The invention relates in general to emergency medical care and in particular to apparatus for securely attaching medical/surgical devices to an injured person carrier, such as a litter or stretcher.
Every day people are injured, especially during armed conflicts, terrorism, accidents and natural disasters. The injuries may be serious and may require the injured person to be placed on a stretcher, litter or similar injured person carrier. An example of a litter is a NATO litter 40 shown in
The injured person may receive medical attention at or near the geographical site of the injury and then be transported via a litter by foot, land vehicle, air vehicle or other transporter to a medical treatment facility. The injured person may require treatment and/or surgery before being transported to a medical treatment facility. Sometimes one or more medical and/or surgical devices are required for treatment and/or surgery for the injured person prior to and/or while being transported to a medical treatment facility. Such medical and/or surgical devices may include, for example, IV poles, aspirators, cardiac monitors, defibrillators, infusion pumps, ventilators and other devices.
To keep such medical/surgical devices close to the injured person, the medical/surgical devices may be somehow associated with the injured patient carrier. In combat areas, the transport of an injured person on a litter may be by two people who are walking or running over rough terrain, by a helicopter or other air vehicle that is subject to unpredictable air currents, by a military ambulance over rough terrain, or combinations of such transporters. The resulting ride could therefore be subject to unforeseen air currents or rapid aircraft movements that cause the aircraft to drop suddenly, make rapid and sharp turns and otherwise continue on its journey to transport the injured person(s) to a medical facility as quickly as possible. Such rapid transporter movements require that the medical/surgical devices are secured against reacting to the sudden change of movements and directions by flying off into space and/or within the transport vehicle and possibly further injuring the injured person or injuring persons who are assisting the injured person and/or flying or driving the transporter.
A need exists for an apparatus for securely fixing a wide variety of medical/surgical devices to a litter and for transporting the litter along with the medical/surgical devices and the patient.
In one aspect, an apparatus for mounting medical devices includes a frame assembly having a pair of parallel rails fixed to at least two transverse rails extending between the pair of parallel rails. A pair of arm assemblies may be pivotally attached to opposing first and second ends of the pair of parallel rails.
Each arm assembly may include a pair of parallel arms with each arm including a clamp at a distal end for engaging a pole of a litter having a pair of parallel poles. Each arm assembly may include two transverse rails extending between the pair of parallel arms. Each arm may depend downwardly and normal to a respective one of the pair of parallel rails in an open position of the frame assembly and may extend parallel to the respective one of the pair of parallel rails in a folded position of the frame assembly.
A pair of retractable spring plungers may be inserted through respective openings in the first ends of the pair of parallel rails and through respective openings in proximal ends of the pair of parallel arms to lock the pair of parallel arms of the arm assembly at the first end of the parallel rails normal to the first ends of the parallel rails. A tensioner assembly may include a threaded rod with one end of the tensioner assembly pivotally attached to a lower one of the two transverse rails of the arm assembly at the second end of the pair of parallel rails and another end of the tensioner assembly disposed in a slotted receiver fixed to one of the at least two transverse rails extending between the pair of parallel rails.
The apparatus may further comprise the litter having the pair of parallel poles wherein each clamp engages one of the parallel poles. The parallel rails and transverse rails of the frame assembly may have cross-sections of North American standard surgical rails or of European standard surgical rails.
A swing stop pin may be fixed to each parallel rail to limit rotation of the arm assembly at the second end of the parallel rails to a position in a range of about five degrees to about twenty degrees past a position that is perpendicular to the parallel rails.
A rail clamp may include a channel shaped to engage and slide along the parallel rails and the transverse rails. The rail clamp may include a rail body having an internally threaded opening that engages an externally threaded fastener. The externally threaded fastener may include a contact disc at one end that presses against one of the parallel or the transverse rails to secure the rail clamp from sliding along the rails. The rail clamp may include a stud fixed to the rail body for attachment of medical devices.
