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☐ ☆ ✇ BMJ Open

Protocol: Faecal microbiota transfer in liver cancer to overcome resistance to atezolizumab/bevacizumab - a multicentre, randomised, placebo-controlled, double-blind phase II trial (the FLORA trial)

Por: Rauber · C. · Roberti · M. P. · Vehreschild · M. J. · Tsakmaklis · A. · Springfeld · C. · Teufel · A. · Ettrich · T. · Jochheim · L. · Kandulski · A. · Missios · P. · Mohr · R. · Reichart · A. · Waldschmidt · D. T. · Sauer · L. D. · Sander · A. · Schirmacher · P. · Jäger · D. · Michl — Septiembre 10th 2025 at 05:45
Introduction

Combined vascular endothelial growth factor/programmed death-ligand 1 blockade through atezolizumab/bevacizumab (A/B) is the current standard of care in advanced hepatocellular carcinoma (HCC). A/B substantially improved objective response rates compared with tyrosine kinase inhibitor sorafenib; however, a majority of patients will still not respond to A/B. Strong scientific rationale and emerging clinical data suggest that faecal microbiota transfer (FMT) may improve antitumour immune response on PD-(L)1 blockade. Early trials in melanoma with FMT and reinduction of immune checkpoint blockade (ICI) therapy in patients with anti-PD-1-refractory metastatic melanoma were reported in 2021 and demonstrated reinstatement of response to ICI therapy in many patients. Due to anatomical vicinity and the physiological relevance of the gut-liver axis, we hypothesise HCC to be a particularly attractive cancer entity to further assess a potential benefit of FMT in combination with ICI towards increased antitumour immunity. Additionally, HCC often occurs in patients with liver cirrhosis, where liver function is prognostically relevant. There is evidence that FMT may increase hepatic function and therefore could positively affect outcome in this patient population.

Methods and analysis

This prospective, multicentre, randomised, placebo-controlled, double-blind phase II clinical trial has been designed to assess immunogenicity and safety of FMT via INTESTIFIX 001 combined with A/B in advanced HCC in comparison to A/B with placebo. Primary endpoints are measured as tumour CD8+ T cell infiltration after 2 cycles of treatment with vancomycin, A/B+INTESTIFIX 001 in comparison to vancomycin-placebo, A/B+INTESTIFIX 001-placebo and safety of the therapeutic combination in advanced HCC. INTESTIFIX 001 is an encapsulated FMT preparation by healthy donors with a high alpha-diversity in their gut microbiome for oral administration, manufactured by the Cologne Microbiota Bank (CMB). Sample size was calculated to achieve a specific expected accuracy for the primary immunological endpoint. 48 subjects will be randomised to reach a goal of 42 usable measurements in the modified intention-to-treat set. Subjects will be randomised in a 2:1 ratio to A/B or placebo (28 A/B, 14 placebo).

Ethics and dissemination

The study was approved by ethics committee review and the German Federal Ministry of Drugs and Medical Devices. The trial is registered under EU CT no. 2023-506887-15-00. The outcome of the study will be disseminated via peer-reviewed publications and at international conferences.

Trial registration number

NCT05690048.

☐ ☆ ✇ BMJ Open

Investigating the combined effects of statins and exercise on skeletal muscle mitochondrial content and function, cardiorespiratory fitness and quality of life in individuals with dyslipidaemia: protocol for a randomised placebo-controlled trial

Por: Sjurtharson · T. · Larsen · S. · Jensen · S. B. K. · Bejder · J. · Rasmussen · J. · a Borg · S. · Kristiansen · J. · Meinhardsson · J. M. · Olsen · H. W. · Ellingsgaard · H. · Vigh-Larsen · J. F. · Nordsborg · N. B. · Mohr · M. — Junio 5th 2025 at 09:00
Introduction

Dyslipidaemia, affecting approximately 39% of adults worldwide, is a major risk factor for cardiovascular disease. Individuals with dyslipidaemia are often prescribed statins, which effectively lower plasma low-density lipoprotein cholesterol (LDL-C), thereby reducing the risk of cardiovascular events and mortality. Although statins lower LDL-C, emerging evidence suggests that they may counteract the beneficial adaptations to exercise in skeletal muscle mitochondria and whole-body aerobic capacity. The underlying mechanisms remain unclear, and there is a need for studies investigating how statins influence molecular adaptations to exercise. The primary objective of this study is to investigate the combined effects of statin therapy and focused exercise training on mitochondrial function and whole-body aerobic capacity in people with dyslipidaemia. The untargeted proteomic analysis will be incorporated to provide detailed insights into how statins may affect mitochondrial proteins and other muscle metabolic traits, offering molecular explanations for altered functional readouts at both the muscle and whole-body levels.

