Trials / Not Yet Recruiting

Not Yet RecruitingNCT07483775

Feasibility and Health-economic Evaluation of Remote Clinical Monitoring Enabling Same-day Discharge After Bariatric Surgery

Feasibility and Health-economic Evaluation of Remote Clinical Monitoring Enabling Same-day Discharge After Bariatric Surgery: a Randomized Controlled Pilot Feasibility Trial

Summary

The ultimate goal of this research is to optimize care for patients undergoing laparoscopic bariatric surgery while alleviating pressure on hospital resources and staff. Furthermore, the study aims to generate policy-relevant data that can inform policymakers and healthcare providers in developing funding models and care pathways that balance safety, efficiency, and cost-effectiveness. This could support a broader implementation of ambulatory bariatric surgery without compromising quality of care.

Detailed description

Obesity affects over one billion people worldwide and continues to increase . Bariatric surgery, especially laparoscopic Roux-en-Y gastric bypass (RYGB), is an effective treatment for severe obesity and related health issues. Over the last decade, gastric bypass surgery has been performed more frequently through laparoscopic RYGB than open surgery. This minimally invasive alternative offers less postoperative pain, a quicker recovery, a shorter hospital stay, decreased morbidity, reduced intraoperative blood loss, and reduced healthcare costs. Traditionally, these surgeries require hospital stays, but there is growing interest in optimizing care pathways to improve recovery and reduce hospital resource utilization. While same-day discharge (SDD) protocols aim to minimize hospital stay, concerns remain about patient safety after early discharge. Without continuous monitoring, early signs of complications such as bleeding, infection, or respiratory distress may be missed or detected too late, potentially leading to emergency readmissions or worse outcomes. Remote monitoring technologies offer the potential to address this gap by enabling real-time surveillance of vital signs, thus allowing for earlier detection of complications and timely interventions. Enhanced Recovery After Surgery (ERAS) protocols have established guidelines that outline improved perioperative care by promoting early post-surgical mobilization, a multimodal approach to analgesia, and the prevention of postoperative nausea. These improvements have made SDD after bariatric surgery possible and have shown promising feasibility and safety in select patient groups. However, most evidence comes from specialized centers under controlled conditions, and the broad implementation of SDD remains limited. One key challenge in the broader adoption of SDD is ensuring patient safety after discharge. Although remote monitoring appears promising, its added value in the specific context of ambulatory bariatric surgery remains insufficiently studied. It remains unclear whether this technology improves outcomes, adherence, or patient satisfaction compared to current care pathways. Despite the possible benefits of outpatient procedures, the transition from inpatient to outpatient care poses significant challenges in many healthcare systems. In Belgium, for example, SDD bariatric surgery can lead to substantial reductions in hospital reimbursement, creating a financial disincentive for hospitals to implement SDD pathways. This situation highlights the urgent need for robust data demonstrating the feasibility, safety, and economic implications of SDD combined with remote monitoring in bariatric surgery. This pilot study aims to investigate the use of a wearable patient monitoring system (mWearTM, Mindray©) for SDD combined with continuous remote monitoring of patients after minimally invasive RYGB in a Belgian healthcare context. The wearables will be connected to a platform that measures vital signs, including heart rate, respiratory rate, blood pressure, body temperature, and oxygen saturation. All data will be displayed on a dashboard (BeWell), enabling 24/7 patient monitoring by a care center, Z-plus, which will serve as the telemonitoring hub. After discharge, parameters will be continuously measured and are forwarded to the BeWell platform hourly, with follow-up via the BeWell mobile application for the administration of questionnaires and tailored recovery advice via push notifications, as well as video contact by Z-plus which is foreseen up to and including Post Operative Day 1 (POD 1). Patients are also given a personal alarm to take home. Z-plus will screen all input from the BeWell mobile application, as well as the parameters that are obtained via the wearable monitoring system. Interventions will be initiated if alarming values are detected. This study aims to assess the feasibility of implementing this care model. Additionally, a health-economic analysis will be conducted.

Conditions

• Roux-en Y Gastric Bypass

Interventions

Timeline

Start date

2026-03-09

Primary completion

2027-12-31

Completion

2027-12-31

First posted

2026-03-19

Last updated

2026-03-19

Locations

1 site across 1 country: Belgium

Source: ClinicalTrials.gov record NCT07483775. Inclusion in this directory is not an endorsement.