The present invention is generally directed to a regulator system for a gastric tube (“g-tube”) medication or nutrient delivery system. Specifically, the present invention is directed to an inline regulator system that controls gas and fluid flow through the g-tube delivery system in either direction.
G-tube nutrient or medication delivery systems are systems in which a g-tube is inserted through the abdomen wall and into the stomach for delivery of nutrient or medication solutions directly into the patient's stomach. G-tubes are ordinarily no more than sterilized plastic tubing with fixation devices that prevent the tubing from being inadvertently removed. The simplicity of the g-tubes necessarily simplifies the installation of the g-tube as g-tubes are frequently inserted and maintained by individuals without medical training, such as family caretakers or the patient themselves. However, the simplicity of g-tube feeding systems also presents a number of inherent challenges that can present significant challenges for caregivers as well as significant health risks for patients.
Unlike natural stomach openings that are opened or closed by the stomach muscles surrounding the opening, the g-tube opening is surgically formed and as such has no surrounding muscles to selectively open or close the mouth of the g-tube opening. Instead, the g-tube is often designed to specifically prevent the mouth of the g-tube opening from healing closed to avoid uncontrolled closure of the g-tube opening. The inability to selectively open or close the mouth of the g-tube opening prevents the stomach from naturally controlling the flow of fluids and gases through the g-tube. As a result, stomach contents frequently enter the g-tube and clog the g-tube. Despite the risk of clogging the g-tube, flow through the g-tube in either direction is often unrestricted as the g-tube can serve as a vent through which gases generated during digestion can be vented. Accordingly, patients or caregivers are often instructed to accommodate the venting process by frequently flush the g-tube prior to each feeding or medicating rather than attempt to prevent the stomach contents from entering the g-tube. Even with frequent cleaning, g-tubes often become unusable after a short period of time and must be regularly replaced. The frequent cleaning and replacement of the g-tube can be expensive and often taxing for patients and care givers, who often only have very basic training in the use and replacement of the g-tube. The lack of medical training can also create significant risk of infection or complication for the patient or caregiver if the g-tube is not properly handled or positioned.
Moreover, when a nutrient or medication supply system is not connected to the g-tube, the digestion gases created within the stomach can push the stomach contents out of the stomach during venting and expel the contents from the g-tube. Accordingly, patients must often take special precautions to avoid spilling the stomach contents when sleeping or when the g-tube is not carefully monitored. In addition to creating a biologically hazardous situation, the patient loses valuable nutrients and medications contained within the stomach contents that are often particularly necessary for a recovering patient. Similarly, when the supply system is connected, the gases can push the stomach contents through the g-tube and clog or contaminate the supply system.
Although g-tubes significantly simplify the feeding and medicating process, the inherent challenges of maintaining g-tubes in proper working order can create substantial challenges for patients and caretakers. Accordingly, there is need for efficiently controlling the flow of gases and solids through the nutrient and medication system in either direction.
A regulator system for handling the flow of gases and fluids between a nutrient and medication supply system and an implanted g-tube, according to an embodiment of the present invention, can comprise a container assembly defining a generally vertical chamber positioned between an inlet assembly at the top of the container and an outlet assembly at the bottom of the chamber. A supply system can be linked to the inlet assembly for providing a nutrient or medication solution into the container. A g-tube implanted into the stomach can be linked to the outlet of the container for receiving the nutrient or medication solution from the supply system. The chamber acts a gravimetric separator for separating gases and fluids that are received within the chamber from either the nutrient or medication supply solution or the backflow from the stomach through the g-tube. The container further comprises at least one vent hole at the top of the container for venting gases separated from the supply solution or the stomach backflow. The chamber generally operates as a temporary reservoir for capturing and retaining the desired fluids as the gases are separated from the fluids for venting. The chamber retains the desired fluids before the fluids are drained through the outlet assembly and into the patient through the g-tube.