A medical device rotation assembly may be rotatably fixed to the stud of the rail clamp. The rotation assembly may rotate 360 degrees on the stud. The rotation assembly may be constrained from vertical translation with respect to the stud. The rotation assembly may include a boss and a clamp pivotally connected by a dowel, a first pivot pin with a threaded opening disposed in the boss, a second pivot pin with an unthreaded opening disposed in the clamp and a threaded rod that engages the threaded opening in the first pivot pin and extends through the unthreaded opening in the second pivot pin to an outside of the clamp. Vertical translation may be constrained by lower inner diameter portions of the boss and the clamp engaging a lower portion of the stud which has a diameter that is smaller than a diameter of an adjacent portion of the stud.
The boss may include a top surface and the apparatus may further comprise a medical device mount fixed to the top surface. The medical device mount may be, for example, one of an infusion pump mount, a defibrillator/cardiac monitor mount and an aspirator/ventilator mount.
The apparatus may include an IV pole assembly fixed to the rail clamp. The IV pole assembly may include a lower pole fixed to the rail clamp, an externally threaded compression bushing fixed to the lower pole, an internally threaded compression sleeve that engages the externally threaded compression bushing, an upper pole slidable and rotatable in the lower pole and an IV upper weldment at a top of the upper pole.
The apparatus may include a tray assembly disposed on the second ends of the pair of parallel rails.
The aspirator/ventilator mount may include an angle mount weldment fixed to the top surface of the boss, a T-mount fitting fixed to the angle mount weldment, a threaded bolt extending through a threaded opening in the T-mount fitting, and a disc fixed to one end of the threaded bolt for tightening against an aspirator or ventilator.
The defibrillator/cardiac monitor mount may include a platform assembly fixed to the top surface of the boss, two hold downs fixed to the platform assembly, a pair of threaded platform pins that engage threaded openings in the platform assembly and a knob fixed to each of the pair of threaded platform pins.
The apparatus may include a defibrillator/cardiac monitor having a bottom surface wherein each hold down of the platform assembly includes an overhang that mates with a gap above a ledge in the bottom surface of the defibrillator/cardiac monitor. The platform pins may be received in holes in the bottom surface adjacent to the ledges. The platforms pins may be vertically translatable into the holes in the bottom surface by turning the knobs to thereby securely fasten the hold downs to the bottom surface of the defibrillator/cardiac monitor.
The infusion pump mount may include a pump pole with a base fixed with fasteners to the top surface of the boss and a pump yoke weldment fixed to a top surface of the pump pole.
The invention will be better understood, and further objects, features and advantages of the invention will become more apparent from the following description, taken in conjunction with the accompanying drawings.
In the drawings, which are not necessarily to scale, like or corresponding parts are denoted by like or corresponding reference numerals.
A novel apparatus for mounting and securing medical/surgical devices may be attached to an injured person carrier, such as a litter or stretcher. The litter may be a NATO compliant litter. Medical devices needed for patient care may be attached to the apparatus. The medical devices may include, for example, IV holders, aspirators, cardiac monitors, defibrillators, infusion pumps, ventilators and other devices. The apparatus may be mounted anywhere longitudinally along the litter to thereby maximize access to the patient. The litter clamps of the novel apparatus are free of pinch points and allow tool-free adjustment. As a result, the clamps allow for greater litter variation (tolerance) with the ability to secure the apparatus onto the litter tool-free. Litter variation may be in the diameter of the litter poles and/or the distance between the litter poles. The novel apparatus does not have pins hanging from lanyards, which can interfere with patient access and get tangled with other equipment. There are no obstructions between the frame of the apparatus and the patient, thereby providing maximum patient clearance. The medical device clamps have height and/or rotational adjustment to improve patient access and view and medical device access and view.
The frame assembly may be made of standard surgical rails (North American or European). Rail clamps mounted on the standard surgical rails are used to interface with and mount various medical devices. Thus, the rails serve the dual functions of an integral structural member of the frame assembly and a member on which to mount the medical devices. The rails are standard in size and shape thereby enabling commercial off-the-shelf medical device clamps to be used. Other medical apparatus may also use standard size and shape rails so the rail clamps of this disclosure may be used with those other medical apparatus.
