Portable laser for skin surgery & aesthetic treatments achieved using off-the-shelf LEDs as light source.
A novel multi-zonal anisotropic osteochondral scaffold has been developed which mimics the natural structure of articular cartilage with zone specific mechanical and biological properties
ENGINI is a next generation neural implant technology for brain machine interfaces (BMIs) applicable to both central and peripheral nervous system
Using smartphone technology to assess cardiac health
The novel technology uses voltage-based method to differentiate cancerous from non-cancerous tissue and can detect a wide range of cancerous tissue in real-time.
A robotic optical-biopsy scanning framework termed EndoDrone is proposed to improve the sensitivity of gastrointestinal (GI) endoscopy by automated scanning and real-time classification of wide tissue areas based on optical data. A “hot-spot” map is generated to highlight dysplastic or cancerous lesions for further scrutiny or concurrent resection. The device works as an add-on accessory to any conventional endoscope and to our knowledge is the first of its kind. The current functional prototype, which uses hyperspectral (HS) optical biopsy, is compatible with the anatomical dimensions of the colon, is envisaged to allow the identification of flat and small precancerous lesions that are currently missed.
The technology relates to a novel rotative surgical clip and applicator that allows the clamping of large anatomical areas for use in minimally invasive surgery.
A new filter to remove Arsenic in drinking water. The ImpAs sorbent is composed of a di-zinc complex immobilised onto an ImpAs resin. This novel material has a high adsorbing capacity which makes it unique for applications in point-of-use and point-of-entry water treatment systems to remove arsenic from contaminated water.