Over Corrective Therapeutic Scoliosis Brace

Abstract

An adjustable over corrective therapeutic scoliosis brace configured to facilitate the correction of spinal curvature during a treatment period of a patient is provided. In some embodiments, the scoliosis brace comprises an external shell and one or more periodically adjustable modular internal pads systems. The one or more internal pad systems can be selectively moved and fixedly positioned in a plurality of positions along at least one of the lateral direction or the vertical direction within the external shell, wherein the plurality of positions are designed for periodic adjustment of the corrective force on the spinal curvature during the treatment period.

Claims

1. A modular scoliosis brace configured to be worn by a patient comprising: an external shell extending laterally from a vertical direction oriented along a back of a patient and configured to at least partially wrap around and conform to the patient during use, the external shell having an opening proximate a naval region of the patient defined by a gap between a left side and a right side of the external shell; one or more internal pads, each having a lateral end and a dorsal end, the one or more internal pads, when attached, being configured to apply pressure opposite the lateral curvature of the spine of the patient; a first attachment mechanism configured to removably attach the lateral ends of the one or more internal pads to lateral side of the external shell; a second attachment mechanism configured to removably attach the dorsal ends of the one or more internal pads to the inside back portion of the external shell; and a closure system configured to removably attach the left side of the external shell to the right side of the external shell to secure the external shell to the body of the patient; wherein the one or more internal pads are selectively adjustable, such that the one or more internal pads can be selectively moved and fixedly positioned in a plurality of positions along at least one of the lateral direction or the vertical direction within the external shell, wherein the plurality of positions are designed for periodic adjustment of the corrective force on the spinal curvature during the treatment period.

2. The modular scoliosis brace of claim 1, wherein the first attachment mechanism is a is a strap and slot system further comprising: for each internal pad, a first strap attached to the lateral end of the pad; and a plurality of vertically oriented slots on the left side of the external shell and on the right side of the external shell proximate to the opening of the external shell; wherein the first strap is configured to be threaded through any slot from the plurality of vertically oriented slots; and wherein the pressure opposite the lateral curvature of the spine of the patient can be adjusted by adjusting the first strap.

3. The modular scoliosis brace of claim 2, wherein the second attachment mechanism is a button and buttonhole system further comprising: for each internal pad, a second strap attached to the dorsal end of the pad, the strap having one or more buttonholes; and a plurality of buttons located in a plurality of locations along the lateral direction and the vertical direction of the internal back portion of the external shell; wherein the one or more buttonholes are configured to be removably secured to any button from the plurality of buttons.

4. The modular scoliosis brace of claim 3, wherein the closure system is a strap and slot system further comprising one or more closure straps configured to be threaded through any pair of two opposing vertical slots from the plurality of vertical slots, wherein the closure straps utilize hook-and-loop fastener technology to form a removably securable loop.

5. The modular scoliosis brace of claim 4, wherein the first strap and the second strap are a singular strap attached to the back of the pad.

6. The modular scoliosis brace of claim 4, wherein the external shell is constructed from a rigid or semi-rigid material and the straps are constructed from a flexible material.

7. The modular scoliosis brace of claim 4, wherein the external shell is comprised of a plurality of interconnected flexible lateral shells.

8. The modular scoliosis brace of claim 4, further comprising: one or more first cushioning insertions attached to the inside of the external shell; and for each internal pad, a second cushioning insertion attached to the inside surface of the internal pad; wherein the one or more first cushioning insertions are configured to support the one or more internal pads when the first attachment mechanism is not fully engaged by the patient; and wherein the one or more second cushioning insertions provide additional customization of corrective pressure to the spine of the patient.

9. The modular scoliosis brace of claim 8, where the one or more first straps further comprise hook-and-loop fastener technology to removably secure the one or more first straps to either the external portion of the left side or the right side of the external shell.

10. The modular scoliosis brace of claim 9, wherein the one or more internal pads can be adjusted to be located at any location along the length of their straps.

11. A modular scoliosis brace configured to be worn by a patient comprising: an external shell extending laterally from a vertical direction oriented along a back of a patient and configured to at least partially wrap around and conform to the patient during use, the external shell having an opening proximate a naval region of the patient defined by a gap between a left side and a right side of the external shell, the left side and the right side having a plurality of vertically oriented slots proximate to the opening, the internal back portion back of the external shell having a plurality of buttons located in a plurality of locations along the lateral direction and the vertical direction; one or more internal pads, each having a lateral end attached to a first strap and a dorsal end attached to a second strap, the first strap being configured to be threaded through any slot from the plurality of vertical slots and removably attached to the external portion of the external shell using hook-and-loop fasteners, the second strap having one or more buttonholes configured to be removably attached to one or more buttons from the plurality of buttons; and one or more closure straps configured to be threaded through any pair of two opposing vertical slots from the plurality of vertical slots of the external shell, wherein the closure straps utilize a hook-and-loop fastener to form a removably securable loop; wherein the one or more internal pads are selectively adjustable, such that the one or more internal pads can be selectively moved and fixedly positioned in a plurality of positions along at least one of the lateral direction or the vertical direction within the external shell, wherein the plurality of positions are designed for periodic adjustment of the corrective force on the spinal curvature during the treatment period by adjusting the tension of the one or more first straps.

12. The modular scoliosis brace of claim 11, wherein the first strap and the second strap are a singular strap attached to the back of the pad.

13. The modular scoliosis brace of claim 11, wherein the external shell is constructed from a rigid or semi-rigid material and the straps are constructed from a flexible material.

14. The modular scoliosis brace of claim 11, wherein the external shell is comprised of a plurality of interconnected flexible lateral shells.

