电邮这篇文章 Experience in theuse of polymerase chain reaction for determining T-cellclonality
- 作者: Sidorova Y.V1,2, Nikitin EA1,2, Peklo M1,2, Vlasik TN1,2, Samoilova RS1,2, Kravchenko SK1,2, Melikyan AL1,2, Vinogradova Y.E1,2, Pivnik AV1,2, Sudarikov AB1,2
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隶属关系:
- ГНЦ РАМН
- Российский кардиологический научно-производственный комплекс Минздрава РФ, Москва
- 期: 卷 78, 编号 7 (2003)
- 页面: 48-52
- 栏目: Editorial
- URL: https://journals.rcsi.science/0040-3660/article/view/33363
- ID: 33363
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ability of T-cells to be cloned. Conventional histological and immunophenotypic methods fail to determine
the ability of T-cells to be cloned. An experience in the use of detection of T-cell receptor gene
gamma-chain (TCRy) rearrangement for determining T-cellular clonality is described.
Material and methods. Polymerase chain reaction (PCR) and single strand conformational polymorphism
(SSCP) were used to determine T-cell clonality. Twenty healthy donors, 28 patients with T-lymphomas,
and 26patients with various non-T-cell lymphoproliferative disorders or reactive processes
were studied.
Results. T-cell monoclonality was detected in 23/28 (82%) T-cell lymphoma cases, whereas in all the
samples from normal subjects a polyclonal pattern of rearrangements TCRy was found. The sensitivity
of the method was estimated as 2,5%, 7%, and 10% was demonstrated for bone marrow, spleen, and
peripheral blood, respectively.
Conclusion. PCR-SSCP for TCRy was found to be a useful supplement to routine histological and immunophenotypic
methods in the diagnosis of T-cell lymphomas.
作者简介
Yu Sidorova
ГНЦ РАМН; Российский кардиологический научно-производственный комплекс Минздрава РФ, МоскваГНЦ РАМН; Российский кардиологический научно-производственный комплекс Минздрава РФ, Москва
E Nikitin
ГНЦ РАМН; Российский кардиологический научно-производственный комплекс Минздрава РФ, МоскваГНЦ РАМН; Российский кардиологический научно-производственный комплекс Минздрава РФ, Москва
M Peklo
ГНЦ РАМН; Российский кардиологический научно-производственный комплекс Минздрава РФ, МоскваГНЦ РАМН; Российский кардиологический научно-производственный комплекс Минздрава РФ, Москва
T Vlasik
ГНЦ РАМН; Российский кардиологический научно-производственный комплекс Минздрава РФ, МоскваГНЦ РАМН; Российский кардиологический научно-производственный комплекс Минздрава РФ, Москва
R Samoilova
ГНЦ РАМН; Российский кардиологический научно-производственный комплекс Минздрава РФ, МоскваГНЦ РАМН; Российский кардиологический научно-производственный комплекс Минздрава РФ, Москва
S Kravchenko
ГНЦ РАМН; Российский кардиологический научно-производственный комплекс Минздрава РФ, МоскваГНЦ РАМН; Российский кардиологический научно-производственный комплекс Минздрава РФ, Москва
A Melikyan
ГНЦ РАМН; Российский кардиологический научно-производственный комплекс Минздрава РФ, МоскваГНЦ РАМН; Российский кардиологический научно-производственный комплекс Минздрава РФ, Москва
Yu Vinogradova
ГНЦ РАМН; Российский кардиологический научно-производственный комплекс Минздрава РФ, МоскваГНЦ РАМН; Российский кардиологический научно-производственный комплекс Минздрава РФ, Москва
A Pivnik
ГНЦ РАМН; Российский кардиологический научно-производственный комплекс Минздрава РФ, МоскваГНЦ РАМН; Российский кардиологический научно-производственный комплекс Минздрава РФ, Москва
A Sudarikov
ГНЦ РАМН; Российский кардиологический научно-производственный комплекс Минздрава РФ, МоскваГНЦ РАМН; Российский кардиологический научно-производственный комплекс Минздрава РФ, Москва
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