There is provided system for monitoring spontaneous breathing of a mechanically ventilated target individual, comprising: a feeding tube for insertion into a distal end of an esophagus of the individual, sensor(s) disposed on the feeding tube at a location such that the sensor(s) is located at the distal end of the esophagus of the individual when the feeding tube is in use, wherein the sensor(s) is positioned for sensing values by contact with the tissue of the esophagus including a lower esophageal sphincter (LES) and/or tissue in proximity to the LES, and code for computing an indication of a frequency band of diaphragm movement of the individual according to an analysis of values sensed by the sensor(s), and for adjustment of parameter(s) of a mechanical ventilator for mechanically ventilating the individual, wherein the instructions for adjustment are computed while the feeding tube is in use.

An enteral feeding connector, coupling or syringe tip configured for compatibility with blenderized feeding applications. The connector, coupling or syringe tip has a minimum internal bore dimension greater than the standard ENFit coupling specifications, to provide improved delivery of blenderized food.

Exemplary embodiments of the disclosure may be drawn to a device having one or more chambers. The one or more chambers may contain immobilized lipase and a phytosterol processing excipient. The device may also include an inlet fluidly connected to one of the one or more chambers, wherein the inlet is configured to receive nutritional formula into one of the one or more chambers. The device may further include an outlet through which nutritional formula is configured to flow after passing through the one or more chambers.

A device for visually verifying the proper placement of a tube (e.g. a nasogastric tube) in the body of a neonate, essentially includes an optical fiber and a light source. In combination, the light source is connected to the proximal end of the optical fiber. The light source is then activated to illuminate the optical fiber, and the illuminated optical fiber is advanced through the tube into the body of the neonate. Due to the translucent nature of neonate body tissue, the optical fiber illuminates both the tube and anatomical features of the neonate's internal organs. With this optical capability, a visual determination can be made as to whether the tube has been properly placed.

A method of performing a certification on an enteral feeding pump based on at least one operating parameter of the pump includes communicating certification information between the pump and a certification application remote from the pump. The at least one operating parameter is compared to a specified operating metric to verify that the at least one operating parameter of the pump is within the specified operating metric.

A hub component for a vented connector including a generally elongate cylindrical body having a first end and a second end. The first end of the hub component includes one or more fingers or clips for engagement with one or more vents of the vented connector. The second end of the hub component can be configured for compatible engagement with a carbon dioxide detector.

Enteral tube feed for patients in an intensive care unit comprising a lipid component, a carbohydrate component and at least 30 EN % of a protein component based on the total energy content of the enteral tube feed, wherein the protein component comprises a peptide fraction consisting of di-, tri- and oligopeptides with a molecular weight of at most 1 kD, wherein the peptide fraction provides at least 10 EN % of the total energy content of the enteral composition and wherein the carbohydrate component predominantly consists of carbohydrates having a GI of 35 such as isomaltulose for use in treatment of ICU patients.

A fluid delivery device and system is operable to fluidly couple a pair of fluid delivery conduits. One embodiment includes a fluid delivery device sized to meet ANSI/AAMI ID54:1996(R) 2005 and not mate with ANSI/HIMA MD70.1 or ISO 594/1 and ISO 594/2 standards for intravenous ports and connectors to prevent accidental intravenous delivery of fluids intended for enteral delivery. The system includes at least one of a locking tab and a stop flange configured to not mate with matching connectors not configured to satisfy the enteral feeding standards and not specifically configured to mate with the fluid delivery device.

In some embodiments, apparatuses and methods are provided herein useful to provide fluid nutrition and hydration. In one illustrative example, a feeding set for use with a peristaltic enteral feeding pump has sections of flexible tubing or conduit, a dispensing control valve that is in fluid communication with the tubing, and a retention disk. In some configurations, the feeding set has as attachment mechanism, which may be formed by one clips or hooks extending from the dispensing control valve and coupling geometry of the retention disk. By some approaches, the clips or hooks and the coupling geometry are configured to attach the feeding set with the pump, such as by attaching the feeding set to an internal panel of the feeding pump. In operation, the feeding set and pump are used to move fluid nutrition and hydration from a container or bag to the patient in a controlled manner.

An enteral pump system for delivering medical fluids unidirectionally includes a disposable fluid delivery set having a repeatable compression portion and an enteral feeding pump. The repeatable compression portion is helically coiled around a central axis to define a cylindrical shape. The compression portion is configured to pump a large volume of medical fluids per stroke. The compressing portion includes at least two adjacent tubing walls joined around the central axis for repeatable compression. The enteral feeding pump is configured to repeatedly and reliably compress the compression portion of the fluid delivery set along the central axis. In operation, the compression portion is repeatably compressed without distortion along the central axis by the enteral feeding pump to flow unidirectionally through the fluid delivery set.