Cytogenetics and molecular biology in Acute Lymphoblastic Leukemia ( ALL )
Date
2024Metadata
Show full item recordAbstract
Acute lymphoblastic leukemia is a group of heterogeneous diseases. Actually, 20% of acute
leukemia cases are reported for adults against 80% for children. Several clinical, biological
and therapeutic factors are essential for defining optimal treatment modalities. In children,
acute lymphoblastic leukemia is known by the presence of recurrent genetic abnormalities.
These abnomalities are described as specific markers which represent an important clinical
aspect in the identification of significant risks. Cytogenetic analysis (karyotype along with, if
necessary, adequate FISH analyzes) is an essential examination when diagnosing acute
lymphoblastic leukemia (ALL)
Aims
Our focus in this study is to define the cytogenetic abnormalities considering some Moroccan
patients and their frequency. A comparison of the cytogenetic profiles of cancer cells with
other prognostic factors is also demonstrated with the evolution of ALL
Patient and methods
We established a descriptive study covering a period from 2014 to 2018 with an established
diagnosis of ALL children and patients less than 20 years in the pediatric hematology and
oncology department at the August 20th hospital. The data concerning cytogenetic profile
were collected from patients' charts and we classified cytogenetic abnormalities according to
French cytogenetic guidelines. The three identified groups are favorable, intermediate and
unfavorable. In the Caryotype the sample containing the blasts is cultured and treated to
obtain a sufficient number of mitotic cells which will be analyzed in conventional
cytogenetics. The material used in this study is the bone marrow or the peripheral blood,
when it contains blast cells. The Fish technique is used as a complementary test to confirm
the prognosis of the ALL patient.
Results
141 Patients were collected for this study. The karyotype was performed on 105 patients. We
analyzed 75 patients with B ALL. It was normal in 33 cases (37%). A hyperdiploidy between
51 and 65 chromosomes was found in 17 cases (17%). 10 cases showed karyotype failure.
25% of karyotypes were complex.
The use of molecular biology allowed the detection of MLL + gene in 4 patients, and
BCR/ABL gene in 5 patients during this study.
Conclusion
The management of pediatric ALL has progressed enormously in these recent years, resulting
in improved patient survival.
In our study we identified several cytogenetic abnormalities where the prognosis is unknown,
as well as intermediate prognostic abnormalities, which encouraged us to set up a
collaboration between hemato-biologists, geneticists and hematologists.
DOI/handle
http://hdl.handle.net/10576/50629Collections
- Research of Qatar University Young Scientists Center [206 items ]
- Science Research Theme [70 items ]