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Quantification and monitoring of lean body mass is an important component of nutrition assessment to determine nutrition status and muscle loss. The negative impact of reduced muscle mass and muscle function is increasingly evident across acute and chronic disease states but is particularly pronounced in patients with cancer. Ultrasound is emerging as a promising tool to directly measure skeletal muscle mass and quality. Unlike other ionizing imaging techniques, ultrasound can be used repeatedly at the bedside and may compliment nutritional risk assessment. This review aims to describe the current use of skeletal muscle ultrasound (SMUS) to measure muscle mass and quality in patients with acute and chronic clinical conditions and its ability to predict functional capacity, severity of malnutrition, hospital admission, and survival. Databases were searched from their inception to August 2021 for full‐text articles in English. Relevant articles were included if SMUS was investigated in acute or chronic clinical contexts and correlated with a defined clinical outcome measure. Data were synthesized for narrative review due to heterogeneity between studies. This review analysed 37 studies (3100 patients), which met the inclusion criteria. Most studies (n = 22) were conducted in critical care. The clinical outcomes investigated included functional status at discharge (intensive care unit‐acquired weakness), nutritional status, and length of stay. SMUS was also utilized in chronic conditions such as chronic obstructive pulmonary disease, chronic heart failure, and chronic renal failure to predict hospital readmission and disease severity. Only two studies investigated the use of SMUS in patients with cancer. Of the 37 studies, 28 (76%) found that SMUS (cross‐sectional area, muscle thickness, and echointensity) showed significant associations with functional capacity, length of stay, readmission, and survival. There was significant heterogeneity in terms of ultrasound technique and outcome measurement across the included studies. This review highlights that SMUS continues to gain momentum as a potential tool for skeletal muscle assessment and predicting clinically important outcomes. Further work is required to standardize the technique in nutritionally vulnerable patients, such as those with cancer, before SMUS can be widely adopted as a bedside prognostic tool.

Oesophageal adenocarcinoma (OAC) is one of the ten most prevalent forms of cancer and is showing a rapid increase in incidence and yet exhibits poor survival rates. Compared to many other common cancers, the molecular changes that occur in this disease are relatively poorly understood. However, genes encoding chromatin remodeling enzymes are frequently mutated in OAC. This is consistent with the emerging concept that cancer cells exhibit reprogramming of their chromatin environment which leads to subsequent changes in their transcriptional profile. Here, we have used ATAC-seq to interrogate the chromatin changes that occur in OAC using both cell lines and patient-derived material. We demonstrate that there are substantial changes in the regulatory chromatin environment in the cancer cells and using this data we have uncovered an important role for ETS and AP1 transcription factors in driving the changes in gene expression found in OAC cells.

These are updated guidelines which supersede the original version published in 2004. This work has been endorsed by the Clinical Services and Standards Committee of the British Society of Gastroenterology (BSG) under the auspices of the oesophageal section of the BSG. The original guidelines have undergone extensive revision by the 16 members of the Guideline Development Group with representation from individuals across all relevant disciplines, including the Heartburn Cancer UK charity, a nursing representative and a patient representative. The methodological rigour and transparency of the guideline development processes were appraised using the revised Appraisal of Guidelines for Research and Evaluation (AGREE II) tool.Dilatation of the oesophagus is a relatively high-risk intervention, and is required by an increasing range of disease states. Moreover, there is scarcity of evidence in the literature to guide clinicians on how to safely perform this procedure. These guidelines deal specifically with the dilatation procedure using balloon or bougie devices as a primary treatment strategy for non-malignant narrowing of the oesophagus. The use of stents is outside the remit of this paper; however, for cases of dilatation failure, alternative techniques—including stents—will be listed. The guideline is divided into the following subheadings: (1) patient preparation; (2) the dilatation procedure; (3) aftercare and (4) disease-specific considerations. A systematic literature search was performed. The Grading of Recommendations Assessment, Develop­ment and Evaluation (GRADE) tool was used to evaluate the quality of evidence and decide on the strength of recommendations made.

