Published on in Vol 20, No 12 (2018): December

Preprints (earlier versions) of this paper are available at https://preprints.jmir.org/preprint/10802, first published .
Continuous Versus Intermittent Vital Signs Monitoring Using a Wearable, Wireless Patch in Patients Admitted to Surgical Wards: Pilot Cluster Randomized Controlled Trial

Continuous Versus Intermittent Vital Signs Monitoring Using a Wearable, Wireless Patch in Patients Admitted to Surgical Wards: Pilot Cluster Randomized Controlled Trial

Continuous Versus Intermittent Vital Signs Monitoring Using a Wearable, Wireless Patch in Patients Admitted to Surgical Wards: Pilot Cluster Randomized Controlled Trial

Journals

  1. Khanna A, Ahuja S, Weller R, Harwood T. Postoperative ward monitoring – Why and what now?. Best Practice & Research Clinical Anaesthesiology 2019;33(2):229 View
  2. MacKinnon G, Brittain E. Mobile Health Technologies in Cardiopulmonary Disease. Chest 2020;157(3):654 View
  3. Downey C, Ng S, Jayne D, Wong D. Reliability of a wearable wireless patch for continuous remote monitoring of vital signs in patients recovering from major surgery: a clinical validation study from the TRaCINg trial. BMJ Open 2019;9(8):e031150 View
  4. Leenen J, Leerentveld C, van Dijk J, van Westreenen H, Schoonhoven L, Patijn G. Current Evidence for Continuous Vital Signs Monitoring by Wearable Wireless Devices in Hospitalized Adults: Systematic Review. Journal of Medical Internet Research 2020;22(6):e18636 View
  5. Jonker L, Plas M, de Bock G, Buskens E, van Leeuwen B, Lahr M. Remote Home Monitoring of Older Surgical Cancer Patients: Perspective on Study Implementation and Feasibility. Annals of Surgical Oncology 2021;28(1):67 View
  6. Breteler M, KleinJan E, Numan L, Ruurda J, Van Hillegersberg R, Leenen L, Hermans M, Kalkman C, Blokhuis T. Are current wireless monitoring systems capable of detecting adverse events in high-risk surgical patients? A descriptive study. Injury 2020;51:S97 View
  7. Jonker L, Lahr M, Festen S, Oonk M, de Bock G, van Leeuwen B. Perioperative telemonitoring of older adults with cancer: Can we connect them all?. Journal of Geriatric Oncology 2020;11(8):1244 View
  8. McGillion M, Ouellette C, Good A, Bird M, Henry S, Clyne W, Turner A, Ritvo P, Ritvo S, Dvirnik N, Lamy A, Whitlock R, Lawton C, Walsh J, Paterson K, Duquette J, Sanchez Medeiros K, Elias F, Scott T, Mills J, Harrington D, Field M, Harsha P, Yang S, Peter E, Bhavnani S, Devereaux P. Postoperative Remote Automated Monitoring and Virtual Hospital-to-Home Care System Following Cardiac and Major Vascular Surgery: User Testing Study. Journal of Medical Internet Research 2020;22(3):e15548 View
  9. Murali S, Rincon F, Cassina T, Cook S, Goy J. Heart Rate and Oxygen Saturation Monitoring With a New Wearable Wireless Device in the Intensive Care Unit: Pilot Comparison Trial. JMIR Biomedical Engineering 2020;5(1):e18158 View
  10. Sakib N, Ahamed S, Khan R, Griffin P, Haque M. Unpacking Prevalence and Dichotomy in Quick Sequential Organ Failure Assessment and Systemic Inflammatory Response Syndrome Parameters: Observational Data–Driven Approach Backed by Sepsis Pathophysiology. JMIR Medical Informatics 2020;8(12):e18352 View