The outlet assembly can further comprise a valve operable to restrict or permit the flow of supply solution or back flow between the g-tube and the chamber. When administering a supply solution, the valve is opened to allow the supply solution to enter the g-tube and on to the patient. In one aspect, bottom of the container can be shaped to funnel any fluid within the container into the outlet assembly and the valve. As the supply solution enters the container any air bubbles within the supply solution separate from the solution and collect within the container until vented through the vent hole. Similarly, between feeding the valve can remain open to allow backflow from the stomach to travel through the g-tube and into the chamber. In one aspect, the valve can be closed to capture and retain a portion of the stomach contents or supply solution within the reservoir. In one aspect, the outlet valve can comprise a secondary inlet for administering a cleaning solution directly into the g-tube for flushing the g-tube while retaining the desired fluids within the chamber until the g-tube is flushed.
Similarly, the clamp can also isolate the g-tube for separation of the feeding system or cleaning of the chamber to prevent uncontrolled backflow of fluids out of the g-tube such as when the container is disconnected from the g-tube. In one aspect, the secondary inlet can be used to add a medication to a feed solution being administered to the patient as the feed solution passes through the dissipation chamber. In one embodiment of the present invention, the container can comprise an upper portion comprising the inlet valve and a separable lower portion comprising the outlet assembly. The lower portion can be interchanged with different size lower portions. The different lower portions can be interchanged to change the relative size of the chamber and correspondingly the amount of fluid that can be retained within the chamber.
The chamber can also contain the pressurized backflow and separate the stomach gases from the liquid and solid contents of the backflow. The gases can be vented from the chamber through the vent to vent the digestion gases generated within the patient's stomach. In this configuration, the regulator system can operated passively to contain any backflow within the container, depressurize backflow by separating out the gases, vent the gases and allow the depressurized backflow to drain back through the outlet assembly to the patient.
In one aspect, the vents in the chamber are shielded to prevent the solid and liquid components of the pressurized stomach contents from exploding through the vents as the pressurized backflow enters the chamber through the outlet assembly while still venting the gases to reduce the pressure of the backflow. In this configuration, the positioning of the inlet assembly at the top of the container reduces the amount of backflow that reaches the inlet assembly and gravimetrically limits the amount of backflow that can enter the inlet assembly. In another aspect, the vents are closable to prevent passage of any gases out of the chamber. In this configuration, the nutrient and medication solution from the supply system can be pressurized to pump the solution into the patient through the g-tube.
In one aspect, the regulator system could comprise at least one strap for suspending the container from a patient's body. In this configuration, the patient can wear the container while linked to the g-tube to provide the venting advantages of the container without requiring the patient to be in a static position. In one aspect, the container could be linked to a supply container containing a medication and/or nutrient solution for supplying a medication/nutrient stream to the container while the patient is mobile.
A regulator system, according to an embodiment of the present invention, comprises a container having an inlet assembly, an outlet assembly and at least one vent. The container defines a chamber for collecting fluids that enter the chamber and gravimetrically separating the fluids from any gases contained within the fluids. In one aspect, the vent is positioned to vent the gases separated from fluids entering the container. The inlet assembly is positioned at the top of the chamber and can be linked to a supply line for a nutrient and/or medication feed system. The outlet assembly is positioned at the bottom of the chamber and linked to a g-tube implanted into a patient's stomach. In one aspect, the outlet assembly can further comprise a closable valve and a secondary inlet.
A regulator system, according to an embodiment of the present invention, comprises a container having a top portion and a plurality of interchangeable bottom portions. The top portion can further comprise an inlet assembly and at least one vent. Each bottom portion can further comprise an outlet assembly and is attachable to the top portion to define a chamber within the container. In one aspect, each bottom portion can comprise a different size such that the volume of the defined chamber can be varied by changing the bottom portion. In this configuration, a larger bottom portion can be attached to the top portion when the container is operating purely to contain backflow from the stomach versus a smaller bottom portion used for feeding. The inlet assembly is positioned at the top of the chamber and can be linked to a supply line for a nutrient and/or medication feed system. The outlet assembly is positioned at the bottom of the chamber and linked to a g-tube implanted into a patient's stomach.
A method of administering a nutrient or medication solution from a supply system through an implanted g-tube, according to an embodiment of the present invention, comprises providing a container having a vent, an inlet assembly linked to the supply system and an outlet assembly linked to the g-tube, wherein the container defines a chamber between the inlet and outlet assemblies. The method further comprises orienting the container such that the inlet assembly is at the top of the container and the outlet assembly is at the bottom of the container. The method also comprises pumping the solution into the container through the inlet assembly, wherein the vertical orientation and greater radial diameter of the container causes any gases within the solution to gravimetrically separate from the solution. The method further comprises venting the separated gases through the vent. The method also comprises funneling the degassed solution into the outlet assembly and into the g-tube.
