EFFICIENCY OF IN-VITRO ANTIBACTERIAL ACTIVITY OF SYZYGIUM CUMINI PHENOLIC EXTRACT FROM LEAVES

Objective: The fundamental objective of this analysis is to assess the potential effect of the phenolic plant extract from Syzygium cumini against bacterialculture. This response indicates the antibacterial properties of the phenolic extract of the plant which can be exploited as a feasible antibacterial agent.Methods: The antibacterial activity of the phenolic-rich extract was tested against human pathogenic bacteria Staphylococcus aureus and Pseudomonasaeruginosa using the disc diffusion method and minimum inhibitory concentration. Preliminary phytochemical studies revealed the presence ofalkaloids, flavonoids, polyphenols, glycosides, terpenoid, and tannins.Results: The phenolic extract showed potent inhibitory activity against Gram-positive bacterium S. aureus and Gram-negative bacterium P. aeruginosa.The zone of inhibition obtained in the antibacterial assay was scrutinized, and the results obtained were analyzed in terms of the antibacterial activity.Conclusion: Hereby, inferring from the experimental outcomes, the phenolic plant extract of S. cumini can be used as an effective antibacterial agent.Keywords: Polyphenol, Antibacterial activity, Disc diffusion, Syzygium cumini

Re-establishing Responsiveness in a Case of Refractory Metastatic Rectal Cancer with a Personalized de novo Combination Regimen

Introduction: Encyclopedic Tumor Analysis (ETA) is multi-analyte, molecular and functional interrogation to identify latent vulnerabilities in solid tumors which can then be targeted in organ- and label-agnostic combination treatment regimens.Case Presentation: We describe here a case of metastatic rectal cancer in a 61-year-old male who was progressed on all prior Standard of Care (SoC) treatment modalities including surgery, chemotherapy and radiotherapy. We addressed disease recurrence via personalized therapy guided by ETA which revealed characteristic molecular heterogeneity in primary and metastatic lesions in terms of single nucleotide variations (SNVs) and gene copy number variations (CNVs).  Notably, a novel TBL1XR1 (Exon1) – PIK3CA (Exon 2) gene fusion was identified in the tumor along with gene copy number gains in TERT, IGF-1R, MYC, FGFR1 and EGFR genes.Conclusion: ETA based molecular analysis with synchronous in vitro chemo-sensitivity profiling strategy helped to define de novo combinatorial therapy regimen of targeted and cytotoxic drugs which countered disease progression at each instance and led to the durable regression of primary as well as metastatic lesions

Development and validation of a multigene variant profiling assay to guide targeted and immuno therapy selection in solid tumors.

We present data on analytical validation of the multigene variant profiling assay (CellDx) to provide actionable indications for selection of targeted and immune checkpoint inhibitor (ICI) therapy in solid tumors. CellDx includes Next Generation Sequencing (NGS) profiling of gene variants in a targeted 452-gene panel as well as status of total Tumor Mutation Burden (TMB), Microsatellite instability (MSI), Mismatch Repair (MMR) and Programmed Cell Death-Ligand 1 (PD-L1) respectively. Validation parameters included accuracy, sensitivity, specificity and reproducibility for detection of Single Nucleotide Alterations (SNAs), Copy Number Alterations (CNAs), Insertions and Deletions (Indels), Gene fusions, MSI and PDL1. Cumulative analytical sensitivity and specificity of the assay were 99.03 (95% CI: 96.54-99.88) and 99.23% (95% CI: 98.54% - 99.65%) respectively with 99.20% overall Accuracy (95% CI: 98.57% - 99.60%) and 99.7% Precision based on evaluation of 116 reference samples. The clinical performance of CellDx was evaluated in a subsequent analysis of 299 clinical samples where 861 unique mutations were detected of which 791 were oncogenic and 47 were actionable. Indications in MMR, MSI and TMB for selection of ICI therapies were also detected in the clinical samples. The high specificity, sensitivity, accuracy and reproducibility of the CellDx assay is suitable for clinical application for guiding selection of targeted and immunotherapy agents in patients with solid organ tumors