Background The long-term physiological consequences of SARS-CoV-2 (severe acute respiratory syndrome coronavirus) infection are not known. The ability of COVID-19 to cause chronic illness, sarcopenia, and physical deconditioning may be underestimated and go beyond the anticipated respiratory sequelae. Myalgia, lethargy, and anorexia are common symptoms even in mild to moderate cases and have the potential to exacerbate frailty. How this impacts on risk-stratification for patients requiring surgery for time-critical conditions, such as malignancy, requires further urgent investigation. Main body The deleterious effect of sarcopenia and poor physical capacity are well recognised in cancer surgery. This review commentary highlights current evidence which suggests skeletal muscle as an under recognised cause of COVID-19-related functional deconditioning. The mechanisms behind this are via direct (viral induced myositis, nutritional decline, cytokine-mediated myopathy) and indirect mechanisms (social isolation, inactivity, and psychological consequences). Conclusion Further mechanistic research is required to explore the processes behind the deconditioning effects of SARS-CoV-2 infection and how this impacts on treatment of malignant disease.

Oesophageal adenocarcinoma (OAC) is one of the most common causes of cancer deaths. Barrett’s oesophagus (BO) is the only known precancerous precursor to OAC, but our understanding about the molecular events leading to OAC development is limited. Here, we have integrated gene expression and chromatin accessibility profiles of human biopsies and identified a strong cell cycle gene expression signature in OAC compared to BO. Through analysing associated chromatin accessibility changes, we have implicated the transcription factor KLF5 in the transition from BO to OAC. Importantly, we show that KLF5 expression is unchanged during this transition, but instead, KLF5 is redistributed across chromatin to directly regulate cell cycle genes specifically in OAC cells. This new KLF5 target gene programme has potential prognostic significance as high levels correlate with poorer patient survival. Thus, the repurposing of KLF5 for novel regulatory activity in OAC provides new insights into the mechanisms behind disease progression. Acid fluids present in the gut can sometimes ‘go up’ and damage the oesophagus, the pipe that connects the mouth and the stomach. As a result, a small number of individuals can develop Barrett’s oesophagus, a condition where cells in the lining of the lower oesophagus show abnormal shapes. In certain patients, these cells then become cancerous, but exactly how this happens is unknown. This lack of understanding contributes to late diagnoses, limited treatment and low survival rates. Many cancers feature ‘signature’ mutations in a set of genes that controls how a cell can multiply. Yet, in the case of cancers of the lower oesophagus, known genetic changes have had a limited impact on our understanding of the emergence of the disease. Here, Rogerson et al. focused instead on non-genetic changes and studied transcription factors, the proteins that bind to regulatory regions of the DNA to switch genes on and off. A close inspection of cancer cells in the lower oesophagus revealed that, in that state, a transcription factor called KLF5 controls the abnormal activation of genes involved in cell growth. This is linked to the transcription factor adopting a different pattern of binding onto regulatory regions in diseased cells. Crucially, when the cell growth genes regulated by KLF5 are activated, patients have lower survival rates. Further work is now required to examine whether this finding could help to identify patients who are most at risk from developing cancer. More broadly, the results from the work by Rogerson et al. demonstrate how transcription factors can be repurposed in a disease context.

Gastric antral vascular ectasia (GAVE), though a rare disorder, causes up to 4% of non-variceal upper GI bleeding. This paper gives an overview of studies examining clinical presentation and pathophysiology, and reviews the current evidence for invasive and non-invasive treatments. GAVE is often associated with systemic illnesses, such as cirrhosis of the liver, autoimmune connective tissue disorders, bone marrow transplantation and chronic renal failure. The pathophysiological changes leading to GAVE have not been fully explained and remain controversial. Patient presentation varies from chronic iron-deficiency anaemia to heavy acute gastrointestinal bleeding. It is important to differentiate GAVE from portal hypertensive gastropathy as GAVE does not respond to measures reducing portal pressures. Endoscopic ablation (Nd:YAG-laser or argon plasma coagulation) is the first-line treatment of choice. As evidence for pharmacological therapy with oestrogen (and/or progesterone), tranexamic acid or thalidomide stems from case reports only, these should be used if endoscopic measures have failed to stop chronic blood loss. Surgical antrectomy should be reserved for unresponsive cases as it is associated with a high mortality. Ultimately, treatment of the underlying medical co-morbidities may lead to resolution of GAVE.

