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HealthCast™ portfolio

Introducing Corsano™ multi-parameter wearable

 

The future of patient monitoring is here.

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What is Corsano™ multi-parameter wearable?

The Corsano™ multi-parameter wearable, part of our HealthCast™ portfolio, is a wireless, wearable monitoring solution that supports clinicians and patients across the entire care journey—from pre-op to post-op, and even after discharge.1 Whether patients are preparing for surgery, recovering in the hospital, or healing at home, the Corsano™ multi-parameter wearable provides continuous, real-time visibility into their health status.1,2

  • Seamless Monitoring Anytime, Anywhere: Clinicians can track patient vitals from a central station or on the go via secure mobile access. 
  • Tailored to Every Patient: Customize vital sign parameters and monitoring frequency based on individual needs.
  • AI-Powered Alerts: Get instant notifications of clinical deterioration for faster, more informed intervention.
  • Flexible Early Warning Protocols: Use standard tools like NEWS2 or customize alerts to fit your workflow. 
  • Built-In Privacy: HIPAA-compliant data encryption protects patient confidentiality. 
  • Predictive, Benefit from real-time tracking and predictive analytics designed to inform clinician decision-making†,1,3.

By providing uninterrupted, actionable insights, Corsano™ multi-parameter wearable aims to help clinicians detect deterioration earlier, intervene faster, and deliver safer, more connected care.

Continuous multi-parameter monitoring anytime, anywhere

Continuous multi-parameter monitoring that is built for accuracy

Designed for comfort

Key features

Battery life 7 days

Weight 19 grams

Showerproof
Protected against powerful water jets

Closing the critical gap in patient multi-parameter monitoring

96%

Collecting vitals manually every 4–6 hours means patiens may remain unmonitored 96% of the time4, compromising the safety of patients at high risk of adverse events.4 Medtronic HealthCast™ with the Corsano™ solution aims to deliver continous, real-time monitoring, providing patient care never pauses, even after hospital discharge.1,2

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Key statistics clinicians need to know

4M

people die each year within a month of surgery.5

99.3%

of postoperative deaths occur within 30 days after noncardiac surgery.6

29.4%

of deaths happen after patients have been discharged.6

Wearable technology with real impact

Fewer unplanned ICU admissions
Reduced need for unplanned critical care, with fewer complications and trend to shorter LOS.†, 7-10

Continuous monitoring
Track vital signs in real time, for constant oversight of patient health.

Lower complication rates
Early intervention helps prevent medical complications.†, 7, 8, 11

Streamlined, safer workflows

Wearable technology with real impact†

9.9 mins saved per patient daily, boosting efficiency and engagement.†, 12

Reduced administrative burden
Wearable sensors reduce paperwork and time to manually collect vital signs.†, 13-15

3.32 days is the weighted mean reduction in hospital length of stay.†, 8

The patient journey, from hospital to home

Recovery doesn’t end at discharge. In fact, 29.4% of postoperative deaths occur after patients leave the hospital, during a time when monitoring often stops but risks remain.6

The Corsano™ solution, part of the HealthCast™ portfolio, extends patient monitoring beyond the clinical setting, bridging hospital care and home recovery without interruption. Free from wires, this medical-grade wearable delivers real-time tracking of key vital signs, including heart rate, respiration, oxygen saturation, and cuffless blood pressure.

Lightweight and showerproof, it is designed for patient comfort, it empowers clinicians with timely, actionable data, even when the patient is no longer in a hospital bed.1, 16 Whether they’re walking down the hallway, resting at home, or sleeping post-op, clinicians stay connected to their patients' status, through a flexible monitoring platform.

By enabling a seamless continuum of care, our solution aims to support earlier intervention, safer discharges, and better patient outcomes.

Trusted by your peers
See why Dr. Anthony Wilson’s team adopted the Corsano wearable at Manchester Royal Infirmary Foundation Trust.

AZ Maria Middelares

Home to hospital to home

"We decided to continue the project, to include more patients and to use the technology and other processses within our hospital and outside the hospital, so the coming months, are very exciting”

Peter Dierickx,
Chief Technology Officer

 

AZ Maria Middelares

Home to hospital to home

"I think the success points is better quality for our patients. You have a 24/7 idea of what the vital signs are of your patient after the procedure. And I think the added value of that is undeniable”

Koen Cathenis,
Head of the Cardian Surgery

 

Chelsea Westminster,
West Middlesex

Hospital to home use case

"The Corsano™ [multi-parameter wearable] allows us to evolve our care without compromise”

Dr. Sadia Khan,
Consultant Cardiologist

 

“This technology represents the next evolution in patient care— soon, we’ll wonder how we ever worked without it.”

Dr. Anthony Wilson, Chief Medical Information Officer, Manchester Royal Infirmary

“The patients are keen to see their data in real time, and they have their own app. I see this technology changing how we practice medicine in the future.”

Dr. Rahim Kanji, Consultant Interventional Cardiologist

and more!

Based on validation the Corsano™ multi-parameter wearable monitors consistently and accurately with no patient data is lost, whether in hospital or at home.1,16

Join the new era of connected care!

Be among the first to experience the future of patient monitoring. Fill in the form below to request a demo of the Corsano™ multiparameter wearable

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References

The Corsano™ multi-parameter wearable is manufactured by Corsano Health B.V and distributed by Medtronic.

