Aerosol Delivery with HVNI A Survey of Practice

Hi Vni Technology. Vapotherm Liz Moran Design Hi-VNI is a system for high flow humidified respiratory therapy by a ® Vapotherm approved interface High velocity therapy and WOB reduction: The fact that small-bore cannulas reduce the time required to fully purge the upper airway dead space is significant because as the respiratory rate of a patient in respiratory distress increases, the time between breaths decreases

Vapotherm Solus Medical
Vapotherm Solus Medical from www.solusmedical.com

The water and gas pathways are both incorporated into a removable, disposable patient circuit.. Vapotherm Emergency Medicine Pocket Guide 2 Hi-VNI Cannula Selection Hi-VNI Cannula Sizes Flow Range Tip OD Premature 1-8 L/min 1.5 mm Neonatal 1-8 L/min 1.5 mm SOLO (single prong) 1-8 L/min 1.9 mm Infant 1-8 L/min 1.9 mm Intermediate Infant 1-8 L/min 1.9 mm Pediatric Small 1-20 L/min 1.9 mm Pediatric/Adult Small 5-40 L/min 2.7 mm Adult 5-40 L/min 4.8 mm Fitting the Hi-VNI Cannula:

Vapotherm Solus Medical

Vapotherm is a fast-growing developer and supplier of advanced respiratory support products based on Hi-VNI® Technology It incorporates the Vapotherm core humidification technology with an electronic blender and flow controller Vapotherm is a fast-growing developer and supplier of advanced respiratory support products based on Hi-VNI® Technology

REED MED. The water and gas pathways are both incorporated into a removable, disposable patient circuit.. Hi-VNI Technology has a simple nasal cannula that delivers warm, humidified air without sealing to the face, making it comfortable for patients and reducing the risks and care complexities associated with mask therapies

Imagine the Ventilatory Support of NiPPV with the Comfort of Humidified. Hi-VNI is a system for high flow humidified respiratory therapy by a ® Vapotherm approved interface High velocity therapy and WOB reduction: The fact that small-bore cannulas reduce the time required to fully purge the upper airway dead space is significant because as the respiratory rate of a patient in respiratory distress increases, the time between breaths decreases