The frequency of G6PD deficiency in patients with NAION was significantly lower than expected. Results suggest that G6PD-deficient patients in the Sardinian population have a significantly decreased risk of having NAION.

Prevalence of β-Thalassemia Trait and Glucose-6-Phosphate Dehydrogenase Deficiency in Iranian Jews

beta-thalassemia is the most common inherited single gene disorder worldwide, and glucose-6-phosphate dehydrogenase (G6PD) deficiency is the most common human enzyme deficiency. The goal of this study was to compare the frequency of beta-thalassemia trait and G6PD among the Moslem and Jewish populations in Shiraz, southern Iran. We examined 201 Moslems and 187 Jewish subjects who were selected by random sampling. For diagnosis of thalassemia, complete blood count and hemoglobin electrophoresis were carried out and for G6PD deficiency, fluorescent spot test methods were used as a screening test. Among Moslem subjects, 14 cases (7.0%) were diagnosed as carriers of beta-thalassemia minor, whereas no carriers were detected among Jewish subjects. Seven Moslems (7%) and eight Jewish subjects (7.5%) were found to have G6PD deficiency. Among both groups the most common mutation was the Mediterranean type (563 C>T). In one Moslem subject, the detected mutation was 1003 (G>A) and in two Jewish subjects the mutations were 1376 (G>T) and G6PD A-. Whereas the frequency of beta-thalassemia minor among Moslems is higher than in the Jews in Shiraz, the frequency of G6PD deficiency was not significantly different in the two populations. These findings suggest that obligatory premarital beta-thalassemia screening for Jews in the community is not necessary, whereas neonatal screening for G6PD could be useful for both Jews and Moslems.

Glucose-6-Phosphate Dehydrogenase Deficiency in Retinal Vein Occlusion

Glucose-6-phosphate dehydrogenase (G6PD) deficiency is one of the most common human genetic abnormalities, with a high prevalence in Sardinia, Italy. Evidence indicates that G6PD-deficient patients are protected against ischemic heart and cerebrovascular disease. The purpose of this study was to assess the frequency of G6PD deficiency in Sardinian patients with retinal vein occlusion (RVO) and to ascertain whether the deficiency may offer protection against RVO. Erythrocyte G6PD levels were measured in 448 consecutive RVO patients: 194 with central RVO (CRVO) and 254 with branch RVO (BRVO). Age- and sex-matched subjects (n = 896) who were undergoing cataract surgery and had no history of RVO served as the control. Multiple logistic regression models were used to investigate the association between G6PD deficiency and RVO, CRVO, or BRVO. G6PD deficiency was found in 21 (4.7%) patients with RVO, 7 (3.6%) with CRVO, 14 (5.5%) with BRVO, and 107 (11.9%) control subjects. Differences between cases and controls were statistically significant (P < 0.005). Multiple conditional logistic regression analysis, including as covariates G6PD deficiency, hypertension, diabetes, and hypercholesterolemia, revealed that G6PD deficiency was significantly associated with decreased risk of development of RVO, CRVO, or BRVO. After adjustment for hypertension, diabetes, and hypercholesterolemia, the association between G6PD deficiency and RVO, CRVO, or BRVO remained statistically significant. Similar results were obtained after adjustment for systolic or diastolic blood pressure, plasma glucose, and cholesterol levels. However, when the patients with CRVO or BRVO were categorized by gender, a significant association was found only in the women. The frequency of G6PD deficiency in patients with RVO was significantly lower than expected. The results suggest that G6PD-deficient patients have a significantly decreased risk of development of RVO in the Sardinian population.

Frequency of malaria and glucose-6-phosphate dehydrogenase deficiency in Tajikistan

BackgroundDuring the Soviet era, malaria was close to eradication in Tajikistan. Since the early 1990s, the disease has been on the rise and has become endemic in large areas of southern and western Tajikistan. The standard national treatment for Plasmodium vivax is based on primaquine. This entails the risk of severe haemolysis for patients with glucose-6-phosphate dehydrogenase (G6PD) deficiency. Seasonal and geographical distribution patterns as well as G6PD deficiency frequency were analysed with a view to improve understanding of the current malaria situation in Tajikistan.MethodsSpatial and seasonal distribution was analysed, applying a risk model that included key environmental factors such as temperature and the availability of mosquito breeding sites. The frequency of G6PD deficiency was studied at the health service level, including a cross-sectional sample of 382 adult men.ResultsAnalysis revealed high rates of malaria transmission in most districts of the southern province of Khatlon, as well as in some zones in the northern province of Sughd. Three categories of risk areas were identified: (i) zones at relatively high malaria risk with high current incidence rates, where malaria control and prevention measures should be taken at all stages of the transmission cycle; (ii) zones at relatively high malaria risk with low current incidence rates, where malaria prevention measures are recommended; and (iii) zones at intermediate or low malaria risk with low current incidence rates where no particular measures appear necessary. The average prevalence of G6PD deficiency was 2.1% with apparent differences between ethnic groups and geographical regions.ConclusionThe study clearly indicates that malaria is a serious health issue in specific regions of Tajikistan. Transmission is mainly determined by temperature. Consequently, locations at lower altitude are more malaria-prone. G6PD deficiency frequency is too moderate to require fundamental changes in standard national treatment of cases of P. vivax.

