Insights from a single centre implementation of a digitally-enabled atrial fibrillation virtual ward.
Keenan SalehJasjit SyanPavidra SivanandarajahMichael WrightSarah PearseJodian BarrettJames BirdGrant McQueenSadia KhanPublished in: PLOS digital health (2024)
Atrial fibrillation (AF) is the most prevalent cardiac arrhythmia and poses a significant public health burden. Virtual wards are a novel approach utilising digital solutions to provide hospital-level care remotely; their rollout has become a key priority for the UK National Health Service to expand acute care capacity. We devised and implemented a digitally-enabled AF virtual ward to monitor patients being established onto medical therapy following an AF diagnosis or an AF-related hospitalisation. Patients were onboarded either as outpatients to avoid admission or on discharge after an acute AF hospitalisation. Remote monitoring was undertaken using a clinically validated photoplethysmography-based smartphone app. Over a 1-2 week period, patients performed twice daily measurements of heart rate and rhythm and provided corresponding symptoms. A traffic light system guided frequency of telephone assessments by specialist practitioners. Red flag symptoms or abnormal heart rate parameters prompted an urgent care escalation. We report our experience of the first 73 patients onboarded to the AF virtual ward from October 2022 to June 2023 (mean age 65 years, median 68 years, IQR range 27-101 years; 33 females). Thirty-nine (53%) patients had red flag features requiring care escalation, of whom 9 (23%) were advised to attend ED (emergency department) for urgent assessment, 10 (26%) attended for expedited review and 14 (36%) required medication changes. By 3 months post-monitoring, only 3 patients (4%) had re-attended ED with an arrhythmia-related presentation. Virtual ward patients had an average 3-day shorter inpatient stay (mean duration 4 days) compared with AF patients hospitalised prior to virtual ward implementation (mean duration 7 days). Overall, 22 arrhythmia-related readmissions were prevented via the virtual ward model. In this study, we present a novel implementation of a digitally-enabled virtual ward for the acute management of patients with newly diagnosed or poorly controlled AF. Our pilot data indicate that this model is feasible and is potentially cost-effective. Further longitudinal study is needed to definitively evaluate long-term clinical utility and safety.
Keyphrases
- newly diagnosed
- atrial fibrillation
- emergency department
- heart rate
- public health
- end stage renal disease
- healthcare
- ejection fraction
- palliative care
- physical activity
- prognostic factors
- primary care
- quality improvement
- machine learning
- bone marrow
- risk factors
- health insurance
- cell therapy
- mesenchymal stem cells
- deep learning
- artificial intelligence
- left ventricular
- venous thromboembolism
- patient reported outcomes
- respiratory failure
- mechanical ventilation
- aortic dissection