HAND REHABILITATION DEVICE
TECHNICAL FIELD
The present disclosure relates to hand rehabilitation training, in particular a hand rehabilitation device for being worn on a wearer’s hand, for stretching the wearer’s fingers by dorsal tension.
BACKGROUND
Spasticity is a problem that occurs as a result of many neurological disorders (cerebral palsy, multiple sclerosis, stroke, traumatic brain injury, etc.). In the case of upper limb spasticity, both the fingers and the wrist can be in a constant involuntarily contracted state. Because of the damage to the central nervous system the information traveling through the motor neurons to the muscles urges contraction, and prevents voluntary extension. Beyond a lack of motor control, the sensory information being sent back to the central nervous system is also frequently disrupted.
With this in mind, various rehabilitation devices have been proposed, e.g. US 9,387,110 B2 discloses a variable tension rehabilitation glove including a glove body configured to receive a hand of a user, a wrist band surround the wrist portion, and a plurality of tension bands connecting distal portions of finger portions to a movable tension device for varying the tension of the tension bands.
US 5,538,488 A discloses a glove for exercising digits of a human hand. The device includes an inner glove for receiving a human hand therewithin. Digit cups are secured to the inner glove for receiving the outermost portion of each digit. A plurality of spring-loaded tension cables extend along a posterior of the glove and operate to resist motion of the glove during closing of the hand. An adjustment assembly effects tensioning of the cables to a desired resistance.
Further similar devices are disclosed in CN 110433462, CN 113975747, CN 210872803 U, CN 211095754 U, CN 211794500 U, CN 213965028 U, CN 214388673 U, US 5,373,585, US 5,697,103, US 7,001 ,352, US 7,601 ,130, US 8,328,744, US 8,677,514, US 9,764,190, US 2003/0195093, US 2004/0049141 , US 2022/0218507, and WO 2022/094736.
However, further improvements, in particular with respect to one or more of effectiveness, ease of use, user comfort, costs and appearance are desired.
SUMMARY
In view of the preceding, herewith is provided in an aspect, a hand rehabilitation training device comprising a wrist component and one or more finger components removably connectable with the wrist component, the wrist component comprising a hand sleeve and one or more dorsal bridges movably connected to the hand sleeve via an adjustment mechanism for reversibly adjusting and securing a proximal-distal position of the bridge relative to the hand sleeve, wherein the device comprises one or more flexible members removably connecting each finger component to one or more of the dorsal bridges to tension the flexible member(s) to one or more connected finger components, e.g. to pull on the one or more connected finger components via the respective flexible member(s) wherein the hand sleeve accommodates the hand and wrist, and possibly part of the forearm of a wearer, exposing the wearer’s fingers, and comprises a reversibly openable portion for opening and closing the hand sleeve about the wearer’s wrist. The openable portion is provided with a reversible closure, in particular a zipper, for opening and closing the hand sleeve about the wearer’s wrist in a distal-proximal direction of the hand sleeve. The closure preferably is arranged on a dorsal side of the wrist sleeve, preferably in a dorsal-radial quadrant, which may facilitate operation by the wearer’s other hand.
The tension may generally be in proximal direction. Preferably, the tension is along one or more tendons associated with extension of the respective finger and/or an anatomic direction of such tendon(s). Thus, the tension may help and/or correct (a direction of) extension of the finger.
The flexible members may be fixed to the finger components.
The hand sleeve may comprise plural finger openings to expose the fingers individually, e.g. protruding from the sleeve opening, preferably the sleeve comprises a single finger opening for accommodating and exposing all fingers and possibly part of the hand’s palm, e.g. protruding from the sleeve opening. The sleeve comprises a separate thumb portion possibly for fully enclosing the thumb but preferably comprising a thumb opening for exposing the wearer’s thumb, e.g. protruding from the thumb opening.
Exposing the wearer’s fingers may facilitate putting the finger components onto the fingers without a glove layer in between. Also or alternatively, tactile contact may be facilitated. Also or alternatively, putting on the hand sleeve, and therewith the device as a whole, is facilitated since the hand sleeve and the finger components may be put on separately from each other. The number of finger components (to be) connected may be selected as desired.