Molecular characterization of G6PD deficiency in Cyprus

In the present study, we determined the frequency of glucose-6-phosphate dehydrogenase (G6PD) deficiency in Cyprus using two different procedures in two separate adult population groups: a semiquantitative fluorescence test on blood spotted on filter paper and a quantitative spectrophotometric test on liquid blood. The frequency of G6PD deficiency among healthy adult males was found to be 5.1% using the semiquantitative procedure and 6.4% using the quantitative procedure. Neither method was able to detect all the expected female heterozygotes (5.3% and 47.1% of the expected number, respectively). A total of 21 male hemizygotes, 1 female homozygote and 9 female heterozygotes that tested positive for G6PD deficiency were studied at the molecular level. All 32 chromosomes were genotyped and five different mutations were identified. The Mediterranean mutation in exon 6 (563C→T) (Ser188Phe) was found to be the most common variant in the Cypriot population, accounting for 52.6% of the deficient alleles. In the remaining chromosomes, four different mutations were identified: three known mutations, Kaiping 1388G→A (Arg463His), Chatham 1003G→A (Ala335Thr) and Acrokorinthos 463C→G (His155Asp), and one previously undescribed mutation in exon 3, 148C→T (Pro50Ser), which we called G6PD Kambos. We conclude that the frequency of G6PD deficiency in Cypriot males is 6.4%, and that this deficiency is the result of several different mutations. Although all the individuals carrying the Mediterranean variant can be detected using a semiquantitative screening method, a quantitative enzyme measurement is required to detect the G6PD variants with less severe enzyme deficiencies, while the most appropriate method for heterozygote detection is DNA analysis.

Pyruvate Kinase, Glucose 6-phosphate Dehydrogenase and Glutathione Reductase Deficiencies and Neonatal Jaundice in Basrah, Iraq

Hyperbilirubinemia is a common problem of term and preterm neonates. Two hundred four jaundiced neonates admitted to Basrah Maternity and Childrens Hospital over a 6-month period were studied to determine the frequency of pyruvate kinase (PK) deficiency, glucose-6-phosphate dehydrogenase (G6PD) deficiency and glutathione reductase (GSSG-R) deficiency. Forty two neonates (20.5%) had PK deficiency, 68 (33.3%) G6PD deficiency and 40 (19.6%) GSSG-R deficiency. Interaction of more than one enzymopathy was found in 36 neonates (17.6%). Other hemolytic causes of jaundice were ABO incompatibility in 50 (24.5%) of neonates and Rh. incompatibility in 18 (8.8%). In 38 neonates no cause of jaundice was identified. There was a statistically significant increase in the frequency of G6PD deficiency and more than one enzymopathy with increasing severity of jaundice. The highest frequency of kenricterus was found in those with more than one enzymopathy. Red cell enzymopathies are an important cause of jaundice in Iraqi neonates and the presence of more than one enzymopathy carries a greater risk of developing severe jaundice.

Glucose-6-Phosphate Dehydrogenase Deficiency: A Worldwide Potential Cause of Severe Neonatal Hyperbilirubinemia

After completing this article, readers should be able to: 1. Explain methods of preventing the hyperbilirubinemia caused by glucose-6-phosphate dehydrogenase (G6PD) deficiency. 2. Compare and contrast the correlation between hemolysis and serum bilirubin levels in healthy infants and those who are G6PD-deficient. 3. Describe the role of deficient bilirubin conjugation in the pathogenesis of G6PD deficiency-associated neonatal hyperbilirubinemia. 4. Define the risk for neonatal hyperbilirubinemia in female G6PD-deficient heterozygotes, G6PD-deficient homozygotes, and hemizygote males. Glucose-6-phosphate dehydrogenase (G6PD) deficiency, a commonly occurring X-linked genetic enzyme defect, is notorious for its association with acute hemolytic crises occurring in response to a frequently identifiable trigger (favism). Another potentially devastating danger of this condition is severe neonatal hyperbilirubinemia with its accompanying bilirubin encephalopathy, kernicterus, and death. Far from being a condition limited to historical time epochs and developing countries, G6PD deficiency-associated kernicterus still is seen in modern times. Indeed, among 80 infants from 21 states in the United States documented in a pilot Kernicterus Registry between 1984 and 1998, 18 (22.5%) were reported to have G6PD deficiency. Furthermore, Maisels recently listed G6PD deficiency among the 10 factors that are associated most commonly with an increased risk of nonhemolytic jaundice. Because of the association with favism, G6PD-associated hyperbilirubinemia traditionally has been regarded as hemolytic in origin. However, recent research has shown that although acute hemolysis does play a role, its contribution in many cases may be smaller than previously thought. The emphasis now has been placed on decreased bilirubin conjugation, with promoter polymorphism for the gene for the bilirubin conjugating enzyme, UDP glucuronoslytransferase 1A1 (UGT1A1), being a major factor in production of the icterus. In this review we highlight key aspects of the pathogenesis of this type of hyperbilirubinemia, explain the relevance of the condition, and describe a particularly problematic group that has a recently recognized high incidence of …

Glucose-6-Phosphate Dehydrogenase Deficiency and Neonatal Jaundice in Al-Hofuf Area

Glucose-6-Phosphate Dehydrogenase Deficiency and Neonatal Jaundice in Al-Hofuf Area

A social-demographic, isonymic and genetic investigation on an isolated Calabrian village

The unlikely high frequency of G6PD deficiency which we found in a mountain village (San Giovanni in Fiore: province of Cosenza — Calabria, Southern Italy), with respect to the mean frequency of the other mountain villages in the same province, led us to carry out some investigations on the population of this village to understand this difference. The historical analysis, together with the social-demographic, endogamic and isonymyc study revealed the isolation of this village; while, the analysis of the allele frequencies of AK, ADA, 6PGD, PGM1, ABO and Rh markers revealed no significant differences if compared to the rest of the province. But the AK*5 variant which we found in ten unrelated subjects with a frequency of 0.0104, allows us to hypothesise together with the high G6PD frequency a random genetic drift effect on this village.