CASE SERIES: Here, we reported five cases of this disorder with different clinical presentations from two tertiary hospitals in Kelantan state, Malaysia within a two year-period. Most of them were elderly, except for one who presented at the age of 36 years old. No direct or secondary cause was identified except for one patient who had developed from pregnancy-related at 3 weeks postpartum. These patients presented with spontaneous bleeding typically into skin, muscles, and mucous membranes but also at rare site in the epidural space. All patients denied previous history of bleeding or family history of bleeding disorder. FVIII activities were recorded between <1% to 19%, while the inhibitor titre levels were between 3.9 BU to 340 BU. The treatment approaches especially at presentation were complicated by unfamiliarity of managing this rare condition but all these patients received appropriate medical attention.
DISCUSSION: Prompt diagnosis and management in the right hand are critical. Awareness of this disorder by medical personnel at all levels in the community and in various specialties is important.
MATERIALS AND METHODS: In this cross-sectional study, 144 blood donors were selected under stratified random sampling. The deoxyribonucleic acid was extracted from whole blood samples, followed by a polymerase chain reaction assay. Sanger sequencing was used to identify the specific MNS variants and then validated by a serological crossmatch with known anti-Mur and anti-MUT.
RESULTS: GP. Mur was identified among Malaysian blood donors with a prevalence of 6.94%, and no other variants of the MNS system were found.
CONCLUSION: The present study substantiates that GP. Mur is the main variant of the MNS system glycophorin (B-A-B) hybrid in Malaysian blood donors. GP. Mur-negative red blood cells must therefore be considered in the current transfusion policy in order to prevent alloimmunization and immune-mediated transfusion reactions, particularly in transfusion-dependent patients.
METHODS: For this cross-sectional study, patient blood samples that showed a positive peak in zone 2 of CE were selected. Hemoglobin and DNA of the samples were investigated to ascertain the presence and levels of non-deletional and deletional α thalassemia. The results were statistically analyzed.
RESULTS: Of the 137 samples investigated, 118 (86.1%) were positive for termination codon Hb CS mutation. Heterozygous Hb CS was found in 92 (67.2%), compound heterozygous Hb CS in 22 (16.1%), and homozygous Hb CS in four (2.9%) samples. The ranges of Hb CS level for heterozygous Hb CS, compound heterozygous Hb CS, and homozygous Hb CS were within 0.2-2.7%, 0.3-2.2%, and 4.5-5.5%, respectively. Significant hematological differences in the Hb level, mean cell volume, mean cell hemoglobin, red cell distribution width, red blood cell count, and Hb CS level were observed between heterozygous, homozygous, and compound heterozygous Hb CS.
CONCLUSIONS: In view of the overlapping prevalence range of Hb CS level for heterozygous and compound heterozygous Hb CS, only Hb CS level within the range 4.5-5.5% was helpful in the diagnosis of homozygous Hb CS.