Microbial pathogens generate extracellular vesicles (EVs) for intercellular communication and quorum sensing. Microbial EVs also induce inflammatory pathways within host innate immune cells. We previously demonstrated that EVs secreted by
e16048 Background: Germ cell tumours (GCT) are predominantly a disease of the young, with < 10% of cases being diagnosed at ≥45 years. Platinum based chemotherapy is the gold standard in treating these patients. Data regarding outcomes and treatment toxicities in elderly patients is lacking. We studied the efficacy, toxicities and survival rates in a cohort of men diagnosed with GCT aged ≥45 years receiving chemotherapy in a metastatic setting. Methods: Data was collected retrospectively from 48 patient’s ≥45 years with GCT’s identified at Mount Vernon Cancer Centre, London. The histology, stage and international germ cell consensus (IGCC) risk classification was identified in all patients. Data was collected regarding chemotherapy regimens, number of cycles completed, toxicities and complications that led to treatment modifications or early cessation. Treatment toxicities were evaluated using the common terminology criteria for adverse events (ctCAE) grading. We then assessed progression free survival, relapse rates and overall survival (OS). Results: We identified 48 patients diagnosed with GCTs aged ≥45 years. The median age at diagnosis was 52 (range 45-70) and 75% of patients were aged ≥50. Classic seminoma and nonseminomatous GCTs were seen in 65% and 35% of patients, respectively. 75% of patients were ≥stage II at diagnosis. In total 29 patients received BEP, 4 EP, 7 Carboplatin AUC10, 2 Carboplatin AUC7 and 5 received POMBACE. 73 % (35/48) of patients experienced one or more complication/s from chemotherapy (15/48 ctCAE grade ≥3), of which the most common were neuropathies (27%), thromboembolism (10%) and tinnitus (10%). In 8 cases omissions or dose reductions had to be made and treatment delays occurred in 3 cases. Only 2 patients did not complete all intended cycles. Over 70% (35/48) of patients had an OS of > 5 years. One patient died during chemotherapy due to gastro-intestinal bleed. Conclusions: Survival rates in patients with GCTs aged ≥45 treated with chemotherapy are good with the majority achieving a > 5 year OS. Although age is not a prognostic factor, these patients are more prone to toxicities and have underlying comorbidities. This data will be of value to oncologists weighing up the risks versus benefits of treatment in this older cohort of patients in combination with similar studies.
Multiple factors influence the survival of disseminated breast tumour cells (DTCs) in bone. Whereas gene signature studies have identified genes that predict a propensity of tumours to metastasise to bone, the bone environment is key in determining the fate of these tumour cells. Breast cancer cells locate to specific niches within the bone that support their survival, regulated by host factors within the bone microenvironment including bone cells, cells of the bone micro vasculature, immune cells and the extracellular matrix. Reproductive endocrine hormones that affect bone and clinical studies across the menopausal transition have provided comprehensive understanding of the changes in the bone microenvironment during this time. Menopause is characterized by a decrease in ovarian oestradiol and inhibins, with an increase in pituitary follicle-stimulating hormone and this review will focus on the role of these three hormones in determining the fate of DTCs in bone. Both in vivo and clinical data suggest that premenopausal bone is a conducive environment for growth of breast cancer cells in bone. Adjuvant cancer treatment aims to reduce the risk of tumour recurrence by affecting DTCs. Drugs targeting the bone resorbing osteoclasts, such as bisphosphonates, have therefore been evaluated in this setting. Both preclinical and adjuvant clinical studies have shown that bisphosphonates’ ability to decrease tumour growth in bone is influenced by the levels of endocrine hormones, with enhanced effects in a postmenopausal bone microenvironment. The challenge is to understand the molecular mechanisms behind this phenomenon and to evaluate if alternative adjuvant bone-targeted therapies may be effective in premenopausal women.
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