News Release

New technology to transform blood processing

Peer-Reviewed Publication

University of Strathclyde

Laurie Shedden, University of Strathclyde

image: University of Strathclyde bioengineer Laurie Shedden demonstrates the technology. view more 

Credit: University of Strathclyde

A pioneering surgical blood salvage technology developed at the University of Strathclyde, Glasgow, is set to transform the way major surgery is carried out by reducing blood loss in patients.

HemoSep is set to revolutionise the health care sector after gaining the CE mark and receiving Canadian national approval, following highly successful clinical trials in the world leading University of Kirikkale University Hospital in Ankara, Turkey.

The device is designed to recover blood spilled during open-heart and major trauma surgery and concentrate the blood cells for transfusion back to the patient. This process, known as autotransfusion, reduces the volume of donor blood required and the problems associated with transfusion reaction.

Professor Terry Gourlay, who led the development of the technology at the University's Department of Biomedical Engineering, said: "This is a fantastic example of real collaboration between the University of Strathclyde and the medical device industry to take this device from concept to clinical delivery.

"The introduction of HemoSep to the medical device field will make a significant difference to people's lives and greatly reduce the cost and risks associated with blood transfusions. The technology has distinct advantages over traditional techniques which are not only costly but technically challenging and involve the use of a complex centrifuge and pumping apparatus by specialist technicians.

"We expect further developments in the form of a derivative of this technology for use in children undergoing open-heart surgery where the challenges of blood conservation are even more critical."

In the clinical trials, carried out in over 100 open-heart surgery operations, the use of the HemoSep device significantly reduced the need for blood transfusions together with preservation of normal clotting mechanisms and a reduction in the inflammatory reaction often encountered after such surgical procedures.

The device consists of a blood bag which employs a chemical sponge technology and a mechanical agitator to concentrate blood sucked from the surgical site or drained from the heart-lung machine after the surgery. The separated cells are then returned to the patient by intravenous transfusion.

Professor Serdar Gunaydin, Head of Cardiac Surgery at the University of Kirikkale where the trials were conducted, said: "The technology is a real step forward in the field of autotransfusion for cardiac surgery, being highly effective, easy to use and associated with a reduction in the need for donor transfusion and blood loss in these patients.

"In the climate of national blood product shortages and concern for disease transmission and immunosuppression, every effort should be made to optimise blood recovery and reduce allogeneic blood usage.

"The HemoSep technology has produced impressive results, it is the easiest method we have ever used. There is no interference with the ongoing operation and product is ready to use following a very short processing time. It quickly and safely recovers substantial proteins, clotting factors and cell concentrates for all types of cardiac procedures.

"We believe this new technology will be one of the essential components of the routine heart surgery in the near future. We even think this technique may be useful for blood preservation during transplantation, orthopedics and neurosurgery."

Further clinical trials are planned, but the CE mark means that the device will now be sold to the healthcare sector. HemoSep has been licensed to Advancis Surgical Ltd. The company will market and sell the device in all European territories, other regions which recognise the CE mark and Canada.

Mr Stephen Cotton, Advancis Surgical Ltd director of research and development, said: "We are delighted to be able to make this announcement which comes after considerable shared effort to develop this exciting product. We hope that this success will be the first of many through our collaboration with the University of Strathclyde."

Professors Gourlay and Gunaydin will present the results of the recent clinical trials at the European Society for Artificial Organs congress in Rostock, Germany in September to correspond with Advancis' commercial launch of the device.

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