BACKGROUND: Accurate and rapid diagnosis of human cytomegalovirus (HCMV) disease in solid organ transplant patients remains a challenge. We evaluated the clinical utility of a quantitative polymerase chain reaction (QPCR) method to diagnose transplant patients with HCMV disease. METHODS: A total of 429 plasma samples from 121 solid organ transplant patients were prospectively collected and evaluated for HCMV using a QPCR assay. To enhance the sensitivity of the QPCR assay, plasma samples were centrifuged in a manner designed to concentrate the virions before nucleic acid extraction. Quantitation was achieved by co-amplifying an internal quantitative standard (IS) that contained the same primer sequences as for HCMV. Polymerase chain reaction products were detected by hybridization to 96-well microtiter plates coated with either a HCMV- or an IS-specific probe. RESULTS: A total of 103 patients had all samples negative by QPCR. None of the 103 patients developed HCMV disease during the study. In contrast, 18 patients showed at least 1 sample positive by the QPCR assay, but only 8 of these developed HCMV disease. The mean viral load value for patients without HCMV disease was 93 viral copies (vc) per ml of plasma (range: 35-325 vc/ml plasma) and for the 8 patients with HCMV disease was 67,686 vc/ml plasma (range: 167-1,325,000 vc/ml plasma) (P<0.001). Using a cut-off value of 100 vc/ml plasma and clinical diagnosis of HCMV disease, the QPCR assay showed a sensitivity of 100% and specificity of 99.1%. CONCLUSION: HCMV viral load may be useful in the diagnosis of HCMV disease in solid organ transplant patients.
BACKGROUND: Accurate and rapid diagnosis of human cytomegalovirus (HCMV) disease in solid organ transplant patients remains a challenge. We evaluated the clinical utility of a quantitative polymerase chain reaction (QPCR) method to diagnose transplant patients with HCMV disease. METHODS: A total of 429 plasma samples from 121 solid organ transplant patients were prospectively collected and evaluated for HCMV using a QPCR assay. To enhance the sensitivity of the QPCR assay, plasma samples were centrifuged in a manner designed to concentrate the virions before nucleic acid extraction. Quantitation was achieved by co-amplifying an internal quantitative standard (IS) that contained the same primer sequences as for HCMV. Polymerase chain reaction products were detected by hybridization to 96-well microtiter plates coated with either a HCMV- or an IS-specific probe. RESULTS: A total of 103 patients had all samples negative by QPCR. None of the 103 patients developed HCMV disease during the study. In contrast, 18 patients showed at least 1 sample positive by the QPCR assay, but only 8 of these developed HCMV disease. The mean viral load value for patients without HCMV disease was 93 viral copies (vc) per ml of plasma (range: 35-325 vc/ml plasma) and for the 8 patients with HCMV disease was 67,686 vc/ml plasma (range: 167-1,325,000 vc/ml plasma) (P<0.001). Using a cut-off value of 100 vc/ml plasma and clinical diagnosis of HCMV disease, the QPCR assay showed a sensitivity of 100% and specificity of 99.1%. CONCLUSION:HCMV viral load may be useful in the diagnosis of HCMV disease in solid organ transplant patients.
Authors: A M Caliendo; R Schuurman; B Yen-Lieberman; S A Spector; J Andersen; R Manjiry; C Crumpacker; N S Lurain; A Erice Journal: J Clin Microbiol Date: 2001-04 Impact factor: 5.948
Authors: A Ferreira-Gonzalez; S Yanovich; M R Langley; L A Weymouth; D S Wilkinson; C T Garrett Journal: J Clin Lab Anal Date: 2000 Impact factor: 2.352
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