Evaluation of Abnormal Hemoglobin Variants and Hemoglobinopathies on D-10 analyzer – An Institutional Experience from North India.

Background: High performance liquid chromatography (HPLC) is the most commonly used method for detection and quantitative estimation of hemoglobin variants. Hemoglobinopathies are amongst the most common genetically inherited disorders, however, the exact magnitude of different hemoglobinopathies is obscure in India. This study was done with the aim of analyzing the different findings in HPLC using D-10 analyzer and evaluating the spectrum of different hemoglobin disorders in a hospital-based population of South Delhi. Such a prevalence study would be useful to review the various strategies that can be implemented for effective control and prevention of these disorders. Methods: A hospital based descriptive observational study was conducted in which all OPD and IPD patients who were advised HPLC during their clinical workup were included. Analysis of EDTA blood samples was done by Bio Rad D10 Dual program HPLC instrument. The exact percentage of HbA, HbA2, HbF and any other variant hemoglobin was estimated. Presumptive identification of hemoglobin variants was made primarily by their percentage, retention time (RT) and peak characteristics. HPLC findings were correlated with the clinical history, family history and the CBC and peripheral smear findings in all cases. Results: On HPLC analysis, 79% of the patients had no abnormality detected and the report was within normal limits. The commonest hemoglobinopathy was Beta Thalassemia Trait followed by HbE trait. The other hemoglobinopathies detected were HbD Punjab Heterozygous (3 cases, 0.5%), Beta thalassemia homozygous (3 cases, 0.5%), Sickle cell Heterozygous (2 cases, 0.3%), HbJ Meerut Heterozygous (2 cases, 0.3%). One case each of Sickle cell Homozygous (0.15%), Compound Heterozygous HbS/beta thalassemia trait (0.15%), HbE Homozygous (0.15%), Compound Heterozygous HbE/beta thalassemia trait (0.15%), and Homozygous delta beta thalassemia (0.15%) were also diagnosed. Conclusion: This study gives an important insight to the present day scenario of hemoglobinopathies in patients in South Delhi in relation to the hematological profile. It highlights the chromatogram findings of different hemoglobinopathies on the D10 analyzer. The comprehensive data obtained by such series can help in the formulation and development of infrastructure and policies for hemoglobinopathy prevention, diagnosis and management.

Anti-interference hemoglobin analysis system by high performance liquid chromatography / 生物医学工程学杂志

High performance liquid chromatography (HPLC) is currently the mainstream technology for detecting hemoglobin. Glycated hemoglobin (HbA1c) is a gold indicator for diagnosing diabetes, however, the accuracy of HbA1c test is affected by thalassemia factor hemoglobin F (HbF)/hemoglobin A2 (HbA2) and variant hemoglobin during HPLC analysis. In this study, a new anti-interference hemoglobin analysis system of HPLC is proposed. In this system, the high-pressure three-gradient elution method was improved, and the particle size and sieve plate aperture in the high-pressure chromatography column and the structure of the double-plunger reciprocating series high-pressure pump were optimized. The system could diagnose both HbA1c and thalassemia factor HbF/HbA2 and variant hemoglobin, and the performance of the system was anti-interference and stable. It is expected to achieve industrialization. In this study, the HbA1c and thalassemia factor HbF/HbA2 detection performance was compared between this system and the world's first-line brand products such as Tosoh G8, Bio-Rad Ⅶ and D10 glycosylated hemoglobin analysis system. The results showed that the linear correlation between this system and the world-class system was good. The system is the first domestic hemoglobin analysis system by HPLC for screening of HbA1c and thalassemia factor HbF/HbA2 rapidly and accurately.

Haematological profile of sickle cell patients attending tertiary health care centre of southern odisha: a cross sectional study

Background: Sickle Cell Disorder (SCD) is a major health problem in India. After introduction of High-Performance Liquid Chromatography (HPLC) in MKCG Medical College, this study is first of its kind to describe haemoglobin variants of SCD. The aim of the study was to document haematological profile and pattern of haemoglobin variants in SCD patients.Methods: A Hospital based cross sectional study was conducted in Pathology department, MKCG medical college from October 2018 to May 2019. Sickle cell patients were included and patients in Sickle cell crisis or transfused with blood in last 3 months were excluded. Hematological indices were measured by Sysmex XT 2000i blood analyzer. Quantification of hemoglobin variants was done by HPLC. All data were analyzed using SPSS and Independent t-test was applied.Results: In this study 100 heterozygous and 116 homozygous cases were reported. In homozygous cases Hb were significantly low and MCV, MCH, RDW-CV were significantly high than heterozygous. Hb level was significantly lower in homozygous children. Hb F was significantly higher in children and homozygous cases. A significant positive correlation was seen between Hb and RBC in both cases.Conclusions: In homozygous cases moderate anaemia (microcytic hypochromic to normocytic hypochromic) with High Hb F and in heterozygous cases mild anaemia (microcytic hypochromic) dominated the haematological profile. Children were significantly more anaemic than adults in homozygous cases. Anisocytosis was significantly more in homozygous cases and pediatric age group. Average fetal Haemoglobin variant (Hb F) was significantly more in homozygous cases and lower in adult group in both homo and heterozygous cases.

