Objective To determine the regional- and district-level newborn prevalence of sickle cell trait and disease, and the prevalence of haemoglobin variants and genetic modifiers of sickle cell disease, in the nine regions of north-western United Republic of Tanzania. Methods We repurposed dried blood spot samples from children (aged 0–24 months) born to mothers living with human immunodeficiency virus (HIV), collected as part of the HIV Early Infant Diagnosis programme, for sickle cell diagnosis. We performed isoelectric focusing to determine whether samples had normal haemoglobin, sickle cell trait, sickle cell disease or a rare haemoglobin variant. We shipped samples diagnosed as disease or variant to Cincinnati Children’s Hospital in the United States of America for deoxyribonucleic-acid-based analyses to determine the prevalence of α-thalassaemia, glucose-6-phosphate dehydrogenase (G6PD) deficiency or fetal haemoglobin genetic modifiers. Findings We analysed a total of 17 200 specimens during February 2017–May 2018. We observed a prevalence of sickle cell trait and disease of 20.3% (3492/17 200) and 1.2% (210/17 200), respectively. District-level trait varied from 8.6% (5/58) to 28.1% (77/274). Among confirmed sickle cell disease specimens, we noted 42.7% (61/143) had 1-gene deletion and 14.7% (21/143) had 2-gene deletion α-thalassaemia trait. We documented G6PD A – deficiency in 19.2% (14/73) of males. Conclusion Our calculated prevalence is twice as high as previously reported and reinforces the need for enhanced sickle cell diagnostic services. Our district-level data will inform public health policy, allowing screening and disease-modifying hydroxyurea therapy to be focused on high-prevalence areas, until universal newborn screening is available.
Tanzania ranks third in Africa for the estimated number of annual births with sickle cell disease, but these estimates are based on sparse data from small studies reported over the past 50 years. A recently completed surveillance study from Uganda documented substantial variation in the prevalence of sickle cell trait and disease across the country. Tanzania lacks a national newborn screening program, and no contemporary multi-regional screening of infants has been undertaken. We designed and conducted a prospective study to determine the prevalence of sickle cell trait and disease by region and district in northwest Tanzania, where the prevalence of sickle cell is thought to be highest. The study used existing public health infrastructure while building local capacity for accurate diagnosis of sickle cell disease. Secondary objectives included characterization of hemoglobin variants and exploration of associations between sickle cell trait, sickle cell disease, malaria, and HIV. The Tanzania Sickle Surveillance Study (TS3) is a prospective cross-sectional study of HIV-exposed infants born in 9 regions across the Lake Zone of northwest Tanzania. In Tanzania, the HIV early infant diagnosis (EID) program collects dried blood spots (DBS) from all children born to HIV-infected mothers. DBS are transported to a central laboratory for prompt detection of HIV vertical transmission. In northwest Tanzania, the DBS are transported to Bugando Medical Centre, a teaching and consultancy hospital in Mwanza, where they are tested for HIV and then stored on-site, and thus available for further testing. Isoelectric focusing (IEF) equipment was donated to Bugando Medical Centre along with reagents and supplies. Two laboratory staff were trained by a board certified hematologist, and then attended a two day seminar by the IEF manufacturer. One pediatrician completed a 2-month observership at Cincinnati Children's Hospital. All DBS samples were tested by IEF using appropriate controls. Completed gels were scored independently by two Tanzanian staff members as normal, disease, trait, variant, or uninterpretable. DBS samples scored as disease or variant were repeated for confirmation and preserved for later genotyping. Regular Skype calls were convened with US-based collaborators to improve quality and interpretation. HIV test results were obtained from the local EID program. Between February 2017 and May 2018, 232 IEF gels were completed by the local staff. After children >24 months of age were excluded to obtain a more accurate newborn prevalence, the median age of children tested was 52 days (IQR 41-93 days), and a total of 17,278 unique DBS samples were scored. The quality of laboratory testing was extremely high with only 20 samples scored as uninterpretable and 54 with missing results, and the primary analysis was performed on the 17,204 remaining samples. The overall prevalence of sickle cell trait and disease in the entire cohort was 20.3% and 1.2%, respectively, with a 0.1% prevalence of hemoglobin variants. This corresponds to an allelic frequency of 0.114 for the sickle gene mutation and demonstrates perfect Hardy-Weinberg equilibrium. No HbC or other common beta-globin variants were identified. Geospatial mapping revealed some variation across regions, with sickle trait ranging from 16.6% to 22.5% and disease ranging from 0.5% to 1.5%. Analysis of individual districts with >100 samples revealed wider geographic variability, with sickle trait ranging from 15.2% to 27.8% and disease ranging from 0.0% to 4.3%. Co-morbidity between HIV and sickle cell disease was analyzed to compare it with the effect on mortality previously observed in Uganda. The prevalence of sickle cell disease was the same among HIV-infected and HIV-negative children (1.2%), suggesting no difference in mortality. The prevalence of sickle cell trait and disease among infants born in northwest Tanzania is very high, exceeding 20% trait and 1.2% disease. All regions in the Lake Zone are affected possibly due to lack of immigration to the area and similar environmental exposures. Targeted newborn screening can be started in high prevalence districts, using existing public health infrastructure with minimal start-up cost and training. Future work will evaluate the correlation between historical malaria prevalence and sickle cell prevalence, and identify hemoglobin variants. Disclosures Ware: Addmedica: Research Funding; Novartis: Membership on an entity's Board of Directors or advisory committees; Bristol Myers Squibb: Research Funding; Agios: Other: advisory board; Global Blood Therapeutics: Other: advisory board; Biomedomics: Research Funding; Nova Laboratories: Consultancy.