  11. Ng-kamstra J, Nepogodiev D, Lawani I, Bhangu A, Workneh R. Perioperative mortality as a meaningful indicator: Challenges and solutions for measurement, interpretation, and health system improvement. Anaesthesia Critical Care & Pain Medicine 2020;39(5):673 View
  12. Ravizza A, De Maria C, Di Pietro L, Sternini F, Audenino A, Bignardi C. Comprehensive Review on Current and Future Regulatory Requirements on Wearable Sensors in Preclinical and Clinical Testing. Frontiers in Bioengineering and Biotechnology 2019;7 View
  13. Breteler M, KleinJan E, Dohmen D, Leenen L, van Hillegersberg R, Ruurda J, van Loon K, Blokhuis T, Kalkman C. Vital Signs Monitoring with Wearable Sensors in High-risk Surgical Patients. Anesthesiology 2020;132(3):424 View
  14. Javanbakht M, Mashayekhi A, Trevor M, Rezaei Hemami M, L. Downey C, Branagan-Harris M, Atkinson J. Cost utility analysis of continuous and intermittent versus intermittent vital signs monitoring in patients admitted to surgical wards. Journal of Medical Economics 2020;23(7):728 View
  15. Sun L, Joshi M, Khan S, Ashrafian H, Darzi A. Clinical impact of multi-parameter continuous non-invasive monitoring in hospital wards: a systematic review and meta-analysis. Journal of the Royal Society of Medicine 2020;113(6):217 View
  16. Murali S, Brugger N, Rincon F, Mashru M, Cook S, Goy J. Cardiac Ambulatory Monitoring: New Wireless Device Validated Against Conventional Holter Monitoring in a Case Series. Frontiers in Cardiovascular Medicine 2020;7 View
  17. Walsh C, Zargaran D, Patel N, White A, Koumpa F, Tanna R, Ashraf M. Practical Considerations and Successful Implementation of Vital Signs Monitoring. Comment on “Continuous Versus Intermittent Vital Signs Monitoring Using a Wearable, Wireless Patch in Patients Admitted to Surgical Wards: Pilot Cluster Randomized Controlled Trial”. Journal of Medical Internet Research 2021;23(3):e14042 View
  18. King C, Kermode A, Saxena G, Carvelli P, Edwards M, Creagh-Brown B. Postoperative continuous non-invasive cardiac output monitoring on the ward: a feasibility study. Journal of Clinical Monitoring and Computing 2021;35(6):1349 View
  19. Leenen J, Dijkman E, van Dijk J, van Westreenen H, Kalkman C, Schoonhoven L, Patijn G. Feasibility of continuous monitoring of vital signs in surgical patients on a general ward: an observational cohort study. BMJ Open 2021;11(2):e042735 View
  20. Iqbal F, Joshi M, Davies G, Khan S, Ashrafian H, Darzi A. Design of the pilot, proof of concept REMOTE-COVID trial: remote monitoring use in suspected cases of COVID-19 (SARS-CoV-2). Pilot and Feasibility Studies 2021;7(1) View
  21. Iqbal F, Joshi M, Davies G, Khan S, Ashrafian H, Darzi A. The pilot, proof of concept REMOTE-COVID trial: remote monitoring use in suspected cases of COVID-19 (SARS-CoV 2). BMC Public Health 2021;21(1) View
  22. Van H, Hao N, Phan Nguyen Quoc K, Hai H, Khoa L, Yen L, Nhat P, Hai Duong H, Thuy D, Zhu T, Greeff H, Clifton D, Thwaites C. Vital sign monitoring using wearable devices in a Vietnamese intensive care unit. BMJ Innovations 2021;7(Suppl 1):s7 View
  23. Memon A, Lec P, Lenis A, Sharma V, Wood E, Schade G, Brisbane W. Relationship Between Mobile Digital Sensor Monitoring and Perioperative Outcomes: Systematic Review. JMIR Perioperative Medicine 2021;4(1):e21571 View
