临床研究Clinical

Equivital 无线遥测:活动量、体温、心率--临床研究


About Equivital - Physiological Monitoring Solutions

Equivital is a brand developed to harness the power and value of mobile human data, that is data from real people in real environments.


Equivital Integrated Physiological Monitor 无线遥测: 体温、心率--临床研究

Go Wireless with Equivital !


Equivital mobile human monitoring and real world physiological data management solutions


Equivital develops technologies within the IoT (Internet of Things) which contribute to delivering its vision of accessible, real-time and accurate human data of professional rather than consumer quality.

Equivital offers 3 ranges of products; TnR for researchers, Orann for Pharmaceutical clinical trials and Healthcare applications and Black Ghost for Industrial and Professional safety and welfare applications.  These products combine Equivital’s human sensor capability with communications and software systems that allow efficient management of high volumes of variable, real time and retrospective data.

Equivital’s flagship LifeMonitor is a body worn sensor which measures multiple physiological parameters from a single device, has FDA 510K clearance and is CE marked.  The device can be used for both sedentary, clinical and highly ambulatory real world applications.

Already used and trusted by over 200 organisations Equivital products bring the ability to measure and manage human data to the professional market, today.



Monitor your subjects without the nuisance of wires or probes that can get tangled, snagged, pulled at and pulled off. VitalSense wireless sensors free your subjects and provide a more convenient, reliable and satisfying solution. The VitalSense System includes wireless sensors, a small monitor, software and accessories. VitalSense is designed to be effective for monitoring temperature, in active or inactive subjects and in indoor and outdoor environments such as:

  • Clinical trials
  • Sports Medicine Research
  • Exercise Physiology
  • Military medicine/military training
  • Pre- or post-operative outpatient monitoring
  • Healthcare telemedicine
  • Hazardous occupations

http://www.equivital.co.uk/     


quivital.co.uk
Mobile human monitoring 
 Better Data  Better Decisions  Better Performance
HIDA3330-RPE-0.1-1.7       
Temperature Teunissen L.P.J, A de Haan, de Koning J.J, Clairbois H.E, Daanen H.A.M. Limitations of temperature measurement in the aural canal with an ear mould integrated sensor. 2011.Physiol. Meas. 32 (2011) 1403–1416. 
YH Shen. JW Zheng. ZB Zhang, CM Li. Design and Implementation of a Wearable, Multiparameter Physiological Monitoring System for the Study of Human Heat Stress, Cold Stress, and Thermal Comfort. Instrumentation Science & Technology, 2012 
M. Buller. W. Tharion. R. Hoyte. O. Jenkins. Estimation of Human Internal Temperature from Wearable Physiological Sensors. Natick 2012 pp 1 – 6 
Seeberg, T.M.; Vardøy, Astrid-Sofie; Taklo, M.M.; Austad, H.O. Decision Support for Subjects Exposed to Heat Stress. Biomedical and Health Informatics, IEEE Journal of Issue 99 Feb 2013
Xiaojiang Xu, Anthony J. Karis, Mark J. Buller, William R. Santee.  Relationship between core temperature, skin temperature, and heat flux during exercise
in heat. European Journal of Applied Physiology, June 2013.     
Mark J Buller, William J Tharion, Samuel N Cheuvront, Scott J Montain, Robert W Kenefick, John Castellani, William A Latzka, Warren S Roberts, Mark Richter, Odest Chadwicke Jenkins, Reed W Hoyt. Estimation of human core temperature from sequential heart rate observations. Physiological Measurement Volume 34 Number 7, July 2013 
Mark Buller1, Eric Sodomk, William Tharion, Cynthia Clements, Reed Hoyt, Odest Chadwicke Jenkin. Policies to Optimize Work Performance and Thermal Safety in Exercising Humans. Association for the Advancement of Artificial Intelligence, 2013 
M Bizzini, FM Impellizzeri, J Dvorak, L Bortolan. Physiological and performance responses to the “FIFA 11+”(part 1): is it an appropriate warm-up? Journal of Sports Sciences Volume 31, Issue 13, 2013 
Mark J Buller, William J Tharion, Samuel N Cheuvront, Scott J Montain, Robert W Kenefick, John Castellani, William A.  Latzka, Warren S Roberts, Mark Richter, Odest Chadwicke Jenkins and Reed W Hoyt. Estimation of human core temperature from sequential heart rate