Hereditary spherocytosis overview
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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]
Overview
Hereditary spherocytosis is a genetically-transmitted form of spherocytosis, an auto-hemolytic anemia characterized by the production of red blood cells that are sphere-shaped rather than donut-shaped, and therefore more prone to hemolysis.
Historical Perspective
The hereditary spherocytosis was first described in 1871 by Vanlair and Masius, where they described chronically icteric patients who had no bile in the urine, no evidence of liver disease and often splenomegaly and family history of jaundice. It is the commonest cause of inherited chronic hemolysis in the northern europe and north america.
Classification
The hereditary spherocytosis classified into 05 subtypes on the basis of underlying protein defect including; ankyrin 1, spectrin beta chain (erythrocytic), spectrin alpha chain (erythrocytic 1), band 3 and protein 4.2. It is also classified on the basis of clinical severity into mild, moderate and severe subtypes.
Pathophysiology
The defects in hereditary spherocytosis lie in the cell membrane. The proteins essential for integrity of cell membrane structure lie immediately under the lipid bilayer, horizental alpha & beta spectrin molecules form heterodimers with linkage to vertical elements including ankyrin, proteins 4.1 & 4.2 and band 3 (transmembrane protein). The shorter the lifespan of red blood cells, the worse the clinical effects. Spectrin protein is a tetramer composed of alpha & beta dimers, its deficiency is most frequently seen in hereditary spherocytosis. Spectrin deficiency can result from impaired synthesis of spectrin or from qualitative or quantitative defects in other proteins that integrate proteins into red blood cells. Ankyrin is the principal binding site for spectrin on red blood cell membrane, its deficiency leading to decreased incorporation of spectrin, leading to proportional decrease in spectrin content as well despite normal synthesis of spectrin. Band 3 deficiency is seen in 10-20% of patients with mild to moderate autosomal dominant hereditary spherocytosis and is considerably greater in older red blood cells. Protein 4.2 (Pallidin) deficiency leads to abnormal red blood cell morphology including spherocytes, elliptocytes or sphero-ovalocytes, it is relatively common in japan. Red blood cell antibodies may also have a pathogenic role in red blood cell opsonization and removal by spleen.
Causes
Hereditary spherocytosis is caused by a variety of genetic mutations. The 05 genes associated with hereditary spherocytosis include; alpha spectrin (SPTA1), beta spectrin (SPTB), ankyrin (ANK1), band 3 (SLC4A1) and protein 4.2 (EPB42). Mutations in one or more of these genes can cause membrane protein deficiency leading to hereditary spherocytosis.
Differentiating Hereditary spherocytosis overview from Other Diseases
Hereditary spherocytosis usually presents with hemolysis, therefore should be differentiated from other diseases including; autoimmune hemolysis, thermal injury, clostridial septicemia, wilson disease, hemoglobinopathies, hereditary stomatocytosis, congenital dyserythropoietic anemia type II, infantile pyknocytosis and hemolytic disease of fetus and newborn (HDFN).
Epidemiology and Demographics
Hereditary spherocytosis can present at any age with any presentation from hydrops fetalis inutero through diagnosis in the ninth decade of life, and is reported worldwide in all racial and ethnic groups. It is most common inherited anemia in northern european ancestry and north america. The reported incidence is 1 in 2000 births. Approximately 25% of all hereditary spherocytosis is autosomal recessive. It is most often diagnosed in childhood or early adulthood.
Risk Factors
There are no clearly identified risk factors for the hereditary spherocytosis, but having a positive family history is an important risk factor for the disease.
Screening
The combination of two tests; mean corpuscular hemoglobin concentration (MCHC) and erythrocyte distribution width are an excellent screening tests for hereditary spherocytosis. For young patients with the disease, a full family history, complete blood count (CBC), reticulocyte count and examination of peripheral blood smear on each parent and sibling is required to determine whether the spherocytic mutation is dominant or recessive. For individuals of childbearing age with hereditary spherocytosis, review of familial mutation and its mode of transmission is useful for discussions of likelihood of disease in children.
Natural History, Complications, and Prognosis
Hereditary spherocytosis can present at any age with any severity, ranging from hydrops fetalis in utero through diagnosis in the ninth decade of life, with variable clinical course depending upon the severity of disease. Majority of affected individuals have mild or moderate hemolysis and known family history, making the diagnosis and treatment relatively easy. Complications include; jaundice, kernicterus, pigment gallstones, hemolytic, aplastic and megaloblastic crises, splenomegaly and leukemia. The prognosis is usually good with early diagnosis, regular followup and management. Patients with mild disease may develop symptoms only with environmental triggers. Many patients who undergo splenectomy are able to maintain normal hemoglobin levels, however patients with severe hereditary spherocytosis may remain anemic postsplenectomy and require regular blood transfusions. Postsplenectomy patients are at increased risk of life threatening infections (sepsis), therefore require vaccinations and antibiotics.
Diagnosis
The diagnosis of hereditary spherocytosis can be based on physical examination, complete blood count (CBC), reticulocyte count, medical history and specific tests including eosin-5-maleimide binding (EMA) test and acidified glycerol lysis time (AGLT) test. The diagnosis can be made at any age. EMA binding test has high sensitivity and specificity for the hereditary spherocytosis. Other tests include; osmotic fragility (OF) test, pink test and ektacytometry. Gel electrophoresis analysis of erythrocyte membranes is the method of choice for diagnosis of atypical cases.
History and Symptoms
Physical Examination
Laboratory Findings
Imaging Findings:
Other Diagnostic Studies:
Treatment
Medical Therapy
- As with most inherited hemolytic anemias, treatment is directed at preventing or minimizing complications of chronic hemolysis and anemia. There are no specific treatments directed at the underlying red blood cell (RBC) membrane defect.
- If a neonate is suspected of having HS (eg, based on positive family history and neonatal jaundice), treatment can be initiated for HS without awaiting diagnostic confirmation. This may include therapy for hyperbilirubinemia and, in severe cases, transfusion or even exchange transfusion [83
- The goals of pharmacotherapy for hereditary spherocytosis are to reduce morbidity and prevent complications. Folic acid supplementation is indicated to prevent megaloblastic crisis.
Surgery
- Generally, the treatment of HS involves presplenectomy care, splenectomy, and management of postsplenectomy complications.
- In pediatric cases, splenectomy ideally should not be performed until a child is older than 6 years because of the increased incidence of postsplenectomy infections with encapsulated organisms such as S pneumoniae and H influenzae in young children.
- Partial splenectomies are increasingly used in pediatric patients, as this approach appears to both control hemolysis and preserve splenic function.
Prevention
In general, once the diagnosis and baseline severity of HS in a child are established, it is not necessary to perform repeated blood tests unless there is an additional clinical indication (such as intercurrent infection and pallor, or an increase in jaundice). A routine annual review is usually sufficient together with an open door policy for potential complications such as parvovirus infection, or abdominal pain, which may trigger investigation for gallstones.