Coinheritance of Hb Adana with Hb constant spring: A case report
Introduction: Compound heterozygosity of non deletional alpha thalassemia often have more severe presentation compared with coinheritance of non deletional alpha thalassemia with deletional alpha thalassemia. The prevalence of non-deletional alpha thalassemia co inheritance, specifically the Hb Adan...
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| Language: | en |
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2022
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| Online Access: | http://irep.iium.edu.my/100098/13/100098_Coinheritance%20of%20Hb%20Adana%20with%20Hb%20Constant%20Spring%20A%20case%20report.pdf http://irep.iium.edu.my/100098/ |
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| author | Abdul Halim, Sarah A.Talib, Norlelawati Nasiruddin, Dhamirah Muhd Helmi, Muhd Alwi |
| author_facet | Abdul Halim, Sarah A.Talib, Norlelawati Nasiruddin, Dhamirah Muhd Helmi, Muhd Alwi |
| author_sort | Abdul Halim, Sarah |
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| content_provider | International Islamic University Malaysia |
| content_source | IIUM Repository (IREP) |
| continent | Asia |
| country | Malaysia |
| description | Introduction: Compound heterozygosity of non deletional alpha thalassemia often have more severe presentation compared with coinheritance of non deletional alpha thalassemia with deletional alpha thalassemia. The prevalence of non-deletional alpha thalassemia co inheritance, specifically the Hb Adana/Hb Constant Spring in Malaysia is around 0.4%1. Haemoglobin Adana (Hb Adana) arises from point mutation of Codon 59 of either alpha 1 or alpha 2 gene, which will lead to substitution of GlyAsp, and leads to instability of the haemoglobin molecule. (HBA1: c.179G>A or HBA2: c.179G>A)2. Haemoglobin Constant Spring (Hb CS) on the other hand is an abnormal haemoglobin caused by a mutation at the termination codon of α2-globin gene. Hb Adana is most commonly seen in the Malay population whilst Hb CS is seen in the Chinese populations. For both, the carriers are clinically asymptomatic, and, the diagnosis of Hb Adana is challenging as the protein is not detectable on routine haemoglobin analysis. Non deletional alpha thalassemia, in combination with the deletional mutations mostly have mild-to-moderate anaemia. In contrast, patients who were compound heterozygotes non deletional mutations, generally will have more severe anaemia, and much earlier presentation, usually in childhood 3. We present here, an infant with Hb Adana/Hb CS who presented at three months old with severe anaemia.
Case report: An eight-month-old female infant presented at three months of age with severe anaemia and hepatosplenomegaly. Hb at presentation was 4.5 g/dL and the blood film showed microcytosis with marked anisopoikilocytosis with prominent basophilic stippling. Capillary electrophoresis performed revealed lowered Hb A (86.9%), raised Hb F (9.2%) and abnormal peak at Zone C (2.4%). Molecular study performed with ARMS PCR revealed co- inheritance of Hb Constant-Spring and Hb Adana, whilst GAP PCR revealed no deletional mutations. Both parents are asymptomatic. Capillary electrophoresis of her father showed small peak at Zone C (0.6%) with heterozygous Hb Constant Spring detected on ARMS PCR. As for the mother, the haemoglobin analysis revealed no abnormality, however, non deletional missense mutation of Codon 59 was detected on ARMS PCR. No deletional mutation was detected on GAP PCR for both parents. This baby is currently needing monthly blood transfusion, with the aim of stem cell transplant after 1 year of age.
Discussion: This case illustrates the severity of coinheritance of non deletional alpha thalassemia in an infant. Because the phenotype of patients with coinheritance of Hb Adana with other alpha thalassemia are varied, it can be difficult to predict clinically the prognosis in terms of blood transfusion requirements and growth. The phenotype largely depends on whether HBA 1 or HBA 2 gene is affected. Codon 59-point mutation affecting HBA 2 gene has generally more severe phenotype. Although Hb Adana that was originally described in Turkey affected the HBA 1 gene, Hb Adana in Malaysia and Indonesia by far affected the HBA 2 gene4. Since Malaysia and Indonesia share common cultures and are in the same region, it is not surprising that the same location of the mutation is observed. This is contributed by the diversity of α thalassemia mutations, with the process of natural selection and genetic drift.
