An octaguanidine-morpholino oligo conjugate improves muscle function of mdx mice.

INTRODUCTION: Skeletal muscles of mdx mice lack functional levels of dystrophin due to a mutation in Dmd exon 23. Morpholino antisense oligomers can induce expression of a truncated dystrophin by redirecting splicing to skip processing of exon 23. METHODS: We tested whether systemic administration of Vivo-Morpholino, an octaguanidine delivery moiety-Morpholino conjugate that targets exon 23 (VMO23), restored function to muscles of mdx mice. RESULTS: Extensor digitorum longus (EDL) muscles of mdx mice were weaker, less powerful, and showed greater functional deficits after eccentric contractions than normal. VMO23 treatment normalized EDL force and power of mdx mice and eliminated their exaggerated sensitivity to eccentric contractions. Diaphragm muscle strips from mdx mice also produced lower-than-normal force and power, and these variables were restored to normal, or near-normal, levels by VMO23 treatment. CONCLUSION: These results provide a functional basis for continuing development of VMO23 as a treatment for Duchenne muscular dystrophy.

Minimally invasive prostate cancer detection test using FISH probes.

PURPOSE: The ability to test for and detect prostate cancer with minimal invasiveness has the potential to reduce unnecessary prostate biopsies. This study was conducted as part of a clinical investigation for the development of an OligoFISH(®) probe panel for more accurate detection of prostate cancer. MATERIALS AND METHODS: One hundred eligible male patients undergoing transrectal ultrasound biopsies were enrolled in the study. After undergoing digital rectal examination with pressure, voided urine was collected in sufficient volume to prepare at least two slides using ThinPrep. Probe panels were tested on the slides, and 500 cells were scored when possible. From the 100 patients recruited, 85 had more than 300 cells scored and were included in the clinical performance calculations. RESULTS: Chromosomes Y, 7, 10, 20, 6, 8, 16, and 18 were polysomic in most prostate carcinoma cases. Of these eight chromosomes, chromosomes 7, 16, 18, and 20 were identified as having the highest clinical performance as a fluorescence in situ hybridization test and used to manufacture the fluorescence in situ hybridization probe panels. The OligoFISH(®) probes performed with 100% analytical specificity. When the OligoFISH(®) probes were compared with the biopsy results for each individual, the test results highly correlated with positive and negative prostate biopsy pathology findings, supporting their high specificity and accuracy. Probes for chromosomes 7, 16, 18, and 20 showed in the receiver operator characteristics analysis an area under the curve of 0.83, with an accuracy of 81% in predicting the biopsy result. CONCLUSION: This investigation demonstrates the ease of use with high specificity, high predictive value, and accuracy in identifying prostate cancer in voided urine after digital rectal examination with pressure. The test is likely to have positive impact on clinical practice and advance approaches to the detection of prostate cancer. Further evaluation is warranted.

One-year monitoring of an oligonucleotide fluorescence in situ hybridization probe panel laboratory-developed test for bladder cancer detection.

BACKGROUND: Previously, we had developed and manufactured an oligonucleotide fluorescence in situ hybridization (OligoFISH) probe panel based on the most clinically sensitive chromosomes found in a reference set of bladder carcinoma cases. The panel was clinically validated for use as a diagnostic and monitoring assay for bladder cancer, reaching 100% correlation with the results of the UroVysion test. After 1 year of using this probe panel, we present here the comparison of cytology, cystoscopy, and pathology findings to the OligoFISH probe panel results to calculate its clinical performance. MATERIALS AND METHODS: In order to calculate clinical performance, we compared the OligoFISH results to the cytology and cystoscopy/pathology findings for 147 initial diagnoses and 399 recurrence monitorings. Finally, we compared clinical performance to published values for the UroVysion test, including both low- and high-grade tumors. RESULTS: Chromosomes 3, 6, 7, and 20 were highly involved in bladder carcinoma aneuploidy. At the initial diagnosis, we obtained 90.5% (95% confidence interval [CI]: 84.5%-94.7%) accuracy, 96.8% sensitivity (95% CI: 91.0%-99.3%), 79.2% specificity (95% CI: 65.9%-87.8%), 89.2% positive predictive value (PPV; 95% CI: 81.5%-94.5%), and 93.3% negative predictive value (NPV; 95% CI: 81.7%-97.3%). When monitoring for recurrence, we obtained 85.2% accuracy (95% CI: 81.3%-88.5%), 82.0% sensitivity (95% CI: 76.0%-87.1%), 88.4% specificity (95% CI: 83.2%-92.5%), 87.7% PPV (95% CI: 82.1%-92.0%), and 83.0% NPV (95% CI: 77.3%-87.8%). When looking at low- and high-grade tumors, the test showed 100% sensitivity for high-grade tumors (95% CI: 92.5%-100%) and 87.5% sensitivity (95% CI: 68.8%-95.5%) for low-grade tumors. All the clinical parameters for the OligoFISH panel were higher than the UroVysion test's published performance. We found significantly higher clinical sensitivity and NPV at initial diagnosis and significantly higher specificity and PPV for recurrence. CONCLUSION: The OligoFISH probe panel is a fast, easy, and reproducible test for bladder cancer diagnosis and monitoring, with excellent clinical performance and utility.