Introduction: Sickle cell anemia (SCA) is highly prevalent in sub-Saharan Africa with >300,000 annual births, and substantial morbidity and mortality due to limited resources. The burden of stroke in this population is of particular concern, given the devastating clinical and neurocognitive sequelae of these events. Hydroxyurea, a potent disease modifying therapy for SCA, is safe and feasible for low-resource and malarial endemic countries within sub-Saharan Africa and when used at maximum tolerated dose (MTD), decreases the incidence of acute painful vaso-occlusive events, infections, malaria, transfusions, hospitalizations, and death. Whether hydroxyurea can prevent primary stroke in SCA within Africa has not yet been determined, due in part to lack of stroke screening programs using transcranial Doppler (TCD) ultrasonography. If effective, hydroxyurea would have even more therapeutic benefits for children with SCA, particularly in settings where blood is not available, affordable, or safe. We designed the Stroke Prevention with Hydroxyurea Enabled through Research and Education (SPHERE) trial to determine the stroke risk among Tanzanian children using TCD screening and to investigate the effects of hydroxyurea to reduce that risk. Methods: The SPHERE trial (NCT03948867) is a single center prospective phase 2 open-label screening and treatment pilot study at Bugando Medical Centre, a teaching and referral hospital in Mwanza, Tanzania. Children 2-16 years old with SCA consented to TCD screening by locally trained and certified examiners; recent febrile illness, red cell transfusion, or hospitalization were temporary exclusions. Study participants with maximum Time-Averaged Mean Velocity (TAMV) on TCD exam categorized as conditional (170-199 cm/sec) or abnormal (≥200 cm/sec) are offered hydroxyurea with escalation to MTD, while those with normal TCD screening exams will be rescreened annually. Hydroxyurea is initiated at ~20 mg/kg/day using 500 mg capsules and a weekly dosing calculator, then escalated every 8 weeks by 5 mg/kg/day up to 35 mg/kg/day. Children on hydroxyurea are seen monthly during dose escalation and every 3 months after reaching MTD. The primary endpoint is change in TCD velocity after 12 months of hydroxyurea therapy. Secondary endpoints include changes in splenic volume and filtrative function; change in renal function; incidence of infection, especially malaria; hydroxyurea pharmacokinetics; and genetic modifiers of disease including pharmacogenomics. Results: From April 2019 to April 2020, a total of 202 children underwent TCD screening, exceeding the projected enrollment pace and goal (Figure). The average age (mean ± SD) at enrollment was 6.8 ± 3.5 years, and 53% were female. A majority had previous dactylitis (75%), painful vaso-occlusive episode (93%), blood transfusion (68%), and malaria (89%). Recurrent hospitalization was common with 30% having >5 previous hospitalizations. Only 4% had previously used hydroxyurea. Baseline labs included hemoglobin = 7.8 ± 1.3 g/dL, HbF = 9.3 ± 5.4 %, and ANC = 5.5 ± 2.4 x 109/L. Baseline assessment revealed a palpable spleen in 46 children (23%), and most of these (29) were ≥5 cm below the costal margin. Abdominal ultrasonography documented splenic tissue in 91% of children with an average volume of 101 ± 123 mL (range 8-1045). TCD examinations were performed in all children at enrollment with average TAMV of 148 ± 27 cm/sec [median 144, IQR 130-169 cm/sec] with 76% normal, 21% conditional, 2% abnormal, and 1% inadequate exams. Of 47 children eligible for hydroxyurea for elevated TCD velocities, 45 successfully initiated treatment, while 1 lived too far away for regular visits, and 1 had low blood counts from acute splenic sequestration and died before initiating study treatment. Conclusion: Children with SCA in Tanzania have a high risk for primary stroke. Identification of elevated TCD velocities through screening by local trained certified examiners, coupled with initiation of hydroxyurea treatment with dose escalation to MTD, offers a feasible and affordable means by which to lower TCD velocities and reduce primary stroke risk. Now fully enrolled, SPHERE has built local clinical capacity, research infrastructure and high-quality TCD screening, and will prospectively determine the benefits of hydroxyurea for stroke prevention, as a prelude for expanding hydroxyurea access for children with SCA in Tanzania. Figure Disclosures No relevant conflicts of interest to declare.
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