Prevalence of the different FAB sub type of Acute Myeloid Leukemia related to hematological parameters in Sudanese

Volume 3 | Issue 1 Prevalence of the different FAB sub type of Acute Myeloid Leukemia related to hematological parameters in Sudanese Sitelbanat H.Omer*1, Kordofani AA2, Osman IM3, Musa OH4, Altayb HN5, and Bahaeldin K.Elamin6 1Department of Hematology, Al-Gad international college for medical science, Saudi Arabia 2Department of Pathology, Faculty of medicine, University of Khartoum, Khartoum, Sudan 3Department of Pathology, Faculty of medicine, Alzaiem Alazhari University, Khartoum, Sudan 4Fedail specialized hospital, Khartoum, Sudan 5College of medical laboratory science, Sudan University of Science and Technology, Khartoum, Sudan 6Department Of Microbiology, Faculty Of Medical Laboratory Sciences University Of Khartoum, Sudan *Corresponding author: Sitelbanat H.Omer, Department of Hematology, Al-Gad international college for medical science, Saudi Arabia, E-mail: setosman@hotmail.com


Introduction
Acute leukaemia can be classified in many ways.An ideal classification is one which recognizes real entities with fundamental biological differences.The FAB classification of ALL and AML is based on morphology and cytochemical staining of blasts.However, the recent classification schemes proposed by the World Health Organization (WHO) require the additional evaluation of the leukemic blasts by molecular analysis and flow cytometry.The results of these 4 methods of evaluation (i.e., morphology, staining, molecular analysis, flow cytometry) not only differentiate ALL fromAML, but also categorize the subtypes of acute leukemia.
Acute myeloid leukemia (AML), also known as acute myelogenousleukemia or acute nonlymphocytic leukemia (ANLL).It is a group of neoplastic blood disorders characterized by the proliferation and accumulation of immature haematopoietic cells in the bone marrow and blood.AML accounts for approximately 20% of acute leukaemias in children and 80% of acute leukaemia in adults [1].The incidence of AML progressively increases with age; in adults over the age of 65 years, the incidence is approximately 30 times the incidence of AML in children [2].The underlying pathophysiology in acute myeloid leukaemia (AML) consists of a maturational arrest of bone marrow cells in the earliest stages of development.The mechanism of this arrest is under study, but in Volume 3 | Issue 1 Journal of Hematology and Blood Disorders many cases, it involves the activation of abnormal genes through chromosomal translocations and other genetic abnormalities [3].There has not been any previous study addressing adult and children AML in Khartoum City.Accordingly this study was designed with the intent of providing preliminary data on different haematological and FAB subtype of adult and child AML patients in Khartoum City.
The French-American -British (FAB) classification system divides AML into eight subtypes, M0 through to M7, based on the type of cell from which the leukemia developed and its degree of maturity.This is done by examining the appearance of the malignant cells with light microscopy and/or by using cytogenetic to characterize any underlying chromosomal abnormalities.The subtypes have varying prognoses and responses to therapy.Although the WHO classification may be more useful, the system is still widely used.
Eight FAB subtypes which was subsequently revised in 1985 [3] Subtypes M0 through M5 all start in immature forms of white blood cells.M6 AML starts in immature forms of red blood cells, while M7 AML starts in immature forms of cells that make platelets.140 diagnosed patients with AML treated at RICH (the only hospital that treats acute leukemias in the region) and fadial specialist Hospital.Khartoum from December 2013 to September 2015 was enrolled in this retrospective study.It included patients of all age groups and both sexes.Exclusion criteria were the absence of complete medicalrecords or bone marrow smears for review.Secondary leukemias (cases with a past history of chemotherapy or radiotherapy or myelodysplasia) and chronic myeloid leukemia in blast crisis were also excluded.
Bone marrow aspiration was done from posterior iliac crest under strict aseptic technique and local anesthesia.A written consent was taken from patients at the time of collection.In every case, 6-8 smears were made; two of them with peripheral smears were stained by Leishman's stain.In addition following cytochemical stains were carried out on peripheral blood and bone marrow smears in each case: Sudan blackB (SBB), periodic acid-Schiff (PAS), myeloperoxidase (MPO).The microscopic morphological examination of AML is based on the recommended criteria.

Patients and Methods
The diagnosis of AML was established according to the standard practice, and was based on peripheral blood and bone marrow morphology and cytochemistry.Immunophenotyping was done where considered essential.Hematological parameters were done on Sysmex KX21 autoanalyzer.
The project was approved by ministry of health in Khartoum and Hospitals Ethics Committee.

Statistical analysis
For statistical analysis excel computer program was used to compare between the results of different subtypes of AML Of 140cases, 70 were males and 70 were females with male to female ratio1:1.The mean age was 33 years (range 3 years -101 years).47cases(33.6%)were up to the age of 18years comprising of 27 males and 20 females and their age ranges between 3 years-18 years and 93 cases (66.4%) were more than 19 years (Figure 1).Their haematological parameters are given in Table 1.The CBC showed a wide range of variation in hemoglobin concentration and platelets ranging from subnormal to normal.Their Leukocyte count also showed variation from leucopenia to hyper leukocytosis.In our study, we found AML (M3 FAB subtypes) to be the commonest comprising 41 out of 140 of total cases (29.3%).The frequency of various AML subtypes according to FAB classification is given in Figure 2.

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There is no different in pediatrics AML and adult AML in distribution of sub type of AML, which given in Table 1.Hematological parameter with different FAB sub type is seen in Table 1 and mean of hematological parameter in Table 2.

Discussion
Geographical variations have been described for age and sex distribution as well as FAB (French-American-British classification) subtypes of acute leukemias, possibly due to ethnic and environmental factors.Our study reported Promyelocytic leukemia (FAB-M3) as the most common subtype accounting for 28.5% of cases followed by M2 with 19.4% which similar to result in Iraq that reported the M3 subtype was the commonest one account for 26.9% and followed with M2 with 22.2% [15].Arber et al reported M2 as the commonest subtype followed by M5 [4].Most published data indicate the predominance of M2 as a most common subtype [5].In figure (1) below the results are compared with other series.D'Costa GG et al [6] reported M1and M2 as the most common types followed by M4 with no reported cases from M5 and M7 subtypes.Nakase et al showed AML-M4 as common subtype in Australian population compared to Japanese, where AML-M2 is Volume 3 | Issue 1 Journal of Hematology and Blood Disorders common [7].Kakepoto et al reported M4 to be the commonest followed by M2 [8].
Many of the differences in AML subtypes may be due to the subjectivity of morphologic diagnosis together with variable nature of acute myeloid leukemia Subtypes, with no real demarcation.Some genetic factors may be responsible for a particular FAB subtypes distribution of AML in our population.The other reason for this discrepancy may be patients of different ethnic group and or geographical variation.Blast cells were seen in peripheral blood in all of our patients with mean of 65%.
Male to female ratio in present study is 1:1, other studies [9] reported 1.5:1.The medium age 33 years similar to that found in thesoutheast of Brazil and studies in Saudi Arabia [9] and Pakistan [10] but lower than the median agereported in western countries where AML peaks in incidence after the 6 th decade of life [11] (Table 3).

Figure 1 :
Figure 1: Distribution of gender according to age group

Table 1 :
Distribution of FAB according to age group (n= 140) Journal of Hematology and Blood Disorders Volume 3 | Issue 1