  24. Iqbal F, Joshi M, Khan S, Ashrafian H, Darzi A. Implementation of Wearable Sensors and Digital Alerting Systems in Secondary Care: Protocol for a Real-World Prospective Study Evaluating Clinical Outcomes. JMIR Research Protocols 2021;10(5):e26240 View
  25. Morgado Areia C, Santos M, Vollam S, Pimentel M, Young L, Roman C, Ede J, Piper P, King E, Gustafson O, Harford M, Shah A, Tarassenko L, Watkinson P. A Chest Patch for Continuous Vital Sign Monitoring: Clinical Validation Study During Movement and Controlled Hypoxia. Journal of Medical Internet Research 2021;23(9):e27547 View
  26. Javanbakht M, Moradi-Lakeh M, Mashayekhi A, Atkinson J. Continuous Monitoring of Respiratory Rate with Wearable Sensor in Patients Admitted to Hospital with Pneumonia Compared with Intermittent Nurse-Led Monitoring in the United Kingdom: A Cost-Utility Analysis. PharmacoEconomics - Open 2022;6(1):73 View
  27. Hawthorne G, Greening N, Esliger D, Briggs-Price S, Richardson M, Chaplin E, Clinch L, Steiner M, Singh S, Orme M. Usability of Wearable Multiparameter Technology to Continuously Monitor Free-Living Vital Signs in People Living With Chronic Obstructive Pulmonary Disease: Prospective Observational Study. JMIR Human Factors 2022;9(1):e30091 View
  28. Mølgaard J, Rasmussen S, Eiberg J, Sørensen H, Meyhoff C, Aasvang E. Continuous wireless pre‐ and postoperative vital sign monitoring reveal new, severe desaturations after vascular surgery. Acta Anaesthesiologica Scandinavica 2023;67(1):19 View
  29. Reamer C, Chi W, Gordon R, Sarswat N, Gupta C, Gaznabi S, White VanGompel E, Szum I, Morton-Jost M, Vaughn J, Larimer K, Victorson D, Erwin J, Halasyamani L, Solomonides A, Padman R, Shah N. Continuous Remote Patient Monitoring in Patients With Heart Failure (Cascade Study): Protocol for a Mixed Methods Feasibility Study. JMIR Research Protocols 2022;11(8):e36741 View
  30. van Kooten R, Voeten D, Steyerberg E, Hartgrink H, van Berge Henegouwen M, van Hillegersberg R, Tollenaar R, Wouters M. Patient-Related Prognostic Factors for Anastomotic Leakage, Major Complications, and Short-Term Mortality Following Esophagectomy for Cancer: A Systematic Review and Meta-Analyses. Annals of Surgical Oncology 2022;29(2):1358 View
  31. Downey C, Brown J, Jayne D, Randell R. Nursing staff perspectives of continuous remote vital signs monitoring on surgical wards: Theory elicitation for a realist evaluation. Journal of Evaluation in Clinical Practice 2022;28(3):394 View
  32. Iqbal F, Joshi M, Fox R, Koutsoukou T, Sharma A, Wright M, Khan S, Ashrafian H, Darzi A. Outcomes of Vital Sign Monitoring of an Acute Surgical Cohort With Wearable Sensors and Digital Alerting Systems: A Pragmatically Designed Cohort Study and Propensity-Matched Analysis. Frontiers in Bioengineering and Biotechnology 2022;10 View
  33. Ghazali D, Kenway P, Choquet C, Casalino E. Early diagnosis of sepsis using an E-health application for a clinical early warning system outside of the intensive care unit: a case report. Journal of Medical Case Reports 2022;16(1) View
  34. Wells C, Xu W, Penfold J, Keane C, Gharibans A, Bissett I, O’Grady G. Wearable devices to monitor recovery after abdominal surgery: scoping review. BJS Open 2022;6(2) View