15. The modular scoliosis brace of claim 11, further comprising: one or more first cushioning insertions attached to the inside of the external shell; and for each internal pad, a second cushioning insertion attached to the inside surface of the internal pad; wherein the one or more first cushioning insertions are configured to support the one or more internal pads when the first strap is not fully engaged by the patient; and wherein the one or more second cushioning insertions provide additional customization of corrective pressure to the spine of the patient.

16. The modular scoliosis brace of claim 15, wherein the one or more internal pads can be adjusted to be located at any location along the length of their straps.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0020] The invention will be readily understood by the following detailed description in conjunction with the accompanying drawings, wherein like reference numerals designate like structural elements, and in which:

[0021] FIG. 1 is a front view of a modular scoliosis brace without any modular internal pad systems removably secured.

[0022] FIG. 2 is a side view of a singular modular internal pad system.

[0023] FIG. 3 is a top plan view of the modular scoliosis brace of FIG. 1 further comprising an exemplary configuration of two modular internal pad systems utilized.

[0024] FIG. 4 is a top plan view of the modular scoliosis brace of FIG. 3 further comprising cushioning insertions.

[0025] FIG. 5 is a front view of the modular scoliosis brace of FIG. 3.

[0026] FIG. 6 illustrates a state where the modular scoliosis brace of FIG. 3 is being utilized.

DETAILED DESCRIPTION

[0027] FIG. 1 shows a modular scoliosis brace 100 (herein referred to as brace) without a modular internal pad system utilized. The brace 100 comprises an external shell 102, a plurality of vertically oriented slots 104 located on the ends of the external shell 102 proximate to the patient's navel region, and a plurality of buttons 106 located in a plurality of locations along the lateral direction and the vertical direction of the internal back portion of the external shell 102. The external shell 102 is configured to at least partially wrap around and conform to the patient during use. Preferably, the external shell 102 is constructed from a rigid or semi-rigid material such as plastic.

[0028] In some embodiments (not shown), the external shell 102 is comprised of a plurality of interconnected flexible lateral shells and covers much of the patient's bodice, typically extending from the patient's hips to the patient's armpits.

[0029] FIG. 2 is a side view of a singular modular internal pad system 200. The internal pad system 200 comprises a pad 204 having a lateral end 204A and a dorsal end 204B, a strap 202 attached to the lateral end 204A of the pad 204, a strap 206 attached to the dorsal end 204B of the pad 204 having a buttonhole 208. Preferably, the pad 204 is constructed from a rigid or semi-rigid material such as plastic and the strap portions 202, 206 are constructed from a flexible material having tensile strength such as polyester. In some embodiments, the dorsal strap 206 can include a plurality of buttonholes. In some embodiments, the strap portions are one continuous strap. In such embodiments, the one or more internal pads can be adjusted to be located at any location along the length of their straps.

[0030] FIG. 3 is a top plan view of the modular scoliosis brace of FIG. 1 further comprising an exemplary configuration of two modular internal pad systems are utilized, wherein a first attachment mechanism is a strap and slot system, a second attachment mechanism is a button and buttonhole system, and a closure system is a strap and slot system.

[0031] The first attachment mechanism that is configured to removably attach the lateral ends of the one or more internal pads to the left side 304 or right side 306 of the external shell is a strap and slot system comprising, for each pad system, a lateral strap 202 attached to the lateral end of a pad configured to be threaded through any of the vertically oriented slots 104 of the external shell 102. In some embodiments, the lateral straps utilize hook-and-loop fastener technology to removably secure said straps to either the left side 304 or right side 306 of the external shell.

[0032] The second attachment mechanism which secures the modular internal pad systems to the external shell 102 is a button and button hole fastening system comprising, for each pad system, a strap 206 attached to the dorsal end of the pad 204B, the strap having a buttonhole 208 that can be removably secured to any button of the plurality of buttons 106 by inserting the desired button through the buttonhole 302.

[0033] The closure system comprises one or more closure straps 306 threaded through two opposite slots 104. In some embodiments, the closure straps utilize hook-and-loop fastener technology to form a removably securable loop.

[0034] FIG. 4 is a top plan view of the modular scoliosis brace of FIG. 3 further comprising cushioning insertions 402AD. In this exemplary configuration, insertions 402A and 402D are attached to the inside of the external shell for the purpose of supporting the internal pads when the first attachment mechanism is not fully engaged by the patient. Insertions 402B and 402C are attached to the inside surface of the internal pads for the purpose of adding additional customization of corrective pressure to the spine of the patient and improved comfort for the wearer.

[0035] FIG. 5 is a front view of the brace of FIG. 3 showing that the straps 202 used to adjust the left side internal pad system and the closure strap 306 may utilize the same slot 104, providing for additional customization to the benefit of the patient.

[0036] In some embodiments, once the strap 202 is adjusted such that the internal pad applies the desired pressure opposite the lateral curvature of the spine of a patient, the strap 202 can be removably secured to the external shell 102 by utilizing hook-and-loop fastener technology.

[0037] FIG. 6 illustrates a state where the brace of FIG. 3 is being utilized by a patient 602. With or without the assistance of a medical professional, the patient 602 may selectively adjust the internal pad systems such that the one or more internal pads are selectively moved and fixedly positioned in a plurality of positions along at least one of the lateral direction or the vertical direction within the external shell, wherein the plurality of positions are designed for periodic adjustment of the corrective force on the spinal curvature during the treatment period. During treatment, the pad portion of the internal pad systems apply pressure opposite the lateral curvature of the spine of the patient. If additional pressure if required, the patient can readily unsecure the strap 202, pull the strap into a tighter position, and removably resecure the strap to the external shell 102 until further adjustment is required later in time.