| Item number | Description | Units per box |
|---|---|---|
| SSY0-BISITEIMPL | Implementation service | 1 |
| HCASTBIHUBW | Wi-Fi BioHub™ (hospital) | 1 |
| HCASTBIHUBWU | Wi-Fi BioHub™ (hospital) | 20 |
| HCASTBIHUBC | BioHub™ cellular (home) | 1 |
| HCASTBIBU | BioButton®* multi-parameter wearable | 195 |
| HCASTBIBPB | BioButton®* (per bed model) | 12 |
| SSY0-HCASTBIMONDP | BioButton®* data plan activation for 1 month | — |
| HCASTBIBADHPB | BioButton®* wearables adhesives | 60 |
| HCASTBIBADHU | BioButton®* wearables adhesives | 1500 |
| HCASTBIBDKFE | BioButton®* at-home kit; wearable, power brick, charging cable, and adhesives | 1 |
| HCASTBIBUNCEL | BioHub®* cellular bundle and data service plan for 12 months | 1 |
| SSY0-HCASTBIANNDPL | BioButton®* annual data plan; per bed for 12 months | — |
Intelligent patient managers
BioButton®* multi-parameter wearable
<p>The BioButton®* medical-grade wearable provides trending data on key vital signs and biometrics that serve as early indicators of patient decline. </p>
Features
Stay connected to what’s important with wearable monitors
Discover how the BioButton®* multi-parameter wearable can help you quickly become aware of declining vital signs for early intervention and identify patients who are stable enough to send home.
Remote monitoring wearables can help contribute to a patient’s recovery, which may also improve patient throughput.‡,1,2
Streamlined clinical workflow
When you spend less of the workday manually documenting vital signs, you can spend more of it caring for your patients.‡,3
Fewer threshold alarms mean healthcare providers can experience reduced alarm fatigue.‡,4
Better patient outcomes
Identify adverse patient trends quickly to lower unplanned ICU admissions‡,5–6 and decrease instances of complications.‡,5
Improved throughput
Confidently use trending data as a tool to identify stable patients who qualify for early discharge from the hospital.
Remote monitoring lets clinical teams get patients back to the comfort of their homes sooner with shorter hospital stays.‡,2,7
In-hospital
Manage the complexities of patient care
Deployment of continuous remote monitoring systems can help reduce patients’ length of stay,‡,7 improve a hospital’s overall throughput, decrease spot checking and manual charting to streamline workflow,‡,3 and improve patient outcomes.‡,1
- Empowers clinicians with actionable insights‡,1
- Allows them to spend more time with patients
Hospital-to-home
Stay in sync during the transition to home
The small and discreet BioButton®* multi-parameter wearable can provide cost-effective monitoring outside of the hospital setting,‡,8 so you can discharge confidently.
- Identify patients with potential for early discharge‡,2,7
- Reduce the likelihood of 30-day readmissions in patients with chronic illnesses such as COPD and CHF‡,9
- Reduce mortality rates‡,8
Hospital-at-home
Hospital monitoring continues at home
With the BioButton®* multi-parameter wearable as a part of your acute care-at-home program, you can provide care for patients while they continue to recover in the comfort of their own homes.
- Provides insightful patient data in between visits
- Helps providers understand patient trends and decide if intervention is required
- Extends hospital capacity beyond number of beds in units‡,7
Spot-checking is not enough
Collecting vitals manually only every
4–6 hours
can leave patients unmonitored
96% of the time,10
compromising the safety of
patients at high risk
of adverse events.11
But telemetry can be too much
Of those patients on telemetry, up to
76% do not meet criteria for it,12
alerting nurses with a daily average of
53 or more notifications per patient13
and leading to higher hospital costs.15
Bridge the gap with the BioButton®* multi-parameter wearable
Wide-ranging vital tracking captures 1,440 daily vital sign measurements compared to four spot‑checks.14
Reduce distraction with an average of just one notification per patient every nurse shift.‡,13
Every year, hospitals can save 200,000 lives and $19,940 per bed with continuous monitoring.§,15
A medical grade vital tool for vital signs
- BioButton®* wearable is small and discreet with replaceable long-lasting adhesives.16
- Clinical alarm fatigue is reduced with BioButton®* personalized baseline notifications with data frequency that is appropriate for all patients.‡,4
- Paired with the BioButton®* multi-parameter wearable device, the secure, purpose-built BioDashboard™ platform and BioMobile™ app allow clinicians to monitor the vital signs of patients who have been discharged from the hospital.