  35. Haveman M, Jonker L, Hermens H, Tabak M, de Vries J. Effectiveness of current perioperative telemonitoring on postoperative outcome in patients undergoing major abdominal surgery: A systematic review of controlled trials. Journal of Telemedicine and Telecare 2024;30(2):215 View
  36. Portuondo J, Itani K, Massarweh N. Association Between Postoperative Complications and Long-term Survival After Non-cardiac Surgery Among Veterans. Annals of Surgery 2023;277(1):e24 View
  37. Huhn S, Axt M, Gunga H, Maggioni M, Munga S, Obor D, Sié A, Boudo V, Bunker A, Sauerborn R, Bärnighausen T, Barteit S. The Impact of Wearable Technologies in Health Research: Scoping Review. JMIR mHealth and uHealth 2022;10(1):e34384 View
  38. Ghiasi S, Zhu T, Lu P, Hagenah J, Khanh P, Hao N, Thwaites L, Clifton D. Sepsis Mortality Prediction Using Wearable Monitoring in Low–Middle Income Countries. Sensors 2022;22(10):3866 View
  39. Choi A, Chung K, Chung S, Lee K, Hyun H, Kim J. Advantage of Vital Sign Monitoring Using a Wireless Wearable Device for Predicting Septic Shock in Febrile Patients in the Emergency Department: A Machine Learning-Based Analysis. Sensors 2022;22(18):7054 View
  40. Aagaard N, Larsen A, Aasvang E, Meyhoff C. The impact of continuous wireless monitoring on adverse device effects in medical and surgical wards: a review of current evidence. Journal of Clinical Monitoring and Computing 2023;37(1):7 View
  41. Chau N, Trung T, Khanh P, Nhat P, Van H, Hai H, Thuy D, Tung N, Khoa D, Vien T, Hao N, Oanh P, Khoa T, Phong N, Nguyen N, Huynh J, Walker T, Van Nuil J, An L, McKnight J, Toan L, Tan L, Dung N, Truong N, Thwaites C. Wearable devices for remote monitoring of hospitalized patients with COVID-19 in Vietnam. Wellcome Open Research 2022;7:257 View
  42. Haveman M, van Melzen R, Schuurmann R, El Moumni M, Hermens H, Tabak M, de Vries J. Continuous monitoring of vital signs with the Everion biosensor on the surgical ward: a clinical validation study. Expert Review of Medical Devices 2021;18(sup1):145 View
  43. Nantume A, Kiwanuka N, Muyinda A, Cauvel T, Shah S. Accuracy and reliability of a wireless vital signs monitor for hospitalized patients in a low-resource setting. DIGITAL HEALTH 2022;8:205520762211022 View
  44. Leenen J, Dijkman E, van Hout A, Kalkman C, Schoonhoven L, Patijn G. Nurses’ experiences with continuous vital sign monitoring on the general surgical ward: a qualitative study based on the Behaviour Change Wheel. BMC Nursing 2022;21(1) View
  45. Kosa G, Morozov O, Lehmann A, Pargger H, Marsch S, Hunziker P. Robots and Intelligent Medical Devices in the Intensive Care Unit: Vision, State of the Art, and Economic Analysis. IEEE Transactions on Medical Robotics and Bionics 2023;5(1):2 View
  46. Bellini V, Pelosi P, Valente M, Gaddi A, Baciarello M, Bignami E. Using artificial intelligence techniques to support clinical decisions in perioperative medicine. Perioperative Care and Operating Room Management 2022;26:100236 View
  47. Haveman M, van Melzen R, Schuurmann R, Hermens H, Tabak M, de Vries J. Feasibility and patient’s experiences of perioperative telemonitoring in major abdominal surgery: an observational pilot study. Expert Review of Medical Devices 2022;19(6):515 View
  48. Guy I, Kerstein R. Surg(ery)ing Towards a Healthcare Revolution: Uptake of Digital Technologies Across Surgical Specialties. Surgical Innovation 2023;30(1):5 View
