Dragana Jekic-McMullen scite author profile

Bioluminescent and fluorescent reporters are finding increased use in optical molecular imaging in small animals. In the work presented here, issues related to the sensitivity of in vivo detection are examined for standard reporters. A high-sensitivity imaging system that can detect steady-state emission from both bioluminescent and fluorescent reporters is described. The instrument is absolutely calibrated so that animal images can be analyzed in physical units of radiance allowing more quantitative comparisons to be performed. Background emission from mouse tissue, called autoluminescence and autofluorescence, is measured and found to be an important limitation to detection sensitivity of reporters. Measurements of dual-labeled (bioluminescent/fluorescent) reporter systems, including PC-3M-luc/DsRed2-1 and HeLa-luc/PKH26, are shown. The results indicate that although fluorescent signals are generally brighter than bioluminescent signals, the very low autoluminescent levels usually results in superior signal to background ratios for bioluminescent imaging, particularly compared with fluorescent imaging in the green to red part of the spectrum. Fluorescence detection sensitivity improves in the far-red to near-infrared, provided the animals are fed a low-chlorophyll diet to reduce autofluorescence in the intestinal region. The use of blue-shifted excitation filters is explored as a method to subtract out tissue autofluorescence and improve the sensitivity of fluorescent imaging.

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Quantitative Comparison of the Sensitivity of Detection of Fluorescent and Bioluminescent Reporters in Animal Models

Troy¹,

Jekic-McMullen²,

Sambucetti³

et al. 2004

Mol Imaging

132

118

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Bioluminescent and fluorescent reporters are finding increased use in optical molecular imaging in small animals. In the work presented here, issues related to the sensitivity of in vivo detection are examined for standard reporters. A highsensitivity imaging system that can detect steady-state emission from both bioluminescent and fluorescent reporters is described. The instrument is absolutely calibrated so that animal images can be analyzed in physical units of radiance allowing more quantitative comparisons to be performed. Background emission from mouse tissue, called autoluminescence and autofluorescence, is measured and found to be an important limitation to detection sensitivity of reporters. Measurements of dual-labeled (bioluminescent/fluorescent) reporter systems, including PC-3M-luc/DsRed2-1 and HeLaluc/PKH26, are shown. The results indicate that although fluorescent signals are generally brighter than bioluminescent signals, the very low autoluminescent levels usually results in superior signal to background ratios for bioluminescent imaging, particularly compared with fluorescent imaging in the green to red part of the spectrum. Fluorescence detection sensitivity improves in the far-red to near-infrared, provided the animals are fed a low-chlorophyll diet to reduce autofluorescence in the intestinal region. The use of blue-shifted excitation filters is explored as a method to subtract out tissue autofluorescence and improve the sensitivity of fluorescent imaging. Mol Imaging (2004) 3, 9-23.

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Multicenter Comparison of the Digene Hybrid Capture CMV DNA Assay (Version 2.0), the pp65 Antigenemia Assay, and Cell Culture for Detection of Cytomegalovirus Viremia

et al. 1999

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We compared the Digene Hybrid Capture CMV DNA Assay version 2.0, the pp65 antigenemia assay, traditional tube culture, and shell vial culture for the detection of cytomegalovirus (CMV) viremia in several patient populations at three centers. Of 561 blood specimens collected from 402 patients, complete clinical and laboratory data were available for 489. Using consensus definitions for true positives and true negatives, the sensitivities of the Hybrid Capture assay, antigenemia, shell vial, and tube culture were 95, 94, 43, and 46%, respectively. The specificities of the Hybrid Capture assay and antigenemia were 95 and 94%, respectively. At all three study sites, the detected level of CMV viremia was significantly higher with the Hybrid Capture assay or antigenemia than with shell vial and tube culture. In a group of 131 healthy nonimmunosuppressed volunteers, the Hybrid Capture assay demonstrated a specificity of over 99%. The Hybrid Capture assay is a standardized assay that is simple to perform and can utilize whole blood specimens that have been stored for up to 48 h. The high sensitivity and specificity of the Hybrid Capture assay along with its simplicity and flexibility make it a clinically useful assay for the detection of CMV viremia in immunocompromised or immunosuppressed patients. Further evaluation to determine its role in predicting CMV disease and for monitoring the therapeutic response to anti-CMV therapy is needed.

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Determination of depth of in vivo bioluminescent signals using spectral imaging techniques

Coquoz¹,

Troy²,

Jekic-McMullen³

et al. 2003

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Diagnosis of Cytomegalovirus (CMV) Polyradiculopathy and Documentation of In Vivo Anti‐CMV Activity in Cerebrospinal Fluid by Using Branched DNA Signal Amplification and Antigen Assays

Flood

Drew²,

Miner³

et al. 1997

J INFECT DIS

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Branched chain DNA assay (bDNA), cytomegalovirus (CMV) antigen assay, and cerebrospinal fluid (CSF) viral culture were studied for their utility in the diagnosis of CMV polyradiculopathy and for documenting in vivo antiviral effects. CMV was demonstrated in 15 of 16 patients by bDNA assay, 15 of 16 by CMV antigen assay, and 11 of 15 by CSF culture. When clinical criteria and results of the other two assays were used as reference standards, the sensitivity of bDNA was 94% and 100% and the specificity 95.2% and 100%; the CMV antigen assay sensitivity was 94% and 100% and specificity was 85.7% and 100%. Nine (90%) of 10 patients with polyradiculopathy and follow-up CSF culture showed a drop in CMV DNA after treatment; however, only 2 (20%) improved clinically. These results suggest that bDNA and antigen assays may be useful methods for the diagnosis of CMV polyradiculopathy, but treatment failures may not be due to inadequate antiviral activity.

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