Skin-safe, durable coated textiles for use in the manufacture of reusable blood pressure cuffs. Blood Pressure Cuffs (BP Cuffs) form an essential component of a sphygmomanometer, or blood pressure monitoring device. When attached to the patient’s arm, the cuff needs to be easily inflatable to collapse and then release the artery in a controlled manner in order to accurately measure blood pressure. Trelleborg Engineered Coated Fabrics manufactures coated fabric for: • External cuff – hook and loop compatible • Internal bladder – air holding fabric to allow easy inflation We can manufacture in a range of colors and widths to help differentiate your product range; as well as allowing different size cuffs for varying patient requirements.
United Kingdom
Skin-safe, durable coated textiles for use in the manufacture of ambulatory and pneumatic tourniquets. Tourniquets are non-invasive medical devices that are used on patient limbs to restrict blood flow in a specific area in order to achieve a bloodless surgical field. A tourniquet often has tubing inserted to allow air to pass through, which inflates the cuff and restricts the blood flow. There will also be a plastic insert used to give the cuff strength. Types of cuff are: Ambulatory Tourniquet The key feature of this cuff is that there should be no air loss within the system, as high pressure is required to ensure the patient has the best possible chance of surviving transport. Pneumatic Tourniquet / Surgical Tourniquet These can be single or dual-bladder cuffs designed to create a bloodless surgical field by applying pressure to blood flow in a limb. They are used during surgical procedures, quite often for orthopedic surgery, such as knee replacements.
United Kingdom
The Dartex® Endurance range was specifically engineered to withstand harsh chemical cleaning. With its exceptional lifetime, is this the toughest healthcare fabric in the world? CHEMICALLY RESISTANT The special polyurethane coating, specifically designed to resist chemical attack has been proven in case studies to lead to a 10-fold reduction in failure rate as a result of coating deterioration (27% to 1.9%). Better chemical resistance leads to: • reduced risk of hospital acquired infections • increased lifetime value of the mattress • lower mattress replacement rate, which in turn greatly speeds up and simplifies the process of auditing mattresses. BREATHABILITY The moisture vapour transmission (MVT) properties of PU keeps skin cool and dry, unlike PVC which doesn’t ‘breathe’ STRETCH & RECOVERY Essential for pressure redistribution and the prevention of avoidable pressure injuries EASILY CLEANED Either wipe clean or machine washable APPLICATIONS.
United Kingdom
The Dartex® Conductive range is widely used for applications where the prevention of static build-up is crucial, such as x-ray tables, medical scanners and operating theatres. The Dartex® Conductive range is designed with anti-static technology and tested for electrical resistance to BS2040/A.4.1. • Dissapates static build-up from medical diagnostic equipment, e.g. scanners and x-rays • Suitable for use in operating theatres • Maintains anti-static properties for the lifetime of the product Breathability – the moisture vapor transmission (MVT) properties of PU keeps skin cool and dry, unlike PVC which doesn’t ‘breathe’ Stretch & Recovery – essential for pressure redistribution and the prevention of avoidable pressure injuries Easily cleaned – either wipe clean or machine washable. Manufactured in the UK and USA, Trelleborg Engineered Coated Fabrics are: •PVC Free/Latex Free/Phthalate Free/Halogen Free FR •REACH & RoHS compliant
United Kingdom
Introducing sensing solutions for medical support surfaces from Dartex®. This innovative technology developed exclusively for use with Dartex® coated textiles, offers multiple sensing solutions for monitoring the patient condition in real time. Utilizing the latest knitting technologies, the sensors are woven into the textile and protected with industry trusted Dartex® polyurethane. When integrated with the bed system, vulnerable pressure points can be monitored and the sensors alert the patient and/or carer to reposition, either physically or mechanically. This eliminates the need for unnecessary interventions by the caregiver. Sensors can be configured to monitor; incontinence, humidity, movement, pressure and more… KEY BENEFITS • All key support surface properties maintained – functions as a support surface for avoidable pressure injury prevention • Eliminates the need for additional medical devices • No additional layers between patient and support surface