  49. Viderman D, Seri E, Aubakirova M, Abdildin Y, Badenes R, Bilotta F. Remote Monitoring of Chronic Critically Ill Patients after Hospital Discharge: A Systematic Review. Journal of Clinical Medicine 2022;11(4):1010 View
  50. Zhang Z, Chen L, Xu P, Wang Q, Zhang J, Chen K, Clements C, Celi L, Herasevich V, Hong Y. Effectiveness of automated alerting system compared to usual care for the management of sepsis. npj Digital Medicine 2022;5(1) View
  51. Leenen J, Rasing H, van Dijk J, Kalkman C, Schoonhoven L, Patijn G, Lumenta D. Feasibility of wireless continuous monitoring of vital signs without using alarms on a general surgical ward: A mixed methods study. PLOS ONE 2022;17(3):e0265435 View
  52. Vroman H, Mosch D, Eijkenaar F, Naujokat E, Mohr B, Medic G, Swijnenburg M, Tesselaar E, Franken M. Continuous vital sign monitoring in patients after elective abdominal surgery: a retrospective study on clinical outcomes and costs. Journal of Comparative Effectiveness Research 2023;12(2) View
  53. Areia C, Biggs C, Santos M, Thurley N, Gerry S, Tarassenko L, Watkinson P, Vollam S. The impact of wearable continuous vital sign monitoring on deterioration detection and clinical outcomes in hospitalised patients: a systematic review and meta-analysis. Critical Care 2021;25(1) View
  54. van der Stam J, Mestrom E, Nienhuijs S, de Hingh I, Boer A, van Riel N, de Groot K, Verhaegh W, Scharnhorst V, Bouwman R. A wearable patch based remote early warning score (REWS) in major abdominal cancer surgery patients. European Journal of Surgical Oncology 2023;49(1):278 View
  55. Santos M, Vollam S, Pimentel M, Areia C, Young L, Roman C, Ede J, Piper P, King E, Harford M, Shah A, Gustafson O, Tarassenko L, Watkinson P. The Use of Wearable Pulse Oximeters in the Prompt Detection of Hypoxemia and During Movement: Diagnostic Accuracy Study. Journal of Medical Internet Research 2022;24(2):e28890 View
  56. Somani S, Yu K, Chiu A, Sykes K, Villwock J. Consumer Wearables for Patient Monitoring in Otolaryngology: A State of the Art Review. Otolaryngology–Head and Neck Surgery 2022;167(4):620 View
  57. Fan E, Ang S, Phua G, Chen Ee L, Wong K, Tan F, Tan L, Ayre T, Chua C, Tan B, Yeo K. Factors to Consider in the Use of Vital Signs Wearables to Minimize Contact With Stable COVID-19 Patients: Experience of Its Implementation During the Pandemic. Frontiers in Digital Health 2021;3 View
  58. Afreen Banu E, Rajamani V. Design of Online Vitals Monitor by Integrating Big Data and IoT. Computer Systems Science and Engineering 2023;44(3):2469 View
  59. Peelen R, Eddahchouri Y, Koeneman M, Melis R, van Goor H, Bredie S. Comparing Continuous with Periodic Vital Sign Scoring for Clinical Deterioration Using a Patient Data Model. Journal of Medical Systems 2023;47(1) View
  60. Huynh M, Tjandra R, Helwa N, Okasha M, El-Falou A, Helwa Y. Continuous pH monitoring using a sensor for the early detection of anastomotic leaks. Frontiers in Medical Technology 2023;5 View
  61. Becking-Verhaar F, Verweij R, de Vries M, Vermeulen H, van Goor H, Huisman-de Waal G. Continuous Vital Signs Monitoring with a Wireless Device on a General Ward: A Survey to Explore Nurses’ Experiences in a Post-Implementation Period. International Journal of Environmental Research and Public Health 2023;20(10):5794 View
