HiFent nasal high flow, provide higher flow rate than conventional oxygen treatment by touch screen during high flow oxygen therapy and process,ideal solution for offering FiO2 that can be auto proportional valve controled,mixed gas with controlled temperature and humidity , so as to achieve better airway management and raise the level of oxygenation.
IsoTour™ was designed using a combination of structural gel, multiple foam compositions and inflatable bladders to help reduce the risk of a patient acquiring a pressure injury while helping to reduce the effort it takes to reposition a patient. The patented gel technology and gel caps help to reduce the Tissue Interface Pressure (TIP). The new gel support surface can be converted into a powered product by connecting an external pump, thereby providing enhanced micro-climate management and turn assist for at-risk patients.
The da Vinci SP® surgical system is an advanced, robotic-assisted platform for minimally invasive surgery. It acts as a natural extension of a surgeon’s eyes and hands through a combination of cutting-edge robotics, 3DHD stereoscopic vision, and intuitive human-interface controls. The da Vinci SP system provides surgeons with technology designed for deep and narrow access to tissue in the body, delivering all of this capability through a single small incision.
The Infyna Chic is a compact and ready-to-use urinary intermittent catheter designed for women. The Infyna Chic catheter was designed with input from clinicians to help provide a high level of discretion for women who use catheters. It is beautiful and easy to use. The Infyna Chic catheter can help a woman feel better about having to use one.
The Ion endoluminal system is a new robotic platform for minimally invasive biopsy deep in the peripheral lung. The system features an ultra-thin, human-controlled robotic catheter that allows physicians to navigate into hard-to-reach airways with unprecedented stability and precision. Unique to Ion is its innovative shape-sensing technology that measures the full shape of the catheter hundreds of times per second, providing precise location and shape information throughout the entire navigation and biopsy process.
SureMAX is the first Titanium spinal implant that has a stiffness that matches the individual's bone stiffness as not to damage it once implanted. Bone loves to grow into Titanium but legacy Titanium cages have been limited because they are too stiff and damage the bone once implanted. SureMAX has solved this problem through using 3D print technology with geometries that are not machinable. It also has a porous roughen surface to encourage bone to grow into it. The 'diving' boards on SureMAX adjust to the patient's bone stiffness to assure the best fit and performance.