A method of controlling backflow from a patient's stomach through a g-tube, according to an embodiment of the present invention, comprises providing a container having a vent, an inlet assembly linked to the supply system and an outlet assembly linked to the g-tube, wherein the container defines a chamber between the inlet and outlet assemblies. The method further comprises orienting the container such that the inlet assembly is at the top of the container and the outlet assembly is at the bottom of the container. The method also comprises containing any pressurized backflow that enters the container through the outlet assembly. The method further comprises gravimetrically separating the stomach gases from the liquid portions of the stomach contents. The method further comprises closing the outlet assembly to retain the backflow within the chamber and venting the separated gases through the vent. The method also comprises funneling the degassed backflow into the outlet assembly and into the g-tube.
A method of controlled venting of a patient's stomach through a g-tube, according to an embodiment of the present invention, comprises providing a container having a vent, an inlet assembly linked to the supply system and an outlet assembly linked to the g-tube, wherein the container defines a chamber between the inlet and outlet assemblies. The method further comprises orienting the container such that the inlet assembly is at the top of the container and the outlet assembly is at the bottom of the container. The method also comprises positioning the container below the patient's body such that any gases, fluids, or solids released from the patient's stomach enter the container through the outlet assembly. The method further comprises closing a valve within the outlet assembly to retain the expelled backflow from the stomach and gravimetrically separating any gases from the fluids and solids. The method also comprises venting the separated gases from the chamber. Finally, the method further comprises elevating the chamber and opening the valve to gravimetrically drain the retained backflow back into the patient's stomach through the g-tube.
The above summary of the various representative embodiments of the invention is not intended to describe each illustrated embodiment or every implementation of the invention. Rather, the embodiments are chosen and described so that others skilled in the art can appreciate and understand the principles and practices of the invention. The figures in the detailed description that follow more particularly exemplify these embodiments.
The invention can be completely understood in consideration of the following detailed description of various embodiments of the invention in connection with the accompanying drawings, in which:
While the invention is amenable to various modifications and alternative forms, specifics thereof have been depicted by way of example in the drawings and will be described in detail. It should be understood, however, that the intention is not to limit the invention to the particular embodiments described. On the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.
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A method of administering a nutrient or medication solution from the supply system 22 through the g-tube 26, according to an embodiment of the present invention, comprises positioning a container 32 having a vent 38, an inlet assembly 34 linked to the supply system 22 and an outlet assembly 36 linked to the g-tube 26, wherein the container 32 defines a chamber between the inlet and outlet assemblies 34, 36. The method further comprises orienting the container 32 such that the inlet assembly 34 is at the top of the container and the outlet assembly 36 is at the bottom of the container 32. The method also comprises pumping the solution into the container 32 through the inlet assembly 45, wherein the vertical orientation and the greater radial diameter of the container 32 causes any gases within the solution to gravimetrically separate from the solution. The method further comprises venting the separated gases through the vent 38. The method also comprises funneling the degassed solution into the outlet assembly 36 and into the g-tube 26.
A method of controlling backflow from a patient's stomach through the g-tube 26, according to an embodiment of the present invention, comprises providing a container 32 having a vent 38, an inlet assembly 34 linked to the supply system 22 and an outlet assembly 36 linked to the g-tube 26, wherein the container defines a chamber between the inlet and outlet assemblies 34, 36. The method further comprises orienting the container 32 such that the inlet assembly 34 is at the top of the container 32 and the outlet assembly 36 is at the bottom of the container 32. The method also comprises containing any pressurized backflow that enters the container 32 through the outlet assembly 36. The method further comprises gravimetrically separating the stomach gases from the liquid portions of the stomach contents. The method further comprises closing the outlet assembly 36 to retain the backflow within the chamber and venting the separated gases through the vent 38. The method also comprises funneling the degassed backflow into the outlet assembly 36 and into the g-tube 36.
While the invention is amenable to various modifications and alternative forms, specifics thereof have been depicted by way of example in the drawings and described in detail. It is understood, however, that the intention is not to limit the invention to the particular embodiments described. On the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.