The hand sleeve and finger components may be sized individually. The hand sleeve may be used as a hand and/or wrist brace without the finger components.
A single bridge may suffice for the four fingers of a hand. The thumb may be considered separately.
The device allows closing by a distal to proximal movement, e.g. pulling a zipper slider or another closure element, in a direction from the finger tips of the hand wearing the hand sleeve toward the body of the wearer, in correspondence with a natural movement for putting on the device and, facilitating that the wearer puts on at least the sleeve of the device without assistance. This also applies in reverse and mutatis mutandis for opening the closure and putting off the hand sleeve.
The hand sleeve may have a reversibly closable or an unopenable portion for encircling the hand, e.g. one or more finger openings having a closed circumference and/or a thumb opening having a closed circumference, which circumference(s) may be permanently closed. Also or alternatively, the hand sleeve may comprise a blind end to the reversible closure, preferably a blind distal end, e.g. the zipper having an end that is closeable or even being permanently closed.
The device may allow opening and closing of the hand sleeve in proximal- distal direction.
The device may allow opening and closing of the hand sleeve in proximal- distal direction by allowing opening and closing by a proximal to distal movement and/or by a distal to proximal movement. The device may allow closing in the same and/or opposite direction of the direction of opening, e.g. by a zipper.
The device may allow opening by and closing of the hand sleeve by comprising an opening that is oriented in a proximal-distal direction and may be reversably closable by one or more closing members. A closing member may be oriented with respect to the opening such that the closing member allows reversibly closing and opening of the opening by a closing and/or opening action. A closing and/or opening action may be parallel to the opening itself, thus in an proximal-distal direction.
Also or alternatively, the device may comprise a closing member that is oriented with respect to the opening such that the closing member allows reversibly closing and/or opening of the opening in a direction transverse to the direction of the opening, and thus in a direction transverse to the proximal-distal direction.
Additionally or alternatively, the closing members may be oriented in another direction with respect to the opening.
The device may comprise two or more closing members for reversibly closing and opening the hand sleeve. At least two closing members may be oriented in a proximal-distal direction with respect to each other. This allows the device to open and close the device in proximal-distal direction, by subsequently opening and/or closing the hand sleeve by the at least two closing members.
This may assist putting on the sleeve, e.g. this may reduce risk that, and/or prevent that, the sleeve slips off and/or rotates about the hand. A combination of a closed portion for encircling the hand and an openable portion for closing about the wrist and possibly about the thumb is found to facilitate significantly putting on the device by a wearer without assistance. Also, a closure having a blind end may provide a staring for the closure and/or help that the closure requires relatively little force for drawing together sides of the opening and holding and/or attaching them together compared to two loose ends that have to be pulled together for the closing.
Also or alternatively, and associated the preceding disclosure portions, herewith is also provided a hand rehabilitation training device comprising a wrist component and one or more finger components removably connectable with the wrist component, the wrist component comprising a hand sleeve and one or more dorsal bridges movably connected to the hand sleeve via an adjustment mechanism for reversibly adjusting and securing a proximal-distal position of the bridge relative to the hand sleeve, wherein the hand sleeve accommodates the hand and wrist of a wearer, exposing the wearer’s fingers, and the device comprises one or more flexible members removably connecting each finger component to one or more of the dorsal bridges to tension the flexible member(s) to one or more connected finger components, the device in particular being a hand rehabilitation training device according to any embodiment of a device as disclosed herein, wherein the hand sleeve accommodates the hand and wrist of a wearer, exposing the wearer’s fingers, and wherein each of the one or more finger components comprises a finger tip portion for attachment about the finger tip (distal phalanx) and a finger base portion for attachment about the base segment of the finger (proximal phalanx), wherein at least one of the finger tip portion and finger base portion is comparably soft and pliable, possibly being comparably elastic, e.g. being generally of one or more textile fabrics with or without padding, and wherein each of the one or more finger components comprises a comparably rigid backbone connected to the finger tip portion and finger base portion and configured for placement dorsally over and along the middle phalanx of a wearer’s finger.