Methods and analysis

A total of 100 women and men (aged 40–65 years) diagnosed with dyslipidaemia without atherosclerotic cardiovascular disease will be enrolled in this 12-week, double-blinded, randomised, placebo-controlled trial. Participants will be randomised into one of four groups using a block randomisation approach to ensure an allocation ratio of 60:40 for exercise and non-exercise conditions, respectively. The four groups will be: (1) exercise+placebo, (2) exercise+atorvastatin (80 mg/day), (3) atorvastatin (80 mg/day) and (4) placebo. The primary outcome is mitochondrial function, measured by changes in skeletal muscle citrate synthase activity from baseline to post-intervention. Secondary outcomes include whole-body aerobic capacity (VO2peak) and proteomic analyses. Genetic analysis will be conducted to assess the role of genetic polymorphisms in individual responses to statins and exercise.

Ethics and dissemination

The trial has received ethical approval from the Faroe Islands Ethical Committee (2024-10) and adheres to the Declaration of Helsinki and General Data Protection Regulation (GDPR). Results will be published in peer-reviewed international journals.

Trial registration number

NCT06841536.

☐ ☆ ✇ BMJ Open

Apnoeic oxygenation during paediatric tracheal intubation: a study protocol for a single-centre, cluster randomised clinical trial (ApOx-Pedi-Trial)

Por: Uzun · D. D. · Zimmermann · B. P. · Knoeller · S. · Kirchner · M. · Mohr · S. · Weigand · M. A. · Zivkovic · A. R. · Schmitt · F. C. F. — Mayo 2nd 2025 at 12:04
Introduction

Adverse events during paediatric anaesthesia are common, with hypoxaemia during the induction period being a leading cause, as infants and children are particularly vulnerable to hypoxaemia during periods of apnoea. The administration of supplementary oxygen, referred to as apnoeic oxygenation, has been shown to prolong safe apnoea times and increase first-pass intubation success rates. Despite these benefits, apnoeic oxygenation is not routinely used in paediatric anaesthesia. Low-flow apnoeic oxygenation, delivered via a standard nasal cannula, is a simple approach to provide supplementary oxygen during paediatric airway management without requiring additional equipment. However, its efficacy in airway management during elective surgeries has not been adequately studied.

Methods and analysis

The ApOx-Pedi-Trial is a single-centre, cluster randomised, controlled clinical trial comparing the use of low-flow apnoeic oxygenation during the induction of general anaesthesia in infants and children up to 6 years of age undergoing elective surgery at the Department of Pediatric Surgery at Heidelberg University Hospital to standard of care (no apnoeic oxygenation). Randomisation is conducted using a weekly cluster randomisation method, where all patients presenting for surgery in a given week either receive apnoeic oxygenation or standard of care during the induction of general anaesthesia, based on the week’s group allocation.

The study population will consist of two independent, age-stratified cohorts (24 months to 6 years), each including 100 patients. Statistical analysis of study endpoints will be conducted separately for each cohort to allow for age-specific assessment of outcomes.

The primary objective of this trial is to evaluate whether apnoeic oxygenation can prevent a decrease in transcutaneous haemoglobin saturation (SpO2) during the induction of general anaesthesia in infants and children. The primary outcome measure will be the lowest recorded SpO2 value throughout the apnoeic period.

Ethics and dissemination

The ApOx-Pedi-Trial received permission from the local ethics committee (Ethics Committee of the medical faculty at Heidelberg University, Heidelberg, Germany) under the registration number S-074–2024. The study is following institutional Guidelines and the Declaration of Helsinki of 1975 in its most recent version. Trial results will be submitted to peer-reviewed journals and presented at national and international conferences.

Trial registration number

The trial is prospectively registered on ClinicalTrials.gov with the number NCT06576596.

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