Tourniquet for magnetic resonance angiography, and method of using same
First Claim
1. A thigh compression device for use with magnetic resonance imaging equipment, the thigh compression device comprising:
- a bladder pouch having two opposed faces, the faces each shaped as an angular sector of an annulus and joined to one another along four edges, the first edge being an outer arcuate edge of the sector, the second edge being an inner arcuate edge of the sector, and the third and fourth edges being radial edges of the sector, wherein the first edge is longer than the second edge;
an inflatable, double-sealed bladder, adapted to be inflated by air, disposed within the bladder pouch, and comprising multiple round internal welds spaced 1 to 2 inches apart that attach opposed sides of the bladder to one another and that restrict how much the bladder can expand when inflated, the bladder including exactly one port to receive and expel inflation air;
extension tubing coupled to the port and passing through the bladder pouch on the first edge; and
an attachment mechanism adapted to secure the bladder pouch and the inflatable bladder to a thigh of a human, wherein when the thigh compression device is affixed on the thigh of the human using the attachment mechanism, the bladder pouch and the inflatable bladder form a conical frustum so as to conform to the conical shape of the thigh.
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Abstract
There are many inventions described herein as well as many aspects and embodiments of those inventions. A thigh compression device and technique to control, time, delay and/or prevent excessive early venous enhancement relative to arterial enhancement and thereby improve and/or enhance MRA images, including peripheral MRA images. In one embodiment, the present invention uses a curved strip of material which is longer on the superior edge and shorter along the inferior edge. When wrapped around the conical or conal-like shape of the thigh of a subject (for example, a human), the thigh compression device more uniformly conforms to and/or fits around the thigh, providing more even/uniform compression as well as reducing, minimizing and/or eliminating significant movement of the thigh compression device towards the knees of the subject. Notably, a snug fit on the thighs may also enable the thigh compression device to be inflated with less fluid (for example, air) which is faster and less cumbersome for the operator.
75 Citations
28 Claims
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1. A thigh compression device for use with magnetic resonance imaging equipment, the thigh compression device comprising:
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a bladder pouch having two opposed faces, the faces each shaped as an angular sector of an annulus and joined to one another along four edges, the first edge being an outer arcuate edge of the sector, the second edge being an inner arcuate edge of the sector, and the third and fourth edges being radial edges of the sector, wherein the first edge is longer than the second edge; an inflatable, double-sealed bladder, adapted to be inflated by air, disposed within the bladder pouch, and comprising multiple round internal welds spaced 1 to 2 inches apart that attach opposed sides of the bladder to one another and that restrict how much the bladder can expand when inflated, the bladder including exactly one port to receive and expel inflation air; extension tubing coupled to the port and passing through the bladder pouch on the first edge; and an attachment mechanism adapted to secure the bladder pouch and the inflatable bladder to a thigh of a human, wherein when the thigh compression device is affixed on the thigh of the human using the attachment mechanism, the bladder pouch and the inflatable bladder form a conical frustum so as to conform to the conical shape of the thigh. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. A thigh compression system for use with magnetic resonance imaging equipment, the thigh compression system comprising:
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a thigh compression device including; first and second layers of flexible material welded together to form an air tight bladder wherein the bladder has two opposed faces, the faces each shaped as an angular sector of an annulus and joined to one another by double seals along four edges, the first edge being an outer arcuate edge of the sector, the second edge being an inner arcuate edge of the sector, and the third and fourth edges being radial edges of the sector, wherein the first edge is longer than the second edge, and wherein the bladder is inflatable by air and has exactly one port to receive and expel inflation air, the port being located along the first edge of the bladder; and multiple round welds spaced 1 to 2 inches apart within the bladder that attach opposed sides of the bladder to one another and that restrict the amount that the bladder expands when inflated; extension tubing coupled to the bladder; and an inflation device, coupled to the extension tubing of the thigh compression device, to inflate the inflatable bladder. - View Dependent Claims (15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26)
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27. A method of reducing venous enhancement on peripheral magnetic resonance imaging comprising:
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(a) providing a compression device, the compression device comprising; an inflatable, double-sealed bladder shaped as an angular sector of an annulus so that the inflatable bladder has two linear edges and two curved edges, the first curved edge being longer than and having a greater radius of curvature than the second curved edge, the inflatable bladder being capable of snuggly fitting the conical shape of the thigh of a human when the first edge is positioned proximally on the thigh while the second edge is positioned distally on the thigh, the inflatable bladder comprising opposing sides attached to one another in part by multiple round welds spaced 1 to 2 inches apart that avoid ballooning of the inflatable bladder during inflation, the bladder having exactly one port to receive and expel inflation air, the port being located along the first edge; a bladder pouch disposed around the inflatable bladder; a tubing having a first end attached to the port and a second end; a pressure regulator having an output attached to the second end of the tubing, the pressure regulator being capable of maintaining the pressure in the inflatable bladder at a pressure of 60 mmHg; a high-pressure air reservoir having an output connected to an input of the pressure regulator; and a pressurized air source connected to an input of the high-pressure reservoir, capable of inflating the high-pressure to pressures higher than 60 mmHg; wherein the entire device is constructed of MR-compatible materials; (b) securing the compression device to the thigh of a patient so that the first edge and the port are proximal, facing the patient'"'"'s abdomen, and the second edge is distal, facing the patient'"'"'s calf; (c) advancing the patient into an MR scanner feet first so that the tubing extends directly out of the MR scanner without folding back on itself; (d) uniformly compressing the thigh without substantially displacing the leg or putting the leg into an unstable position by causing air to be admitted from the pressurized air source to the reservoir at a pressure above 60 mmHg, thereby causing air to flow through the regulator and into the bladder, thereby inflating the bladder to 60 mmHg, and thereby slowing venous blood flow in the thigh by compression of veins in the patient'"'"'s thigh; (e) obtaining a first 3D gradient echo MR image; (f) injecting a contrast agent into an arm vein of the patient; (g) obtaining a second 3D gradient echo MR image using the same imaging parameters for obtaining a first 3D gradient echo MR image; (h) creating a final image by subtracting the first 3D gradient echo MR image from the second 3D gradient echo MR image; and (i) maintaining a pressure of 60 mmHg within the inflatable bladder during steps (d) through (g) by continuously replenishing air from the reservoir through the regulator into the tubing and into inflatable bladder via the exactly one port whenever the pressure in the inflatable bladder drops below 60 mmHg.
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28. A thigh compression system for use with magnetic resonance imaging equipment, the thigh compression system comprising:
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a thigh compression device including; first and second layers of flexible material welded together to form an air tight bladder wherein the bladder has a curved rectangular-like shape including a first side that is longer than an opposing second side, and wherein the bladder is inflatable by air and has exactly one port to receive and expel inflation air, the port being located along the first side of the bladder; multiple welds within the bladder which restrict the amount that the bladder expands when inflated; extension tubing coupled to the bladder; and an inflation device, coupled to the extension tubing of the thigh compression device, to inflate the inflatable bladder; wherein a plurality of the multiple welds are round and spaced 1 to 2 inches apart.
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Specification