The finger tip portion and finger base portion may be integrated, e.g be formed at least in part of a single piece of fabric.
The comparably soft and pliable, and possibly comparably elastic portions may, e.g., be generally of a textile fabric such as an at least partly knitted and/or crocheted fabric, although wovens and/or non-wovens may be used as well, including leather. The finger component may comprise different portions of (predominantly) different materials such as different fabrics. Elastic sheets may be used also or alternatively. The material may be at least in part “breathable” and/or water transmissive, and may preferably be skin-contact compliant over prolonged periods. The finger component may comprise padding in one or more portions. The comparably soft and pliable, and possibly elastic, portion(s) of the finger component may allow freedom of movement of the hand and/or wrist, preferably substantially without hindrance, e.g. much like supple garments, knit gloves.
The comparably rigid backbone may serve for one or more of attachment of the flexible element associated with the finger portion, directing the flexible element over the finger and/or palm of the hand, spreading tension and/or pressure over the finger and/or the finger component, assist securing position of the finger component on the finger. The backbone may be generally bending resistant or allow some bending, a flexibility possibly being selected dependent on a length of the backbone relative to the medial phalanx. A backbone may be formed of any suitable material, e.g. plastic, metal, leather, rubber, etc. A backbone preferably comprises a thermoplastic material for when heated above ambient temperatures deforming the backbone to conform to a wearer’s anatomy and when cooled to ambient temperatures retaining the deformed shape, facilitating forming at least part of the backbone to a wearer’s anatomy, and/or determining a particular range of motion of the finger.
The flexible member may be attached, e.g. removably attached, to the backbone, preferably at a position corresponding to a middle of the middle phalanx of the wearer’s finger, or a proximal end of the backbone. The backbone may assist directing a direction of the tension. This may one or more of facilitate connection and/or position and/or direction of the flexible member and the finger component, improve wearer comfort.
The backbone may comprise one or more openings for accommodating one or more interphalangeal joints. Preferably, the backbone comprises a distal opening and a proximal opening, associated with the distal and proximal interphalangeal joints, respectively. This may facilitate bending the finger, one or more of facilitate positioning and/or direction of the backbone and therewith any attached portion (e.g. a flexible member, a soft and pliable portions) and the finger component as a whole, improve wearer comfort.
Also or alternatively, and associated the preceding disclosure portions, herewith is also provided a hand rehabilitation training device comprising a wrist component and one or more finger components removably connectable with the wrist component, the wrist component comprising a hand sleeve and one or more dorsal bridges movably connected to the hand sleeve via an adjustment mechanism for reversibly adjusting and securing a proximal-distal position of the bridge relative to the hand sleeve, wherein the hand sleeve accommodates the hand and wrist of a wearer, exposing the wearer’s fingers, and the device comprises flexible members removably connecting each finger component to the one or more dorsal bridges to tension the flexible member(s) to one or more connected finger components, the device in particular being a hand rehabilitation training device according to any embodiment of a device as disclosed herein, wherein the hand sleeve accommodates the hand and wrist of a wearer, exposing the wearer’s fingers, and wherein the one or more finger components may comprise a finger tip portion comprising sleeve and/or a loop portion for accommodating, e.g. encircling, the finger tip (distal phalanx) of a wearer’s finger and/or a finger base portion comprising a loop portion for encircling the finger base segment of a wearer’s finger (proximal phalanx), wherein the finger tip portion and the finger base portion are separate and spaced from each other on a palmar side of the device, e.g. leaving a space for exposing at least part of the middle phalanx of the wearer’s finger, so that tactile sensation is little or not impaired or hindered facilitating use and possible revalidation.
In any embodiment one or more of the following may beneficially apply.