ObjectivesThe top 10 research priorities (RPs) for Barrett’s oesophagus (BO) were published in 2017. This study aimed to identify the current research landscape on addressing RPs.DesignSystematic mapping review.Data sourcesClinicalTrials.gov, EU Clinical Trials Register and ISRCTN registry.Eligibility criteriaAdult (>18 years) interventional studies registered in those three registers from 31 August 2017 to 1 July 2024 and addressing any of the top 10 RPs were eligible.Data extraction and synthesisTwo researchers extracted data using prespecified tables, from the three registers and pooled them together.ResultsWe identified clinical trials (n=735) registered in the last 7 years (ClinicalTrials.gov (611), EU Clinical Trials (63), ISRCTN (61)), and 244 were included as they addressed RPs, after removing 14 duplicates. Most studies (168/244, 69%) addressed RP8 (searching alternative treatments for reflux), including medicinal products (86/168 (51%)), surgical methods (29/168 (17%)) and endoscopic methods (26/168 (15%)). There were 41/244 (17%) trials registered aiming investigations for screening and surveillance of BO in a primary care setting (RP3). 92% of studies were distributed among RP8, RP3 and RP5. The remaining RPs (RP1, RP2, EP4, RP6, RP7 and RP9) had only 8% of 244 studies, while the RP10 had none.ConclusionA higher concentration of studies on RP8, RP3 and RP5 may demonstrate the high clinical and global commercial demand on them, while the scarcity of trials for RP1, RP2, RP4, RP6, RP7, RP9 and RP10 unveils gaps in research meeting priorities. This unequal distribution of the trial landscape raises the question: do we correctly address the RPs?

Background Many members of the ETS-domain transcription factor family are important drivers of tumourigenesis. In this context, their activation by Ras-ERK pathway signaling is particularly relevant to the tumourigenic properties of many ETS-domain transcription factors. The PEA3 subfamily of ETS-domain transcription factors have been implicated in tumour metastasis in several different cancers. Results Here, we have studied the expression of the PEA3 subfamily members PEA3/ETV4 and ER81/ETV1 in oesophageal adenocarcinomas and determined their role in oesophageal adenocarcinoma cell function. PEA3 plays an important role in controlling both the proliferation and invasive properties of OE33 oesophageal adenocarcinoma cells. A key target gene is MMP-1 . The ERK MAP kinase pathway activates PEA3 subfamily members and also plays a role in these PEA3 controlled events, establishing the ERK-PEA3-MMP-1 axis as important in OE33 cells. PEA3 subfamily members are upregulated in human adenocarcinomas and expression correlates with MMP-1 expression and late stage metastatic disease. Enhanced ERK signaling is also more prevalent in late stage oesophageal adenocarcinomas. Conclusions This study shows that the ERK-PEA3-MMP-1 axis is upregulated in oesophageal adenocarcinoma cells and is a potentially important driver of the metastatic progression of oesophageal adenocarcinomas.

Background Survival rates for oesophageal adenocarcinoma (OAC) remain disappointingly poor and current conventional treatment modalities have minimal impact on long-term survival. This is partly due to a lack of understanding of the molecular changes that occur in this disease. Previous studies have indicated that the transcription factor FOXM1 is commonly upregulated in this cancer type but the impact of this overexpression on gene expression in the context of OAC is largely unknown. FOXM1 does not function alone but works alongside the antagonistically-functioning co-regulatory MMB and DREAM complexes. Methods To establish how FOXM1 affects gene expression in OAC we have identified the FOXM1 target gene network in OAC-derived cells using ChIP-seq and determined the expression of both its coregulatory partners and members of this target gene network in OAC by digital transcript counting using the Nanostring gene expression assay. Results We find co-upregulation of FOXM1 with its target gene network in OAC. Furthermore, we find changes in the expression of its coregulatory partners, including co-upregulation of LIN9 and, surprisingly, reduced expression of LIN54 . Mechanistically, we identify LIN9 as the direct binding partner for FOXM1 in the MMB complex. In the context of OAC, both coregulator (eg LIN54 ) and target gene (eg UHRF1 ) expression levels are predictive of disease stage. Conclusions Together our data demonstrate that there are global changes to the FOXM1 regulatory network in OAC and the expression of components of this network help predict cancer prognosis.