  62. Posthuma L, Preckel B. Initiatives to detect and prevent death from perioperative deterioration. Current Opinion in Anaesthesiology 2023;36(6):676 View
  63. Songthawornpong N, Vijayakumar T, Vang Jensen M, Elvekjaer M, Sørensen H, Aasvang E, Meyhoff C, Eriksen V. Continuous Monitoring of Vital Signs After Hospital Discharge: A Feasibility Study. PATIENT SAFETY 2023;5(2) View
  64. Laupland K, Tabah A, White K, Ramanan M. Exploiting Electronic Data to Advance Knowledge and Management of Severe Infections. Current Infectious Disease Reports 2023;25(11):273 View
  65. Chau N, Trung T, Khanh P, Nhat P, Van H, Hai H, Thuy D, Tung N, Khoa D, Vien T, Hao N, Oanh P, Khoa T, Phong N, Nguyen N, Huynh J, Walker T, Van Nuil J, An L, McKnight J, Toan L, Tan L, Dung N, Truong N, Thwaites C. Wearable devices for remote monitoring of hospitalized patients with COVID-19 in Vietnam. Wellcome Open Research 2023;7:257 View
  66. Lee J, Hwang Y, Park S. Rationale and Design of a Wearable Cardiopulmonary Monitoring System for Improving the Efficiency of Critical Care Monitoring. Applied Sciences 2023;13(24):13101 View
  67. Tran H, Urgessa N, Geethakumari P, Kampa P, Parchuri R, Bhandari R, Alnasser A, Akram A, Kar S, Osman F, Mashat G, Mohammed L. Detection and Diagnostic Accuracy of Cardiac Arrhythmias Using Wearable Health Devices: A Systematic Review. Cureus 2023 View
  68. Posthuma L, Breteler M, Lirk P, Nieveen van Dijkum E, Visscher M, Breel J, Wensing C, Schenk J, Vlaskamp L, van Rossum M, Ruurda J, Dijkgraaf M, Hollmann M, Kalkman C, Preckel B. Surveillance of high-risk early postsurgical patients for real-time detection of complications using wireless monitoring (SHEPHERD study): results of a randomized multicenter stepped wedge cluster trial. Frontiers in Medicine 2024;10 View
  69. Briggs J, Kostakis I, Meredith P, Dall’ora C, Darbyshire J, Gerry S, Griffiths P, Hope J, Jones J, Kovacs C, Lawrence R, Prytherch D, Watkinson P, Redfern O. Safer and more efficient vital signs monitoring protocols to identify the deteriorating patients in the general hospital ward: an observational study. Health and Social Care Delivery Research 2024:1 View
  70. Ardon A, Chadha R, George J. Post-discharge Care and Monitoring: What’s new, What’s Controversial. Current Anesthesiology Reports 2024;14(2):299 View
  71. Iqbal F, Aggarwal R, Joshi M, King D, Martin G, Khan S, Wright M, Ashrafian H, Darzi A. Barriers to and Facilitators of Key Stakeholders Influencing Successful Digital Implementation of Remote Monitoring Solutions: Mixed Methods Analysis. JMIR Human Factors 2024;11:e49769 View
  72. L S P, Khurdi S, G P, Mary S P. Impact of Remote Patient Monitoring Systems on Nursing Time, Healthcare Providers, and Patient Satisfaction in General Wards. Cureus 2024 View
  73. Saugel B, Fletcher N, Gan T, Grocott M, Myles P, Sessler D. PeriOperative Quality Initiative (POQI) international consensus statement on perioperative arterial pressure management. British Journal of Anaesthesia 2024 View
  74. Choo Y, Lee G, Moon J, Chang M. Application of non-contact sensors for health monitoring in hospitals: a narrative review. Frontiers in Medicine 2024;11 View

Books/Policy Documents

  1. Roasio A. The High-risk Surgical Patient. View