Conclusion: Coinheritance of non deletional alpha thalassemia should be considered in a multi-ethnic population like Malaysia. There is a need for early recognition of these patients to ensure appropriate monitoring, treatment and family planning can be inculcated. |
| format | Proceeding Paper |
| id | my.iium.irep-100098 |
| institution | Universiti Islam Antarabangsa Malaysia |
| language | en |
| publishDate | 2022 |
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| spelling | my.iium.irep-1000982022-12-22T09:53:14Z http://irep.iium.edu.my/100098/ Coinheritance of Hb Adana with Hb constant spring: A case report Abdul Halim, Sarah A.Talib, Norlelawati Nasiruddin, Dhamirah Muhd Helmi, Muhd Alwi RC633 Specialties of Internal Medicines- Diseases of The Blood and Blood-forming Organs. Hematologic Diseases Introduction: Compound heterozygosity of non deletional alpha thalassemia often have more severe presentation compared with coinheritance of non deletional alpha thalassemia with deletional alpha thalassemia. The prevalence of non-deletional alpha thalassemia co inheritance, specifically the Hb Adana/Hb Constant Spring in Malaysia is around 0.4%1. Haemoglobin Adana (Hb Adana) arises from point mutation of Codon 59 of either alpha 1 or alpha 2 gene, which will lead to substitution of GlyAsp, and leads to instability of the haemoglobin molecule. (HBA1: c.179G>A or HBA2: c.179G>A)2. Haemoglobin Constant Spring (Hb CS) on the other hand is an abnormal haemoglobin caused by a mutation at the termination codon of α2-globin gene. Hb Adana is most commonly seen in the Malay population whilst Hb CS is seen in the Chinese populations. For both, the carriers are clinically asymptomatic, and, the diagnosis of Hb Adana is challenging as the protein is not detectable on routine haemoglobin analysis. Non deletional alpha thalassemia, in combination with the deletional mutations mostly have mild-to-moderate anaemia. In contrast, patients who were compound heterozygotes non deletional mutations, generally will have more severe anaemia, and much earlier presentation, usually in childhood 3. We present here, an infant with Hb Adana/Hb CS who presented at three months old with severe anaemia. Case report: An eight-month-old female infant presented at three months of age with severe anaemia and hepatosplenomegaly. Hb at presentation was 4.5 g/dL and the blood film showed microcytosis with marked anisopoikilocytosis with prominent basophilic stippling. Capillary electrophoresis performed revealed lowered Hb A (86.9%), raised Hb F (9.2%) and abnormal peak at Zone C (2.4%). Molecular study performed with ARMS PCR revealed co- inheritance of Hb Constant-Spring and Hb Adana, whilst GAP PCR revealed no deletional mutations. Both parents are asymptomatic. Capillary electrophoresis of her father showed small peak at Zone C (0.6%) with heterozygous Hb Constant Spring detected on ARMS PCR. As for the mother, the haemoglobin analysis revealed no abnormality, however, non deletional missense mutation of Codon 59 was detected on ARMS PCR. No deletional mutation was detected on GAP PCR for both parents. This baby is currently needing monthly blood transfusion, with the aim of stem cell transplant after 1 year of age. Discussion: This case illustrates the severity of coinheritance of non deletional alpha thalassemia in an infant. Because the phenotype of patients with coinheritance of Hb Adana with other alpha thalassemia are varied, it can be difficult to predict clinically the prognosis in terms of blood transfusion requirements and growth. The phenotype largely depends on whether HBA 1 or HBA 2 gene is affected. Codon 59-point mutation affecting HBA 2 gene has generally more severe phenotype. Although Hb Adana that was originally described in Turkey affected the HBA 1 gene, Hb Adana in Malaysia and Indonesia by far affected the HBA 2 gene4. Since Malaysia and Indonesia share common cultures and are in the same region, it is not surprising that the same location of the mutation is observed. This is contributed by the diversity of α thalassemia mutations, with the process of natural selection and genetic drift. Conclusion: Coinheritance of non deletional alpha thalassemia should be considered in a multi-ethnic population like Malaysia. There is a need for early recognition of these patients to ensure appropriate monitoring, treatment and family planning can be inculcated. 2022-09-06 Proceeding Paper NonPeerReviewed application/pdf en http://irep.iium.edu.my/100098/13/100098_Coinheritance%20of%20Hb%20Adana%20with%20Hb%20Constant%20Spring%20A%20case%20report.pdf Abdul Halim, Sarah and A.Talib, Norlelawati and Nasiruddin, Dhamirah and Muhd Helmi, Muhd Alwi (2022) Coinheritance of Hb Adana with Hb constant spring: A case report. In: Malaysian Genetic Conference Kuala Lumpur, 7-9 September 2022, Nexus @ Bangsar. (Unpublished) |
| spellingShingle | RC633 Specialties of Internal Medicines- Diseases of The Blood and Blood-forming Organs. Hematologic Diseases Abdul Halim, Sarah A.Talib, Norlelawati Nasiruddin, Dhamirah Muhd Helmi, Muhd Alwi Coinheritance of Hb Adana with Hb constant spring: A case report |
| title | Coinheritance of Hb Adana with Hb constant spring: A case report |
| title_full | Coinheritance of Hb Adana with Hb constant spring: A case report |
| title_fullStr | Coinheritance of Hb Adana with Hb constant spring: A case report |
| title_full_unstemmed | Coinheritance of Hb Adana with Hb constant spring: A case report |
| title_short | Coinheritance of Hb Adana with Hb constant spring: A case report |
| title_sort | coinheritance of hb adana with hb constant spring: a case report |
| topic | RC633 Specialties of Internal Medicines- Diseases of The Blood and Blood-forming Organs. Hematologic Diseases |
| url | http://irep.iium.edu.my/100098/13/100098_Coinheritance%20of%20Hb%20Adana%20with%20Hb%20Constant%20Spring%20A%20case%20report.pdf http://irep.iium.edu.my/100098/ |
| url_provider | http://irep.iium.edu.my/ |