Xpansion MicroAutografting Kit provides Outpatient Split-thickness Skin Grafting utilizing Local Anesthetic. Demonstrated at the SAWC in Las Vegas, Nevada, September 26 thru September 28, 2015, Booth #515

Visit the SteadMed Medical LLC booth #515 at the 2015 fall SAWC in Las Vegas, Nevada for a demonstration of the Xpansion Micro-Autografting Kit. Xpansion takes an invasive, operating room and general anesthesia dependent autologous split-thickness skin grafting procedure (STSG) with limiting wound coverage potential and enables non-surgeons to perform…

Continue ReadingXpansion MicroAutografting Kit provides Outpatient Split-thickness Skin Grafting utilizing Local Anesthetic. Demonstrated at the SAWC in Las Vegas, Nevada, September 26 thru September 28, 2015, Booth #515

SBIR Phase II Grant Awarded for Next Generation NPWT and Delivery Platform

    April 4, 2015 Newton, Massachusetts Applied Tissue Technologies has been awarded a Phase II SBIR grant to further investigate it's next generation NPWT (negative pressure wound therapy) under contract # W81XWH-14-C-0015 and sponsored by the DHP/ Army.  Click to follow link to SBIR reference page. The two year…

Continue ReadingSBIR Phase II Grant Awarded for Next Generation NPWT and Delivery Platform

Japan Issues New Patent for Next Generation Negative Pressure Wound Therapy Device

October 10, 2014 Newton, MA Applied Tissue Technologies was issued yet another patent for their new next generation negative pressure device. The device eliminates the use of an intermediary layer such as foam or gauze with the use of an innovative and proprietary design utilizing microstructures. The elimination of the…

Continue ReadingJapan Issues New Patent for Next Generation Negative Pressure Wound Therapy Device

Another New Patent for Applied Tissue Technologies NPWT technology. Innovative technology and simplified design eliminates the foam or gauze wound filler.

April 17, 2014 Newton, Massachusetts Applied Tissue Technologies LLC announces news in advanced wound care with: An additional patent for simplifying the use of negative pressure wound therapy with a breakthrough design. The new patent is granted in China. The technology simplifies the administration of negative pressure wound therapy “NPWT”…

Continue ReadingAnother New Patent for Applied Tissue Technologies NPWT technology. Innovative technology and simplified design eliminates the foam or gauze wound filler.

Applied Tissue Technologies Announces additional Patent for next generation negative pressure wound therapy device

April 10, 2014 Newton, Massachusetts Applied Tissue Technologies LLC announces news in advanced wound care with: An additional patent for simplifying the use of negative pressure wound therapy with a breakthrough design. The new patent is allowed in Australia. The technology simplifies the administration of negative pressure wound therapy “NPWT”…

Continue ReadingApplied Tissue Technologies Announces additional Patent for next generation negative pressure wound therapy device

Applied Tissue Technologies Breakthrough NPWT design wins SBIR grant

      February 4, 2014 Newton, Massachusetts Following on the heels of the issuance of USPTO patent number 8,632,523, describing a revolutionary method and device to administer Negative Pressure Wound Therapy (NPWT), Applied Tissue Technologies has been awarded a Phase I SBIR grant to investigate negative pressure wound therapy…

Continue ReadingApplied Tissue Technologies Breakthrough NPWT design wins SBIR grant

Applied Tissue Technologies announces the issuance of a new patent simplifying the use of negative pressure wound therapy with a breakthrough design

      January 30, 2014 Newton, Massachusetts Applied Tissue Technologies LLC announces news in advanced wound care with: The issuance of a new patent simplifying the use of negative pressure wound therapy with a breakthrough design. The USPTO patent entitled "Wound Treatment Device Employing Negative Pressure," was issued on…

Continue ReadingApplied Tissue Technologies announces the issuance of a new patent simplifying the use of negative pressure wound therapy with a breakthrough design