Lung cancer is still the leading cause of cancer related death worldwide. Fibroblast growth factor receptor (FGFR) is a tirosine-kinase receptor that is seen to be amplified or mutated in non-small cell lung cancer (NSCLC) and it plays a crucial role in tumour development and maintenance. The authors analyzed the state of the art of FGFR by reviewing the current literature. Fibroblast growth factor (FGF)-FGFR pathway and their aberrations are described, with the evaluation of their possible prognostic role in NSCLC and in particular in squamous cell carcinomas, in which FGFR is more often amplified. New therapeutic agents targeting FGFR signaling have been developed and are now in clinical evaluation. Dysregulation of FGF signaling in tumour cells is related to FGFR gene amplification or mutation, although it is still uncertain which of these aberrations represents a real predictor of response to specific inhibitors. However, recent evidence has questioned whether FGFR is a real target in squamous cell histology. The effectiveness of FGFR inhibitors is also still unclear since there are no clinical data on selected patients. Moreover, the management of specific side effects related to inhibition of the physiological role of FGF should be more thorough.
Abstract Background Age is considered as one of the most important risk-factor for many types of solid and hematological cancers, as their incidence increases with age in parallel to the ever-growing elderly population. Moreover, cancer incidence is constantly increasing as a consequence of the increase in life expectancy that favors the process of cellular senescence. Geriatric assessment has been increasingly recognized as predictive and prognostic instrument to detect frailty in older adults with cancer. In particular, the G8 score is a simple and reproducible instrument to identify elderly patients who should undergo full geriatric evaluation. Due to their frailty, elderly patients may be often under-treated and a therapeutic choice based also on a comprehensive geriatric assessment (CGA) is recommended. With these premises, we aim to test the impact of the CGA based interventions on the quality of life (QoL) of frail elderly onco-hematological patients, identified by the G8 screening, candidate for innovative target directed drugs or treatments including the combination of radiotherapy and chemotherapy (RT + CT). Methods Patients aged > 65 years, candidate to target directed agents or to RT + CT treatments are screened for frailty by the G8 test; those patients classified as frail (G8 ≤ 14) are randomized to receive a CGA at baseline or to conventional care. The primary endpoint is QoL, assessed by EORTC QLQ-C30C. As collateral biological study, the potential prognostic/predictive role of T-cell senescence and myeloid derived suppressor cells (MDSC) are evaluated on plasma samples. Discussion This trial will contribute to define the impact of CGA on the management of frail elderly onco-hematologic patients candidate to innovative biological drugs or to integrated schedules with the association of RT + CT. Furthermore, the use of plasma samples to assess the potential prognostic value of imbalance of immune-competent cells is expected to contribute to the individualized care of elderly patients, resulting into a fine tuning of the therapeutic strategies. Trial registration ClinicalTrials.gov ID: NCT04478916 . registered July 21, 2020 – retrospectively registered.
To reduce the rate of recurrence of incisional hernia repair associated with open anatomic techniques, we present an experimental study, focusing on two different sutures, with the aim to apply clinically in a revised version of the Mayo technique.Thirteen biological tissue samples from adult pig central brawn and upper and lower fasciae were measured using two techniques defined as "unbroken suture thread" and "separated suture stitches" to test the breaking resistance of the two types of suture.The t test results show that the two sets can be considered as different populations. The mean tensile stress max is greater (with reduced deviation) for the specimens of the set sutured with unbroken thread technique. Student's t-test performed on values obtained for each set of samples indicated that the unbroken thread suture technique corresponds to higher ultimate failure strength.Considering these results, a modified Mayo technique with continuous closure could be suggested. Of course a valid clinical study is required to better clarify this experimental hypothesis.
Non-small cell lung cancer (NSCLC) is one of the most common causes of cancer-related death worldwide. Based on the patient's stage of disease, treatment options include surgery, radiotherapy, and chemotherapy. Although chemotherapy remains the main therapeutic approach for advanced NSCLC, targeted therapy represents a good chance of treatment for this subgroup of patients. Currently this approach is based on previous evaluation of clinically relevant mutations and the Sanger sequencing is the main approach to assign mutational status and to guide the appropriate treatment; however this tool is characterized by a low sensitivity. Recently, the advent of next-generation sequencing (NGS) has dramatically revolutionized the molecular knowledge of cancer by increasing the feasibility and possibility to sequence DNA ranging from large scale studies to targeted regions. This review reports an overview of different applications of the NGS as novel approach to study NSCLC, thereby providing information about mutational spectrum of this cancer in order to identify novel targetable mutations and to predict the emergence of drug resistance. All studies demonstrated several advantages of this approach over the traditional tools. In particular the NGS was also able to reveal mutations in low percentage, and to screen the mutational status of different critical samples such as biopsies, cytological samples and circulating plasma DNA, offering innovative diagnostic opportunities. Despite several problems have to be overcome toward the personalized therapy, the NGS represents a highly attractive system to identify mutations improving the outcome of patients with this deadly disease.