Ordering information
Resources
General disclaimer: Data from the BioButton®* multi-parameter wearable should not be used as the sole basis for diagnosis or therapy and are intended only as adjuncts to patient assessment.
®* Third party brands are trademarks of their respective owners.
† The BioButton®* multi-parameter wearable device is not intended for critical care monitoring.
‡ Based on studies done on devices using the same or some of the same monitoring parameters as the BioButton®* multi-parameter wearable.
§ Based on studies done on device using the same or some of the same monitoring parameters as the HealthCast™ intelligent patient monitoring portfolio, which includes the BioButton®* multi-parameter wearable.
- Stellpflug C, Pierson L, Roloff D, et al. Continuous physiological monitoring improves patient outcomes. Am J Nurs. 2021;121(4):40–46.
- Downey C, Randell R, Brown J, Jayne DG. Continuous versus intermittent vital signs monitoring using a wearable, wireless patch in patients admitted to surgical wards: pilot cluster randomized controlled trial. J Med Internet Res. 2018;20(12):e10802.
- Bellomo R, Ackerman M, Bailey M, et al. A controlled trial of electronic automated advisory vital signs monitoring in general hospital wards. Crit Care Med. 2012;40(8):2,349–2,361.
- Leenen JPL, Rasing HJM, van Dijk JD, Kalkman CJ, Schoonhoven L, Patijn GA. 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.
- 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. 2019;34(2):107–113.
- Weller RS, Foard KL, Harwood TN. Evaluation of a wireless, portable, wearable multi-parameter vital signs monitor in hospitalized neurological and neurosurgical patients. J Clin Monit Comput. 2018;32(5):945–951.
- Brown H, Terrence J, Vasquez P, Bates DW, Zimlichman E. Continuous monitoring in an inpatient medical-surgical unit: a controlled clinical trial. Am J Med. 2014;127(3):226–232.
- De Guzman KR, Snoswell CL, Taylor ML, Gray LC, Caffery LJ. Economic evaluations of remote patient monitoring for chronic disease: a systematic review. Value Health. 2022;25(6):897–913.
- Hamza M, Alsma J, Kellett J, et al. Can vital signs recorded in patients’ homes aid decision making in emergency care? A scoping review. Resusc Plus. 2021;6:100116.
- Weinger MB, Lee LA. No patient shall be harmed by opioid-induced respiratory depression. APSF Newsletter. 2011;26(2):21.
- Lee LA, Caplan RA, Stephens LS, et al. Postoperative opioid-induced respiratory depression: a closed claims analysis. Anesthesiology. 2015;122(3):659–665.
- Chong-Yik R, Bennett AL, Milani RV, Morin DP. Cost-saving opportunities with appropriate utilization of cardiac telemetry. Am J Cardiol. 2018;122(9):1570–1573
- Srinivasa E, Mankoo J, Kerr C. An evidence‐based approach to reducing cardiac telemetry alarm fatigue. Worldviews on Evid Based Nurs. 2017;14(4):265–273.
- BioIntellisense. BioIntelliSense launches new BioButton® rechargeable wearable device for continuous medical grade monitoring of 20 plus vital signs and biometrics. Published March 15, 2022. Accessed August 16, 2024.
- Association for the advancement of medical instruments (AAMI). Continuous electronic monitoring could save billions of dollars, thousands of lives, reports say. Published Aug. 18 2016. Accessed Oct 31, 2023.
- BioIntellisense. The award winning BioButton® medical grade wearable device for continuous remote monitoring. Published 2023. Accessed August 16, 2024.