Surgical object and fluid monitoring system having highly sensitive and reliable detection of objects being placed in a container
First Claim
1. A surgical object and fluid monitoring system, comprising:
- a support ring for securely supporting a container with at least one port opening of the container being disposed for receiving surgical objects placed into the container through the at least one port opening with the aid of gravity;
a hollow spine structure vertically oriented and comprising a channel with channel walls along the length of the hollow spine structure;
a rod movably disposed in the channel within the hollow spine structure, the rod moveable along the channel;
a weight force sensing device mechanically coupled to the rod, the support ring mechanically coupled to the rod, and the rod being in a moving arrangement that transfers weight force from the support ring to the weight force sensing device;
a flexure mechanically coupled with the rod and the hollow spine structure, the flexure adding very little if any downward force onto the rod and thereby onto the weight force sensing device while maintaining the rod vertically aligned in the channel with an air gap separating the length of the rod from the channel walls, the air gap allowing the rod to move vertically without friction from contact with the channel walls while the rod in the channel is protected from impact by the channel walls; and
a processor communicatively coupled with the weight force sensing device, wherein the processor, responsive to executing computer instructions, performs operations comprising;
determining an incremental weight of the contents of the container from a surgical object placed into the container through the port opening, based at least on an information signal received from the weight force sensing device indicating a change in weight force sensed by the weight force sensing device contemporaneous with the placement of the surgical object into the container through the at least one port opening with the aid of gravity.
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Accused Products
Abstract
A surgical sponge and fluid monitoring system and method are provided. The system includes a support ring for securely supporting a container with at least one port opening for placing sponges into the container through the port opening with the aid of gravity. The support ring includes IR emitters and sensors that blanket IR beams across the port opening. The support ring is mechanically linked to a load cell in the system. The processor, with novel methods, reliably detects when sponges are placed into the container through the port opening, counts the number of sponges in the container, sorts the types of sponges, and calculates fluid loss for a patient in a surgical procedure. A user interface in the monitoring system keeps the medical professionals in the OR fully informed.
98 Citations
27 Claims
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1. A surgical object and fluid monitoring system, comprising:
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a support ring for securely supporting a container with at least one port opening of the container being disposed for receiving surgical objects placed into the container through the at least one port opening with the aid of gravity; a hollow spine structure vertically oriented and comprising a channel with channel walls along the length of the hollow spine structure; a rod movably disposed in the channel within the hollow spine structure, the rod moveable along the channel; a weight force sensing device mechanically coupled to the rod, the support ring mechanically coupled to the rod, and the rod being in a moving arrangement that transfers weight force from the support ring to the weight force sensing device; a flexure mechanically coupled with the rod and the hollow spine structure, the flexure adding very little if any downward force onto the rod and thereby onto the weight force sensing device while maintaining the rod vertically aligned in the channel with an air gap separating the length of the rod from the channel walls, the air gap allowing the rod to move vertically without friction from contact with the channel walls while the rod in the channel is protected from impact by the channel walls; and a processor communicatively coupled with the weight force sensing device, wherein the processor, responsive to executing computer instructions, performs operations comprising; determining an incremental weight of the contents of the container from a surgical object placed into the container through the port opening, based at least on an information signal received from the weight force sensing device indicating a change in weight force sensed by the weight force sensing device contemporaneous with the placement of the surgical object into the container through the at least one port opening with the aid of gravity. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
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15. A method, with a processor of an information processing system, for monitoring at least one surgical object placed into a container, the method comprising:
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securely supporting a container having at least one port opening, the container supported with a rod vertically aligned and moveably disposed in a channel of a vertically oriented hollow spine structure with an air gap separating the length of the rod from the channel walls, the air gap allowing the rod to move vertically without friction from contact with the channel walls, the rod transferring a weight force from the supported container to a weight force sensing device mechanically coupled to the rod; detecting, with a processor, placement of a surgical object into the container through one of the at least one port opening with the aid of gravity; contemporaneous with the detecting, receiving an information signal that indicates an incremental weight force of the container; and determining, with the processor, an incremental weight of the contents of the container from the surgical object placed into the container through the port opening, based at least on the received information signal indicating a valid incremental change in weight of the contents of the container from the surgical object placed into the container through the port opening with the aid of gravity. - View Dependent Claims (16, 17, 18, 19, 20, 21, 22, 23)
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24. A surgical object and fluid monitoring system, comprising:
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a support ring for supporting a container with at least one port opening of the container being disposed for receiving surgical objects placed into the container through the at least one port opening with the aid of gravity; a hollow spine structure vertically oriented and comprising a channel with channel walls along the length of the hollow spine structure; a rod movably disposed in the channel within the hollow spine structure, the rod moveable along the channel; a weight force sensing device mechanically coupled to the rod, the support ring mechanically coupled to the rod, and the rod being in a moving arrangement that transfers weight force from the support ring to the weight force sensing device; a flexure mechanically coupled with the rod and the hollow spine structure, the flexure maintaining the rod vertically aligned in the channel with an air gap separating the length of the rod from the channel walls, the air gap allowing the rod to move vertically without friction from contact with the channel walls while the rod in the channel is protected from impact by the channel walls; and a processor communicatively coupled with the weight force sensing device, wherein the processor, responsive to executing computer instructions, performs operations comprising; determining an incremental weight of the contents of the container from a surgical object placed into the container through the port opening with the aid of gravity. - View Dependent Claims (25, 26, 27)
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Specification