BACKGROUND: CD38 expression on CD8+ T lymphocytes in HIV-infected patients is monitored by flow cytometry (FCM). There is however no consensus re CD38 protocols, analyses or result reporting within/between laboratories. Internal quality control measures (QC) were established for a standardized CD38 protocol and a system proposed for reporting CD38 fluctuation in longitudinal HIV+ patient monitoring. METHODS: A single-platform (SP) CD38/CD8 protocol was "piggy-backed" onto the standardized "panleucogating" CD45/CD4+ protocol. A weekly QC was established to monitor instrument stability (FlowSET) and absolute cell count accuracy and reproducibility (stabilized blood product, Immuno-Trol). The Mean Fluorescence Intensity (MFI) of CD38 expression on CD8(+)-lymphocytes was monitored on both stabilized blood and HIV-control samples. Linearized MFI values were determined from biological controls, i.e. healthy donor monocytes and granulocytes, and tested as a method of reporting CD38 expression on selected HIV+ patients on ART. RESULTS: The CD45/CD4/CD8/CD3 method for lymphocyte enumeration compared well with the CD38 protocol (CD45/CD4/CD8/CD38) with excellent similarity (+/-100%) and precision for absolute CD4 and CD8 counts (CVs < 5%). Fluorosphere MFI- (FlowSet, FlowCount) and color compensation values were exceptionally stable over time. CD38 MFI values established on monocytes as biological control was 4.0 and <2.0 for HIV-control lymphocytes. CONCLUSIONS: Monitoring FCM with fluorosphere MFI values, color compensation, and biological controls, can ensure that CD38 analyses are technologically stable. Flow cytometry is thus the preferred method to monitor fluctuations in CD38 MFI (CD38 molecules/cell) associated with HIV-disease progression and/or response to ART and has potential for application across instruments and centers.
BACKGROUND:CD38 expression on CD8+ T lymphocytes in HIV-infectedpatients is monitored by flow cytometry (FCM). There is however no consensus re CD38 protocols, analyses or result reporting within/between laboratories. Internal quality control measures (QC) were established for a standardized CD38 protocol and a system proposed for reporting CD38 fluctuation in longitudinal HIV+ patient monitoring. METHODS: A single-platform (SP) CD38/CD8 protocol was "piggy-backed" onto the standardized "panleucogating" CD45/CD4+ protocol. A weekly QC was established to monitor instrument stability (FlowSET) and absolute cell count accuracy and reproducibility (stabilized blood product, Immuno-Trol). The Mean Fluorescence Intensity (MFI) of CD38 expression on CD8(+)-lymphocytes was monitored on both stabilized blood and HIV-control samples. Linearized MFI values were determined from biological controls, i.e. healthy donor monocytes and granulocytes, and tested as a method of reporting CD38 expression on selected HIV+ patients on ART. RESULTS: The CD45/CD4/CD8/CD3 method for lymphocyte enumeration compared well with the CD38 protocol (CD45/CD4/CD8/CD38) with excellent similarity (+/-100%) and precision for absolute CD4 and CD8 counts (CVs < 5%). Fluorosphere MFI- (FlowSet, FlowCount) and color compensation values were exceptionally stable over time. CD38 MFI values established on monocytes as biological control was 4.0 and <2.0 for HIV-control lymphocytes. CONCLUSIONS: Monitoring FCM with fluorosphere MFI values, color compensation, and biological controls, can ensure that CD38 analyses are technologically stable. Flow cytometry is thus the preferred method to monitor fluctuations in CD38 MFI (CD38 molecules/cell) associated with HIV-disease progression and/or response to ART and has potential for application across instruments and centers.
Authors: David R Boulware; David B Meya; Tracy L Bergemann; Darlisha Williams; Irina A Vlasova-St Louis; Josh Rhein; Jack Staddon; Andrew Kambugu; Edward N Janoff; Paul R Bohjanen Journal: J Acquir Immune Defic Syndr Date: 2010-12 Impact factor: 3.731
Authors: Ting Li; Shali Qi; Mandy Unger; Yun Nan Hou; Qi Wen Deng; Jun Liu; Connie M C Lam; Xian Wang Wang; Du Xin; Peng Zhang; Friedrich Koch-Nolte; Quan Hao; Hongmin Zhang; Hon Cheung Lee; Yong Juan Zhao Journal: Sci Rep Date: 2016-06-02 Impact factor: 4.379
Authors: Livio Azzoni; Russell Barbour; Emmanouil Papasavvas; Deborah K Glencross; Wendy S Stevens; Mark F Cotton; Avy Violari; Luis J Montaner Journal: PLoS One Date: 2015-12-15 Impact factor: 3.240