A stoma dilation device that includes a tubular support and an inflatable dilation portion located on the tubular support. The inflatable dilation portion includes a stiffening portion and inflation lumen. The device may have a retention portion configured to have a diameter upon full, unrestrained inflation that is greater than the diameter of the dilation portion. The device is designed to be placed in a patient to dilate the stoma for the installation of a catheter feeding tube. The device may be placed and withdrawn with the use of an endoscope which need be inserted into the patient only one time. The single insertion of the endoscope significantly reduces the trauma to the patient in comparison with multiple endoscope insertion methods.

A system and methods for the delivery of oxygen through a body cavity of a subject using oxygen microbubbles. Through circulation of oxygen microbubbles through the body cavity, oxygen and carbon dioxide exchange may occur. Overall improvement in extending survival rate time during emergency situations caused by pulmonary or similar oxygen-intake restricting injury and/or failure may be achieved through use of the invented system and methods.

Systems and methods for monitoring nutritional uptake of an individual are disclosed. The method can include monitoring microflora intestinal gas concentration levels associated with a patient and adjusting the volume of nutrient provided by the patient with an artificial feeding device based at least in part on the microflora intestinal gas levels associated with the patient. A microflora intestinal gas sensor can be used to monitor the microflora intestinal gas associated with the patient. The microflora intestinal gas sensor can monitor the microflora intestinal gas in a patient's exhaled breath or in the patient's digestive tract. The microflora intestinal gas sensor be included as part of an enteral feeding system at the distal end or outside end of an enteral feeding tube. Systems and methods for monitoring nutritional uptake of an infant based on microflora intestinal gas levels associated with the infant are also disclosed.

A device for snugging a balloon of a catheter against an inner wall of an intra-corporeal lumen or surface serviced by the catheter includes a hollow column having a top end and a bottom end, forming a throughway sized to accommodate a tube of the catheter, and a flange extending from the bottom end of the hollow column generally perpendicularly to length of the hollow column. A slit is formed in the hollow column and the flange through which the hollow column is connectable to the tube of the catheter. The catheter is tugged to contact the balloon to the inner wall of the lumen, and the device is fixed to the tube of the catheter atop the skin of a body serviced by the catheter to tension pressure of the balloon against the inner wall.

A percutaneous endoscopic gastronomy tube device includes an elongate tube extending between a first end and a second end. A flange is coupled to the elongate tube at the second end. A force sensor is configured to generate a signal indicative of a force applied to the flange. Systems including the percutaneous endoscopic gastronomy tube device are also disclosed.

A gastric port system for transport of materials to the interior of a body cavity that may include a port configured to be disposed between a first body cavity and an area adjacent to the first body cavity. The gastric port system may further include a first bolster disposed on the port where the first bolster includes a magnet, and a second bolster disposed on the port where the second bolster includes a magnet, and the magnets are attracted to each other.

A catheter assembly incorporating a pre-biased indicator, the assembly includes a catheter having a proximal end, a distal end, and catheter walls defining a catheter lumen. The assembly further includes a base located at the proximal end of the catheter, the base defining an opening to the catheter lumen, the base having a first end and a second end. An inflatable balloon having a predetermined fill volume is located at a distal end of the catheter. An inflation valve is located on the base; the inflation valve is in fluid communication with the balloon through an inflation lumen defined by the catheter walls. The pre-biased indicator located on the base in fluid communication with the balloon is configured to provide a discrete visual signal that the pressure of a fluid in the balloon is different from a predetermined level of pressure or the volume of the balloon is different from the predetermined fill volume.

A stabilization device for a low-profile feeding device may include a pad and a stabilizer body. The low-profile feeding device may have a tube, an external bolster, and an internal bolster. The pad may include an opening extending from a top surface to a bottom surface thereof and configured for receiving the tube therethrough. The stabilizer body may be fixedly attached to the top surface of the pad and configured for extending over the external bolster. The stabilizer body may include a cavity configured for receiving a base portion of the external bolster therein, an opening extending from the cavity to a top surface of the stabilizer body and configured for allowing access to an access port of the external bolster, and a slit extending from the top surface toward a bottom surface of the stabilizer body and from the opening to a first end of the stabilizer body.

An ostomy re-feeder device is provided. The device is primarily comprised of at least one re-feeding tube, at least one face plate, and at least one bag. The device is designed to be used for direct stomal feeding and also as an independent ostomy collection system. The face plate attaches around a stoma on a user's body, wherein the re-feeding tube enters the face plate via an opening such that the tube can be placed into the stoma for re-feeding. When used as an ostomy collection system, the bag can be attached to the face plate over the stoma and the cutaway entry located on the silicone flange of the face plate or on the bag itself if accessed via accessory is maintained capped.

Devices, systems and methods for delivering nutrients to a patient are provided. A gastrostomy feeding device includes a device housing having a proximal portion having an opening therein, a channel operably connected to the opening in the proximal portion, a distal portion having an opening therein, a lumen operably connected to the opening in the distal portion, and a cavity formed within the device housing. The device also includes a rotatable member positioned completely within the cavity and that is rotatable within the cavity relative to the housing. The rotatable member includes a first opening and a second opening and a lumen extending therebetween. The rotatable member is rotatable from a closed configuration to an open configuration where the second opening of the rotatable member is operably connected to the lumen of the device housing. The device further includes an expandable member positioned on the distal portion.