Primary liver cancer is a challenging global health concern with an estimated more than a million persons to be affected annually by the year 2025. The commonest type is hepatocellular carcinoma (HCC), which has been increasing in incidence the world over, mostly due to chronic viral hepatitis B infection. In the last decade, paradigm changes in the etiology, understanding of molecular biology, and pathogenesis, including the role of gut microbiota; medical and surgical treatments, and outcome trends are notable. The application of omics-based technology has helped us unlock the molecular and immune landscape of HCC, through which novel targets for drug treatment such as immune-checkpoint inhibitors have been identified. Novel tools for the surveillance and diagnosis of HCC include protein-, genomics-, and composite algorithm-based clinical/biomarker panels. Magnetic resonance imaging-based novel techniques have improved HCC diagnosis through ancillary features that enhance classical criteria while positron emission tomography has shown value in prognostication. Identification of the role of gut microbiota in the causation and progression of HCC has opened areas for novel therapeutic research. A select group of patients still benefit from modified surgical and early interventional radiology treatments. Improvements in radiotherapy protocols, identification of parameters of futility among radiological interventions, and the emergence of novel first-line systemic therapies that include a combination of antiangiogenic and immune-checkpoint inhibitors have seen a paradigm change in progression-free and overall survival. The current review is aimed at providing exhaustive updates on the etiology, molecular biology, biomarker diagnosis, imaging, and recommended treatment options in patients with HCC.

Dysregulated apoptosis is a hallmark of cancer development and progression. TRAIL and its receptors (R1 and R2) are key players in the extrinsic apoptotic pathway. Genetic alteration or blockade of TRAIL-R1 may alter its apoptotic function, and subsequently provide growth advantage to neoplastic cells.

to investigate the possible association between -C626G, -A683C and -A1322G single nucleotide polymorphisms (SNPs) of TRAIL-R1 gene and the susceptibility to B-NHL in a cohort of Egyptians.

Genotypic analysis was performed for 100 newly diagnosed B-NHL patients and 150 age and gender matched healthy controls.

The polymorphic alleles of -C626G and -A1322G conferred almost twofold increased risk of B-NHL (OR = 1.76; 95%CI = 1.01-3.22 and OR = 1.89; 95%CI = 1.01-3.75 respectively). There was no statistical difference in the distribution of TRAIL-R1-A683C alleles/genotypes between B-NHL patients and controls. B-NHL risk increased when -C626G and -A1322G polymorphic genotypes were co-inherited (OR = 3.57; 95%CI = 1.29-9.84). The risk conferred by -C626G SNP increased for DLBCL (OR = 3.39, 95% CI: 1.61-7.16).

TRAIL-R1-C626G and -A1322G polymorphisms could be considered as molecular risk factors for B-NHL especially DLBCL. The data provided by the current study constitute an initial millstone towards developing a large-scale dataset for genetic variations that could contribute to lymphomagenesis in Egyptian population.