The Corsano™ multi-parameter wearable should not be used as the sole basis for diagnosis or therapy and is intended only as an adjunct in patient assessment.

†Based on studies done on devices using same or some of the same monitoring parameters as the Corsano™ multiparameter wearable

1. Corsano CardioWatch 287-2, Bracelet & Mobile Patient App Instruction Manual. 

2. Corsano CardioWatch 287-2, Bracelet System Security Overview.

3. Stellpflug C, Pierson L, Roloff D, et al. Continuous physiological monitoring improves patient outcomes. Am J Nurs. 2021;121(4):40–46.

4. Curry JP, Jungquist CR. A critical assessment of monitoring practices, patient deterioration, and alarm fatigue on inpatient wards: a review. Patient Saf Surg. 2014 Jun 27;8:29. doi: 10.1186/1754-9493-8-29. PMID: 25093041; PMCID: PMC4109792. 

5. Nepogodiev D, Martin J, Biccard B, Makupe A, Bhangu A; National Institute for Health Research Global Health Research Unit on Global Surgery. Global burden of postoperative death. Lancet. 2019 Feb 2;393(10170):401. doi: 10.1016/S0140-6736(18)33139-8. PMID: 30722955.

6. Vascular Events in Noncardiac Surgery Patients Cohort Evaluation (VISION) Study Investigators; Spence J, LeManach Y, Chan MTV, Wang CY, Sigamani A, Xavier D, Pearse R, Alonso-Coello P, Garutti I, Srinathan SK, Duceppe E, Walsh M, Borges FK, Malaga G, Abraham V, Faruqui A, Berwanger O, Biccard BM, Villar JC, Sessler DI, Kurz A, Chow CK, Polanczyk CA, Szczeklik W, Ackland G, X GA, Jacka M, Guyatt GH, Sapsford RJ, Williams C, Cortes OL, Coriat P, Patel A, Tiboni M, Belley-Côté EP, Yang S, Heels-Ansdell D, McGillion M, Parlow S, Patel M, Pettit S, Yusuf S, Devereaux PJ. Association between complications and death within 30 days after noncardiac surgery. CMAJ. 2019 Jul 29;191(30):E830-E837. doi: 10.1503/cmaj.190221. PMID: 31358597; PMCID: PMC6663503. 

7. Eddahchouri Y, Peelen RV, Koeneman M, Touw HR, van Goor H, Bredie SJ. Effect of continuous wireless vital sign monitoring on unplanned ICU admissions and rapid response team calls: a before-and-after study. British Journal of Anaesthesia. 2022 May 1;128(5):857-63.

8. Sun L, Joshi M, Khan SN, 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 Jun;113(6):217-24.

9. Verrillo SC, Cvach M, Hudson KW, Winters BD. Using continuous vital sign monitoring to detect early deterioration in adult postoperative inpatients. J Nurs Care Qual. Apr/Jun 2019;34(2):107-113.

10. Rowland BA, Motamedi V, Michard F, Saha AK, Khanna AK. Impact of continuous and wireless monitoring of vital signs on clinical outcomes: a propensity-matched observational study of surgical ward patients. British Journal of Anaesthesia. 2024 Mar 1;132(3):519-27.

11. Becking-Verhaar FL, Verweij RP, de Vries M, Vermeulen H, van Goor H, Huisman-de Waal GJ. 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 May 11;20(10):5794

12. Sigvardt E, Grønbæk KK, Jepsen ML, Søgaard M, Haahr L, Inácio A, Aasvang EK, Meyhoff CS. Workload associated with manual assessment of vital signs as compared with continuous wireless monitoring. Acta Anaesthesiologica Scandinavica. 2024 Feb;68(2):274-9.

13. Bliven, Bryan MIS; Bragg, Mike BS; Long, Benji BMET. Medical Device Connectivity Case Study. Journal of Clinical Engineering 41(2):p E1-E11, April/June 2016. | DOI: 10.1097/JCE.0000000000000144.

14. van Melzen R, Haveman ME, Schuurmann RCL, Struys MMRF, de Vries JPM. Implementing Wearable Sensors for Clinical Application at a Surgical Ward: Points to Consider before Starting. Sensors (Basel). 2023 Jul 27;23(15):6736. doi: 10.3390/s23156736. PMID: 37571519; PMCID: PMC10422413.

15. Weller GB, Mault J, Ventura ME, Adams J, Campbell FJ, Tremper KK. A Retrospective Observational Study of Continuous Wireless Vital Sign Monitoring via a Medical Grade Wearable Device on Hospitalized Floor Patients. J Clin Med. 2024 Aug 13;13(16):4747. doi: 10.3390/jcm13164747. PMID: 39200889; PMCID: PMC11355593.

16. Report 20240620: Corsano CardioWatch_Clinical Evaluation Summary Report 20240620.

Brief statement

This material should not be considered the exclusive source of information, it does not replace or supersede information contained in the device manual(s).

Please note that the intended use of a product may vary depending on geographical approvals. See the device manual(s) for detailed information regarding the intended use, the implant procedure, indications, contraindications, warnings, precautions, and potential adverse events.

For a MRI compatible device(s), consult the MRI information in the device manual(s) before performing a MRI. If a device is eligible for eIFU usage, instructions for use can be found at Medtronic’s website manuals.medtronic.com.

Manuals can be viewed using a current version of any major internet browser. For best results, use Adobe Acrobat® Reader with the browser.