Promising results from HeadPeace functionality study

Jul 17, 2017

To minimize cranial exposure to ionizing radiation, 10MD has developed HeadPeace, which recently has proven its functionality and comfortability in clinical studies at Regional Hospital Halland. 

10MD has completed a project together with researchers at HealthTechnology Center at Halmstad University (HCH), Sweden. The objective was to investigate how external load may affect head and work posture utilizing anthropometrics, biomechanics and ergonomics parameters in a clinical environment. The project was carried out with the departments of Interventional Cardiology and Vascular Surgery at Regional Hospital Halland. The clinical test confirmed that HeadPeace provides good comfort and good usability in clinical environments. The HeadPeace project was funded and managed by HCH.

- "These very promising results from customer evaluations will support the use of HeadPeace and will boost market introductions", says Mrs Petra Apell, one of the founders of 10MD.

The dosage of ionizing radiation among interventional cardiologists is the greatest registered by any medical staff using x-rays. To mitigate the risk of radiation exposure, the use of leaded aprons, thyroid gland and glasses are mandatory. However, the operators’ legs, arms, neck, and cranium are not fully protected. To minimize cranial exposure to ionizing radiation, 10MD has developed a new unique head protection device - HeadPeace. Following a regulatory approval, HeadPeace is the innovative and comfortable way to protect medical personnel from scatter radiation during any interventional procedure. HeadPeace is based on the unique patented lightweight, lead-free and woven composite NAFT. 

HCH is a health innovation arena within Halmstad University and is funded by the European Union and Region of Halland. 

Ten Medical Design AB (10MD) is a medical technology company committed to providing innovative products for radiation protection to healthcare professionals.  10MD has developed an attenuating material, NAFT to enabling improved design of ergonomic and hygienic personal protection equipment. 


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