Correct understanding of the influence of hemoglobin variants on the glycated hemoglobin value / 中华检验医学杂志

Glycated hemoglobin (HbA1c) is the golden biomarker for clinical evaluation of long-term glycemic control, and also an important basis to guide adjustments to therapy. In recent years, the World Health Organization (WHO) and many national diabetes societies have recommended HbA1c as the preferred indicator for the diagnosis of diabetes. Hemoglobin variants are one of the factors affecting HbA1c values. On the one hand, they affect the results of HbA1c by interfering with some HbA1c detection methods, on the other hand, they affect the correct interpretation of HbA1c results by changing the life span of red blood cells and (or)the hemoglobin glycation rate.

A Clue to Discovering Unstable Hemoglobin Variants via Abnormal WBC Differential Scattergrams Using the Sysmex Automated Hematology Analyzer

Incidentally, hemoglobin (Hb) variants can be detected using HbA1c tests in clinical laboratories. We found 38 patients with Hb variants after reviewing a total of 29,398 HbA1c test results from January 2017 to December 2017. While reviewing the complete blood count results of the patients (N=36) using the Sysmex XN-9000 analyzer (Sysmex, Japan), 35 patients were flagged as unremarkable with respect to differential white blood cell (WBC) counts. However, 1 patient with a normal WBC count did not obtain a differential WBC count while being flagged for an abnormal WBC scattergram in the white blood cell differential (WDF) channel. The WBC histogram showed an abnormally low fluorescent signal in the WDF channel; however, the differential WBC count was normal upon microscopic examination. After testing the patient's buffy coat suspended in normal saline and removing red blood cells (RBCs), the WBC scattergram and differential WBC count returned to normal. This finding suggests that the presence of a patient's RBCs may affect WBC scattergrams and Hb variants may interfere with the fluorescent dye in the differential WBC count. Therefore, when an abnormal WBC scattergram with an abnormally low fluorescent signal is encountered on the Sysmex XN-9000 analyzer, the presence of an Hb variant can be suspected.

Hb Heathrow β103(G5)Phe→Leu, a First Report in an Asian Patient with Erythrocytosis

Congenital erythrocytosis (CE) is a rare and heterogeneous disease. The high oxygen affinity hemoglobin (Hb) variants are the most common cause of CE. Herein, we report a Korean patient with isolated erythrocytosis. A 25-year-old man was referred to our hospital for evaluation of high Hb level (Hb 20.4 g/dL, hematocrit 58%, reticulocyte count 2.90%, white blood cell count 6.83×10⁹/L, and platelet count 195×10⁹/L). Bone marrow biopsy revealed normocellular marrow without myeloproliferative features. JAK2 (V617F, exon 12), CALR (exon 9), and MPL W515K/L mutations were not detected. P₅₀ (partial pressure at which Hb is half saturated with oxygen), which is an indicator of left-shift of oxygen dissociation curve (high oxygen affinity state), was 14.3 mm Hg (reference value 22.6–29.4 mm Hg). He was suspected to have CE. Mutation analysis of the HBB gene revealed the known Hb variant, Hb Heathrow [β103(G5)Phe→Leu]. This is the first report of Hb Heathrow in Asian.

The First Study on Nucleotide-level Identification of Hb Koriyama in a Patient with Severe Hemolytic Anemia

Hereditary hemolytic anemia comprises a group of disorders in which red blood cells are destroyed faster than they are produced in the bone marrow; various hereditary factors can cause this condition, including production of defective Hb and erythrocyte membrane. Recently, we identified Hb Koriyama, a rare Hb variant that was undetectable in Hb electrophoresis and stability tests, in a patient with severe hemolytic anemia. This is the first study to show the nucleotide-level sequence variations in Hb Koriyama. On the basis of our results, we conclude that unstable Hb may not be detectable by conventional Hb electrophoresis or stability tests. Thus, we suggest further genetic workup in cases of unexplained hereditary hemolytic anemia.

O laboratório clínico na investigação dos distúrbios da hemoglobina / The clinical laboratory in the investigation of hemoglobin disorders

As alterações na síntese da hemoglobina resultam em um grupo de distúrbios hereditários, os quais podem ser classificados como hemoglobina variante, se a alteração tiver origem em uma mutação no gene da hemoglobina, produzindo cadeias anormais, ou como talassemias, se a estrutura é normal, porém a síntese ocorre em quantidade alterada. Este trabalho tem como objetivo descrever a condução do diagnóstico laboratorial de quatro casos de distúrbios da hemoglobina, a fim de ilustrar o papel do laboratório e discutir o papel do patologista clínico como elemento de elo entre a clínica e o laboratório no processo de elucidação diagnóstica.

Defective synthesis of hemoglobin gives rise to a group of hereditary disorders. If the defect arises from a genetic mutation producing abnormal protein chains, the condition is classified as hemoglobin variant. Whereas, if the structure is normal but the synthesis is reduced, they are denominated as thalassaemia. This article aims to describe the laboratory diagnostic approach in four cases of hemoglobin disorders in order to illustrate the role of laboratories and discuss the role of clinical pathologists as a link between physicians and laboratories in diagnostic clarification.