Abstract Background: Biomarker testing in lung cancer is often limited by a lack of sufficient formalin fixed, paraffin embedded (FFPE) tissue for comprehensive genomic profiling. To promote personalized therapy for lung cancer, a multiplex FISH assay was developed to simultaneously assess aberrations in ROS1, RET, and MET on a single FFPE specimen slide. Methods: Specimens included primary tumor (N = 39) as well as biopsies from a variety of metastatic sites (N = 16). These included 12 samples with ROS1 rearrangements, 3 samples with RET rearrangements, and 11 samples with MET amplification reported by a previously validated laboratory test method. A probe mix contained 6 differentially labeled fluorescent probes: 3' ROS1, 5' ROS1, 3' RET, 5' RET, MET and CEP7. The probes were formulated in Vysis IntelliFISH Hybridization Buffer to allow for a 2 h hybridization time. BioView imaging platform and Duet software algorithm were used to perform automated slide scanning and digital analysis. Specimens were considered positive for ROS1 or RET rearrangement if >15% evaluated cells contained a break apart (rearranged) signal. Specimens were considered positive for MET amplification if >15% of cells had MET/CEP7 ratio >2 and positive for polysomy if >15% of cells had 5 or more MET signals copies. Results: The 6 color FISH assay was 97% concordant for ROS1 rearrangement and 100% concordant for RET rearrangement. The average background percentage of positive tumor cells in cases without known gene rearrangements was approximately 5%, yielding a negative cutoff threshold of approximately 15%, in accordance with cutoff thresholds reported in literature. The 6 color FISH assay was 91% concordant for MET amplification or polysomy. Results were interpretable for 98% of targets analyzed by the 6 color FISH method. Four samples failed on analysis for one of the targets due to lack of sufficient cells or lack of adequate hybridization signal. Conclusion: A newly developed 6-color FISH assay allows simultaneous detection of three genomic abnormalities using only 1 specimen slide. This feature combined with rapid hybridization in IntelliFISH buffer and automated BioView slide imaging and analysis can significantly increase the yield of molecular testing on limited lung cancer tissue samples. Careful pathologic correlation for tumor cell identification and careful assessment of hybridization quality are necessary to optimize the accuracy of this test method. Citation Format: Irina A. Sokolova, Patrick Bedroske, Tatyana A. Grushko, Amber R. Schneider, Kristine Jacobson, Jesse S. Voss, Yishay Tauber, Yossi Avisror, Vitaliy Shkolnik, Katerina Pestova, Katherine B. Geiersbach. Multiplex fast FISH assay for detecting ROS1, RET and MET aberrations in FFPE specimens using BioView image analysis [abstract]. In: Proceedings of the Annual Meeting of the American Association for Cancer Research 2020; 2020 Apr 27-28 and Jun 22-24. Philadelphia (PA): AACR; Cancer Res 2020;80(16 Suppl):Abstract nr 4256.
Recent genetic studies have highlighted that alterations in MEN1, chromatin remodeling genes, and mammalian target of rapamycin (mTOR) pathway genes are the most frequent molecular events identified in pancreas neuroendocrine tumors (pNETs). The prognostic or predictive impact of these biomarkers and other less frequently observed aberrations, i.e. PTEN, TSC2 and PIK3CA are relatively unknown. The aims of this targeted next generation sequencing (NGS) study were to assess tumor cytology genotype diversity, to survey for potential adverse prognostic biomarkers and the prevalence of mTOR pathway variants.Using a custom 15 gene gastroenteropancreatic neuroendocrine tumor panel, targeted NGS of archived (2002-2013) primary pNETs (n=90) and pNET liver metastasis (n=32) cytology smears was performed.The genetic variant landscape revealed that 21% and 28% of primary and metastatic liver pNETs harbored ≥ 2 variants per tumor, respectively. The most prevalent primary tumor variants were in the MEN1 (42%), DAXX (11%), ATRX (10%), and TSC2 (8%) genes. Patients harboring aberrations in TSC2, KRAS or TP53 were more likely to experience disease progression and reduced overall survival, when compared to individuals who were wild-type. The prevalence of these potential prognostic biomarkers in early disease was observed in 3.3% of the primary tumor cohort. mTOR pathway variants including alterations in PTEN, TSC2 and PIK3CA were identified in 10% and 12.5% of primary tumors and pNET liver metastasis, respectively.Cytology based tumor genotyping revealed a broad spectrum of genetic variants including possible adverse prognostic biomarkers, reflective of an aggressive phenotype. It also demonstrated the prevalence of potential predictive biomarkers for mTOR pathway inhibitor sensitivity.
Many exercise modalities are used to increase muscle strength and power output with differing load capacities. PURPOSE: To compare the effects of 80% 1RM (CON) squats, High Intensity Interval Training (HIIT) body weight squats (BWS), and Blood Flow Restriction (BFR) BWS on quadriceps (quads) and hamstrings (hams) strength, and power output via isokinetic testing and standing vertical jump, respectively. METHODS: 13 subjects were randomly assigned to: CON, HIIT, or BFR groups. Subjects were tested on an isokinetic dynamometer at 60, 180, and 300 degrees/sec while vertical jump was performed using a vertical jump tester. The training program for the control subjects (N=3) consisted of performing 3 sets of 5 repetitions (reps) at 80% of 1RM squats. The HIIT group (N=5) completed a protocol of 20 seconds of squats followed by 10 seconds of rest for 8 sets. The BFR group (N=5) completed a protocol of 30/15/15/15 reps with 30 seconds rest between sets with bands placed on the proximal thigh bilaterally and inflated to 250 mmHg. The squats for the BFR group were performed using a metronome set to 60 bpm with each rep for 2 seconds. Due to the small sample size, Kruskal-Wallis (KW) analyses were performed for each outcome for the baseline measures, post-training measures, and the difference between post and pre training measures. RESULTS: Although all training modalities elicit improvements for all outcomes, 80% 1RM squats showed the greatest improvement in vertical jump (+8.59cm) while HIIT was the training program showing the greatest magnitude of improvement across all isokinetic variables (average:+0.84kg·m2/s2). However, none of the observed changes were statistically significant. CONCLUSION: It appears all training modalities are viable for improvements in power and strength. Nevertheless, the small sample size of the study might be hiding if one modality is superior over the others.
Capture-based library preparation for next generation sequencing (NGS) offers a balance between sequencing depth and bioinformatics cost of analysis. Liquid handling automation enhances the reliability of the library preparation process by reducing sample-to-sample variation and substantially enhances throughput, particularly when it can be employed in a 'walk-away' fashion with limited hands-on interaction. This requires complex series of mixing and heating steps like those utilized in capture chemistries to happen on the liquid handler. While developing liquid handling automation for Integrated DNA Technologies (IDT) xGen Exome, Illumina TruSight Oncology 500, and Personal Genome Diagnostics (PGDx) elio Plasma Resolve chemistries on the PerkinElmer Sciclone liquid handler, we found that applying the capture temperatures recommended for manual library preparation results in low yield on automation. To restore the final library yield, we reduced bead binding and/or heated wash temperatures of the Peltier heaters on the liquid handlers by about 10°C. Since this applied across three unique capture-based chemistries, we consider this a generalizable principle of automating capture on the Sciclone. We hypothesize that this is driven by the very different thermodynamic environments represented by a sealed plate on a thermal cycler and a plate with a lid on a Peltier heater. This phenomenon should be considered when automating NGS library preparation on PerkinElmer Sciclone instruments.
