DETERMINATION OF THE NUMBER OF EPSTEIN-BARR-VIRUS GENOMES IN WHOLE-BLOOD AND RED-CELL CONCENTRATES

被引:10
|
作者
WAGNER, HJ
KLUTER, H
KRUSE, A
BUCSKY, P
HORNEF, M
KIRCHNER, H
机构
[1] UNIV LUBECK, SCH MED, INST IMMUNOL & TRANSFUS MED, D-23538 LUBECK, GERMANY
[2] UNIV LUBECK, DEPT PAEDIAT, LUBECK, GERMANY
来源
TRANSFUSION MEDICINE | 1995年 / 5卷 / 04期
关键词
EPSTEIN-BARR VIRUS; LEUKOCYTE DEPLETION; POLYMERASE CHAIN REACTION; TRANSFUSION-TRANSMITTED DISEASE; TOP AND BOTTOM SYSTEM;
D O I
10.1111/j.1365-3148.1995.tb00219.x
中图分类号
R5 [内科学];
学科分类号
1002 ; 100201 ;
摘要
The risk of Epstein-Barr virus (EBV) infection after blood transfusion has been controversially discussed. Little is known about EBV transmission via buffy-coat-depleted red cell concentrates (RCC). In this study, we determined the number of EBV genomes in RCC of EBV-seropositive donors in comparison to whole blood. RCC were prepared from whole blood donations by using the 'top and bottom system'. Leucocyte content was significantly reduced in RCC in comparison to whole blood (0.47 x 10(9) vs. 2.3 x 10(9) per unit; P < 0001). As B cells are expected to harbour EBV genomes, we analysed the number of B lymphocytes in both types of blood products. There was a significant reduction of B cell content from a median value of 90 x 10(6) in whole blood to 0.2 x 10(6) in RCCs (P < 0.001). The number of EBV genomes was estimated at a median value of seven from 10(6) B cells in the peripheral blood of healthy, EBV-seropositive blood donors by means of a polymerase chain reaction (PCR) assay. By calculation, one unit of RCC may contain an average of one to two EBV genomes, in contrast to a whole blood unit, which is likely to harbour an average of 600 to 700 EBV genomes. It is concluded that the use of leucocyte depletion systems significantly reduces the number of EBV genomes in erythrocyte concentrates. Thus, leucocyte reduced blood products appear to minimize the risk of EBV infection.
引用
收藏
页码:297 / 302
页数:6
相关论文
共 50 条
  • [1] RATIONAL USE OF WHOLE-BLOOD AND RED-CELL CONCENTRATES
    BEAL, RW
    DRUGS, 1973, 6 (02) : 127 - 136
  • [2] RED-CELL CONCENTRATES INSTEAD OF WHOLE-BLOOD - PERSPECTIVES FOR BLOOD BANKS AND CLINICAL MEDICINE
    SEIFERT, H
    STAMPE, D
    HAUSSMANN, HG
    GANZONI, A
    SCHWEIZERISCHE MEDIZINISCHE WOCHENSCHRIFT, 1975, 105 (47) : 1595 - 1595
  • [3] CYTOKINE PRODUCTION IN A WHOLE-BLOOD ASSAY AFTER EPSTEIN-BARR-VIRUS INFECTION IN-VIVO
    HORNEF, MW
    WAGNER, HJ
    KRUSE, A
    KIRCHNER, H
    CLINICAL AND DIAGNOSTIC LABORATORY IMMUNOLOGY, 1995, 2 (02) : 209 - 213
  • [4] WHEN IS THE MICROFILTRATION OF WHOLE-BLOOD AND RED-CELL CONCENTRATES ESSENTIAL - WHEN IS IT SUPERFLUOUS
    HASSIG, A
    COLLINS, JA
    HOGMAN, C
    LUNDSGAARDHANSEN, P
    SNYDNER, EL
    SWANK, RL
    WENZ, B
    VOX SANGUINIS, 1986, 50 (01) : 54 - 64
  • [5] NOMOGRAM FOR DETERMINATION OF WHOLE-BLOOD VISCOSITY AND RED-CELL AGGREGATION
    ALTMANN, S
    SGRIES, B
    KAPS, B
    ZEIDLER, H
    HARTMANN, F
    BIORHEOLOGY, 1981, 18 (01) : 39 - 39
  • [6] RED-CELL VERSUS WHOLE-BLOOD LEAD
    JANUS, ED
    HINTON, D
    COLLS, BM
    NEW ZEALAND MEDICAL JOURNAL, 1983, 96 (737) : 633 - 634
  • [7] INTERRELATIONSHIP BETWEEN WHOLE-BLOOD AND RED-CELL FILTERABILITY
    PIERAGALLI, D
    ACCIAVATTI, A
    GALIGANI, C
    MESSA, GL
    BLARDI, P
    GUERRINI, M
    FORCONI, S
    DIPERRI, T
    CLINICAL HEMORHEOLOGY, 1987, 7 (02): : 273 - 276
  • [8] ELECTRONIC WHOLE-BLOOD AGGREGOMETRY - RED-CELL EFFECTS
    GORDGE, MP
    DODD, NJ
    WESTON, MJ
    THROMBOSIS AND HAEMOSTASIS, 1983, 50 (01) : 447 - 447
  • [9] CURRENT TRENDS IN WHOLE-BLOOD AND RED-CELL THERAPY
    ORLIN, JB
    POSTGRADUATE MEDICINE, 1982, 72 (02) : 63 - &
  • [10] MICROAGGREGATES IN STORED-BLOOD - COMPARATIVE EVALUATION OF WHOLE-BLOOD AND BUFFYCOAT-FREE RED-CELL CONCENTRATES
    GANZONI, AM
    REUFF, U
    STAMPE, D
    KOERNER, K
    KILIAN, J
    ANAESTHESIST, 1978, 27 (03): : 115 - 118
12345