The rails may have notches integrated at key locations to facilitate flexibility in attaching additional rail clamps to the apparatus without the need to remove equipment already mounted on the apparatus. Some of the device mounting clamps include the ability to rotate and some of the device mounting clamps are height adjustable. The apparatus is collapsible for stowage and/or shipment. The medical device mounts are usable across various platforms that use standard surgical rails, including military treatment/surgical tables. This time-saving commonality feature provides life-saving options in treating and transporting wounded personnel.
The novel apparatus, fixed to a litter with a patient on the litter, is designed to fit in limited spaces in transport vehicles, such as Mine-Resistant Ambush Protected vehicles, tracked vehicles, fixed and rotary winged aircraft and other ground and air medical evacuation transportation platforms. The apparatus provides access to the patient and secures medical devices to the litter.
Each arm assembly 22, 24 may include a pair of parallel arms 28, 30 and 32, 34. Each arm 28, 30, 32, 34 may include a clamp 36 at a distal end for engaging a pole 42 or 44 of a litter 40 (
Each arm assembly 22, 24 may include two transverse arm rails 46, 48 and 50, 52 extending between the pair of parallel arms 28, 30 and 32, 34. Each arm 28-34 may depend downwardly and normal to a respective one of the parallel rails 12,14 in an open position (
Parallel rails 12, 14, transverse rails 16, 18, 20 and transverse arm rails 46, 48, 50, 52 preferably have cross-sections of either a North American standard surgical rail or a European standard surgical rail. The cross-section of the North American standard surgical table side rail is 1.125 inches by 0.375 inches. The cross-section of the European standard surgical rail is 25 mm by 10 mm. As is known in the art, notches 54 may be formed in the rails for ease of mounting and dismounting certain clamps and medical and surgical devices.
A pair of retractable spring plungers 56 may be inserted through respective openings 58 in the first ends of parallel rails 12, 14 and through respective openings 60 in proximal ends of the pair of parallel arms 32, 34 to lock the parallel arms 32, 34 normal to the first ends of parallel rails 12, 14.
A tensioner assembly 62 may include an externally threaded rod 64 that threadingly engages an internally threaded lower housing 66. Lower housing 66 is inserted in a pivot bushing 68 and pivot pin 70. Pivot pin 70 is inserted in a lower tab 71 thereby enabling tensioner assembly 62 to pivot with respect to a lower transverse rail 48. The other end of threaded rod 64 includes a T-handle that rests in a slotted receiver 76 fixed to transverse rail 20 extending between parallel rails 12, 14. A label 72 may be applied to tensioner lower housing 66 to indicate which direction to rotate lower housing 66 to lengthen or shorten tensioner assembly 62 to thereby loosen or tighten the clamps 36 against litter poles 42, 44.
A swing stop pin 80 may be fixed to each parallel rail 12, 14 to limit rotation of the arm assembly 22 at the second end of the parallel rails 12, 14. The stop pins 80 limit rotation of arm assembly 22 to a position in the range of about five to about twenty degrees past a position that is perpendicular to the parallel rails 12, 14. This prevents arm assembly 22 from pivoting too far outward from its litter rail when attaching the frame assembly 10 to the litter 40.
Rail clamp 84 also includes a stud 98 for receiving a medical device mount. Stud 98 includes an internally threaded portion 102 (
Rotation assembly 114 also provides a constraint to vertical translation of assembly 114 with respect to stud 98. As discussed above with reference to
In
As seen in
Embodiments of the invention have been described to explain the nature of the invention. Those skilled in the art may make changes in the details, materials, steps and arrangement of the described embodiments within the principle and scope of the invention, as expressed in the appended claims.
The present application claims the benefit of priority of U.S. provisional patent application Ser. No. 62/985,968 filed on Mar. 6, 2020, which is expressly incorporated by reference herein.
The invention described herein may be manufactured, used and licensed by or for the United States Government.
Filing Document | Filing Date | Country | Kind |
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PCT/US2021/020663 | 3/3/2021 | WO |
Publishing Document | Publishing Date | Country | Kind |
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WO2021/178533 | 9/10/2021 | WO | A |
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Number | Date | Country | |
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20230069784 A1 | Mar 2023 | US |
Number | Date | Country | |
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62985968 | Mar 2020 | US |