US2019125631A1PendingUtilityA1
Catheter with imaging assembly
Est. expirySep 8, 2030(~4.2 yrs left)· nominal 20-yr term from priority
Inventors:Robert AllynRobert B. GainesThomas G. LewisMichael C. DorseyWilliam J. ByrdMichael D. HudspethGlen Branconier
A61B 5/742A61J 15/0003A61B 5/0084A61B 5/0013A61B 1/0684A61B 1/0607A61B 1/2736A61B 1/051A61J 15/00A61B 1/0002A61J 15/0073A61J 15/008A61B 1/00114A61B 1/00059A61B 1/0676A61B 1/2676A61J 15/0069A61B 1/00119A61B 1/0005A61B 1/05A61J 15/0026A61B 5/6852A61B 1/00137A61B 1/00045A61B 1/053A61B 1/005A61B 1/04A61B 1/00041A61B 1/0004
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Claims
Abstract
A catheter with an imaging assembly is used with a console for viewing and/or storing images obtained from the catheter. The catheter may be a feeding tube assembly. The imaging assembly on the feeding tube assembly allows a user to confirm placement of the feeding tube assembly in the patient's alimentary canal.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1 . A feeding tube assembly comprising:
a flexible feeding tube having opposite first and second longitudinal ends, a longitudinal axis extending between the first and second longitudinal ends, and a feeding passage defined therein extending along the longitudinal axis between the first and second longitudinal ends; an inlet adaptor adjacent the second longitudinal end of the feeding tube in fluid communication with the feeding passage, the inlet adaptor configured for fluid connection to a source of enteral feeding liquid to fluidly connect the source of enteral feeding liquid to the feeding passage; an imaging assembly including an imaging device, the imaging assembly configured for generating and transmitting imaging signals indicative of images of the alimentary canal of a subject, wherein the imaging assembly is secured to the feeding tube adjacent the first longitudinal end of the tube; a feeding outlet proximate the imaging assembly and in fluid communication with the feeding passage for delivering enteral feeding liquid to the subject; a console connector in communication with the imaging assembly for receiving the imaging signals, the console connector including a housing and configured for use in connecting the imaging assembly to a console to allow transmission of the imaging signals to the console; an adaptor connector assembly separate from the housing and feeding tube and configured to connect the console connector to the feeding tube and to the inlet adaptor.
2 . The feeding tube assembly of claim 1 , wherein the adaptor connector assembly comprises:
a feeding tube connector separate from the housing and configured to connect the console connector to the feeding tube; and an inlet adaptor connector separate from the housing and the feeding tube connector, the inlet adaptor connector configured to connect the console connector to the inlet adaptor.
3 . The feeding tube assembly of claim 2 , wherein a portion of the inlet adaptor connector being received in the feeding tube.
4 . The feeding tube assembly of claim 2 , wherein the housing is molded over the inlet adaptor connector and the feeding tube connector.
5 . The feeding tube assembly of claim 2 , wherein the feeding tube connector defines a connector passage, the second longitudinal end of the feeding tube is secured within the connector passage.
6 . The feeding tube assembly of claim 2 , wherein the inlet adaptor connector defines a passage that fluidly connects the inlet adaptor to the feeding tube.
7 . The feeding tube assembly of claim 2 , wherein a portion of the inlet adaptor connector is received in the feeding tube connector.
8 . The feeding tube assembly of claim 2 , wherein the housing of the console connector is secured to a distal end of the inlet adaptor so that the housing abuts the distal end of the inlet adaptor.
9 . The feeding tube assembly of claim 2 , wherein the console connector includes a printed circuit board (PCB) having a USB port connector mounted on the PCB and configured for communicatively connecting an interface cable to the PCB.
10 . The feeding tube assembly of claim 2 , wherein the console connector extends laterally outward from the feeding tube.
11 . The feeding tube assembly of claim 1 , further comprising a signal transmission component extending longitudinally along the feeding tube from the imaging assembly to the console connector to provide communication between the imaging assembly and the console connector.
12 . The feeding tube assembly of claim 11 , wherein the feeding tube includes a tube wall having an interior surface defining the feeding passage and an exterior surface defining an exterior surface of the feeding tube, wherein the signal transmission component is received in a signal transmission passage in the tube wall and sealed from the fluid passage.
13 . A feeding tube assembly comprising:
a flexible feeding tube having opposite first and second longitudinal ends, a longitudinal axis extending between the first and second longitudinal ends, and a feeding passage defined therein extending along the longitudinal axis between the first and second longitudinal ends; an inlet adaptor adjacent the second longitudinal end of the feeding tube in fluid communication with the feeding passage, the inlet adaptor configured for fluid connection to a source of enteral feeding liquid to fluidly connect the source of enteral feeding liquid to the feeding passage; an imaging assembly including an imaging device, the imaging assembly configured for generating and transmitting imaging signals indicative of images of the alimentary canal of a subject, wherein the imaging assembly is secured to the feeding tube adjacent the first longitudinal end of the tube; a feeding outlet proximate the imaging assembly and in fluid communication with the feeding passage for delivering enteral feeding liquid to the subject; a console connector in communication with to the imaging assembly for receiving the imaging signals, the console connector located between the inlet adaptor and the feeding tube and including a housing configured for use in connecting the imaging assembly to a console to allow transmission of the imaging signals to the console.
14 . The feeding tube assembly of claim 13 , wherein the console connector housing is molded around a printed circuit board including a connector for making electrical connection with the console.
15 . The feeding tube assembly of claim 14 , wherein the console connector housing is molded with an opening for providing access to the connector in the housing.
16 . The feeding tube assembly of claim 15 , wherein the console connector housing is formed with a cap tethered to the connector housing and selectively positionable to close the opening in the housing.
17 . A feeding tube assembly comprising:
a flexible feeding tube having opposite first and second longitudinal ends, and a feeding passage defined therein extending between the first and second ends; an inlet adaptor adjacent the second longitudinal end of the tube in fluid communication with the feeding passage, the inlet adaptor configured for fluid connection to a source of enteral feeding liquid; an imaging assembly including an imaging device for generating imaging signals indicative of images of the alimentary canal of a subject, wherein the imaging assembly is secured to the feeding tube adjacent the first end of the tube and is fluidly isolated from feeding passage; and a console connector secured to the feeding tube proximate the inlet adaptor, wherein the console connector is communicatively connected to the imaging assembly, and configured for use in connecting to the imaging assembly to a console to allow transmission of the imaging signals to the console.
18 . The feeding tube assembly of claim 17 , wherein the imaging assembly comprises a deformable circuit element, wherein the imaging device and a light source are mounted on the deformable circuit element.
19 . The feeding tube assembly of claim 18 , wherein the deformable circuit element includes a planar longitudinal portion extending parallel to the longitudinal axis of the feeding tube, and a planar transverse portion extending transverse to the longitudinal axis of the feeding tube, wherein the imaging device and the light source are mounted on the transverse portion of the flexible circuit.Cited by (0)
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