BIOMECHANICALLY ADVANTAGEOUS PATIENT TRANSFER DEVICE |
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申请号 | US12132952 | 申请日 | 2008-06-04 | 公开(公告)号 | US20080295250A1 | 公开(公告)日 | 2008-12-04 |
申请人 | DONALD G. HELT, III; Daniel Weber; Peter M. Sanzio; | 发明人 | DONALD G. HELT, III; Daniel Weber; Peter M. Sanzio; | ||||
摘要 | In one embodiment, the present invention is a biomechanically advantageous patient transfer device. One embodiment of a patient transfer device includes a body configured for supporting a patient thereon, a plurality of flanges coupled to the body and extending outward therefrom, and a plurality of handles configured for allowing the patient transfer device to be lifted, at least one handle being formed in each flange. | ||||||
权利要求 | What is claimed is: |
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说明书全文 | This application claims the benefit of U.S. Patent Application No. 60/941,746, filed Jun. 4, 2007, which is herein incorporated by reference in its entirety. The invention relates generally to healthcare and emergency services and relates more particularly to patient transfer devices. A spine board, or backboard, is a medical device used for the immobilization and transportation of patients with suspected spinal injuries. Typical spine boards such as the one illustrated tend to be very narrow (e.g., approximately sixteen inches wide). This requires the lifters to flex their trunks and their arms away from their centers of gravity (as illustrated), which increases the biomechanical forces acting on their spines and shoulders. These forces may be exacerbated when the patient is to be lifted from a low resting surface such as the floor, a bed, or a table (such as table 102 in Thus, there is a need in the art for a method and apparatus for biomechanically advantageous patient transfer device. In one embodiment, the present invention is a biomechanically advantageous patient transfer device. One embodiment of a patient transfer device includes a body configured for supporting a patient thereon, a plurality of flanges coupled to the body and extending outward therefrom, and a plurality of handles configured for allowing the patient transfer device to be lifted, at least one handle being formed in each flange. The teachings of the present invention can be readily understood by considering the following detailed description in conjunction with the accompanying drawings, in which: To facilitate understanding, identical reference numerals have been used, where possible, to designate identical elements that are common to the figures. In one embodiment, the present invention is a biomechanically advantageous patient transfer device, such as a spine board or backboard. Embodiments of the patient transfer device employ inventive user lifting mechanics that allow a lifter to transfer a patient from floor-to-standing or from bed-to-standing heights with minimal musculoskeletal risk to the lower back of the lifter. Specifically, the patient transfer device forces the load carried (i.e., the patient) to be applied closer to the lifter's center of gravity, thereby drastically lowering the compressive forces and torque about the L5/S1 region of the spine. The form of the patient transfer device can support larger-sized patients and provides a more stable lifting experience for both the patient and the lifters. A plurality of flanges 2041-2044 (hereinafter collectively referred to as “flanges 204”) extend outward from the body 202, away from the longitudinal axis 1. In other embodiments, the flanges 204 may extend away from a lateral axis of the body (not shown). In the embodiment illustrated, the device 200 includes four flanges 204: two flanges 204 extending from a first side of the body 202 and two flanges 204 extending from an opposite second side of the body 202. In one embodiment, the flanges 204 are formed integrally with the body 202 and have a substantially rounded or curved shape. A plurality of handles 206 are disposed around the perimeter of the body 202 and the flanges 204. In one embodiment, the handles 206 comprise apertures that are sized and shaped to be gripped by a human hand. In one embodiment, the handles 206 are positioned to accommodate what is known in the art as a neutral body posture of a lifter (i.e., a relaxed standing posture in which the hands are typically an estimable distance apart). In one embodiment, each of the flanges 204 includes at least one handle 206. Thus, the flanges 204 are adapted to be gripped by a lifter. Handles 206 in addition to those formed in the flanges 204 allow for assistance from additional lifters. Moreover, the wider-than-typical width profile of the patient transfer device 200 better supports larger than average (including overweight) patients, while the placement of the handles 206 around the perimeter makes such tasks more comfortable for the lifters. A plurality of flanges 4041-4044 (hereinafter collectively referred to as “flanges 404”) extend outward from the body 402, away from the longitudinal axis I. In the embodiment illustrated, the device 400 includes four flanges 404: two flanges 404 extending from a first side of the body 402 and two flanges 404 extending from an opposite second side of the body 402. The flanges 404 are shaped and sized similarly to the flanges 204 of the patient transfer device 200 illustrated in A plurality of handles 406 are disposed around the perimeter of the body 402 and the flanges 404. In one embodiment, the handles 406 comprise apertures that are sized and shaped to be gripped by a human hand. In one embodiment, the handles 406 are positioned to accommodate a neutral body posture of a lifter. In one embodiment, each of the flanges 404 includes at least one handle 406. Thus, the flanges 404 are adapted to be gripped by a lifter. Handles 406 in addition to those formed in the flanges 404 allow for assistance from additional lifters. Like the patient transfer device 200 illustrated in Moreover, the wider-than-typical width profile of the patient transfer device 400 better supports larger than average (including overweight) patients, while the placement of the handles 406 around the perimeter makes such tasks more comfortable for the lifters. A plurality of flanges 5041-5044 (hereinafter collectively referred to as “flanges 504”) extend outward from the body 502, away from the longitudinal axis I. In the embodiment illustrated, the device 500 includes four flanges 504: two flanges 504 extending from a first side of the body 502 and two flanges 504 extending from an opposite second side of the body 502. The flanges 504 comprise telescoping handles. Specifically, the flanges 504 are coupled to respective laterally telescoping extensions 5081-5084 (hereinafter referred to as “extensions 508”; illustrated in A plurality of handles 506 are disposed around the perimeter of the body 502 and the flanges 504. In one embodiment, the handles 506 comprise apertures that are sized and shaped to be gripped by a human hand. In one embodiment, the handles 506 are positioned to accommodate a neutral body posture of a lifter. In one embodiment, each of the flanges 504 includes at least one handle 506. Thus, the flanges 504 are adapted to be gripped by a lifter. Handles 506 in addition to those formed in the flanges 504 allow for assistance from additional lifters. Like the patient transfer devices 200 and 400 illustrated in The inventive lifting mechanics employed by the patient transfer device of the present invention therefore allow a lifter to transfer a patient from floor-to-standing or from bed-to-standing heights with minimal musculoskeletal risk to the lower back of the lifter. By forcing the load carried (i.e., the patient and spine board) to be applied closer to the lifter's center of gravity, the compressive forces and torque about the L5/S1 region of the spine are drastically lowered. The patient transfer device may therefore be advantageously put into use in a variety of institutions, including, but not limited to, hospitals, long term care facilities, outpatient care facilities, firehouses, emergency service units, academic institutions, athletic institutions, and health clubs. While the foregoing is directed to the preferred embodiment of the present invention, other and further embodiments of the invention may be devised without departing from the basic scope thereof. |