At least part of the hand sleeve may be comparably soft and pliable, and possibly being comparably elastic, e.g. being generally of a textile fabric such as an at least partly knitted and/or crocheted fabric, although wovens and/or non-wovens may be used as well, including leather. The hand sleeve may comprise different portions of (predominantly) different materials such as different fabrics. Elastic sheets may be used also or alternatively. The material may be at least in part “breathable” and/or water transmissive, and may preferably be skin-contact compliant over prolonged periods. The hand sleeve may comprise padding in one or more portions. The comparably soft and pliable, and possibly elastic, portion(s) of the hand sleeve may allow freedom of movement of the hand and/or wrist, preferably substantially without hindrance, e.g. much like garments. The same materials and associated considerations may equally apply to one or more of the finger components, see also below.
The hand sleeve may comprise a comparably rigid brace. The brace is configured to generally resist or even prevent movement of the wrist and/or hand. The brace may comprise a palmar brace leg and/or a dorsal brace leg, for spanning in proximal-distal direction over the wrist, e.g. spanning over the carpus, such as spanning from overlapping part of the arm bones (radius, ulna) to overlapping part (preferably: most if not all of the metacarpus (palm of the hand). Thus, e.g. a position and/or range of motion of the wearer’s hand may be supported and/or secured, and/or a base for the tension onto the fingers may be provided. The hand sleeve and brace may be integrated, possibly irremovably integrated but preferably the brace is removably secured to the hand sleeve, e.g. the hand sleeve may comprise a pocket for accommodating at least part of the brace.
The brace may comprise both a palmar and a dorsal brace leg, connected by a back, which may stabilize the palmar and dorsal brace legs. The brace preferably is devoid of another back portion, which may facilitate sizing the hand sleeve and/or brace and/or which may facilitate putting the brace and/or the hand sleeve on. The back may be an ulnar back, passing over the ulnar hand back, then in particular and preferably being devoid of a radial connection between the palmar and a dorsal brace leg. This may facilitate freedom of movement of the thumb and/or prevent bulk and/or pressure on the hand between thumb and index finger. The back may comprise a distal recess associated with lateral abduction of the wearer’s finger adjacent the back, e.g. ulnar abduction of the little finger in case of an ulnar back allowing spreading the fingers wide. The brace may be M-shaped, at least in a folded-out configuration, facilitating the lateral abduction while retaining robustness of the brace, e.g. providing a constant size (e.g. width and thickness) along (the shape of) the brace.
The brace may be formed to conform to the wearer’s anatomy, e.g. based on a print, a cast, and/or a (3D-)scan of the wearer’s hand. At least part of the brace may be made by additive manufacturing. At least part of the bread may be made of metal and/or a plastic material. The device may be provided adjustable to adjust the brace to a wearer’s anatomy, e.g. for optimizing operation and/or wearer comfort which may assist one or more of use, therapy, acceptance. In particular, the brace may comprise a thermoplastic material for when heated above ambient temperatures deforming the brace to conform to a wearer’s anatomy and when cooled to ambient temperatures retaining the deformed shape, facilitating forming to a wearer’s anatomy and/or determining a predetermined range of motion of the hand and/or wrist.
Also or alternatively, the device may further comprise a releasable and/or openable wrist band for reversibly tightening and loosening a loop around the wearer’s wrist and/or forearm, and/or for, e.g. from an open configuration, reversibly wrapping and closing a loop around the wearer’s wrist and/or forearm and, respectively, from a closed configuration, opening the loop and unwrapping it from the wearer’s wrist and/or forearm. The wrist band may assist keeping the wrist sleeve, and/or a brace if provided, in a desired position relative to one or more of the wearer’s wrist, forearm, and hand. Also or alternatively, e.g. a position and/or range of motion and/or a base for the tension onto the fingers may be provided. Also or alternatively, the wrist band may secure the reversible closure, which it may cross and/or overlap.
The adjustment mechanism of at least one of the dorsal bridges may comprise a rotary adjustment handle, e.g. a rotary button. The rotation may allow (continuous or stepwise) adjustment and/or locking of the rotary button to define continuous and/or stepwise position adjustment of the bridge. The rotary button may have a tightening mechanism by the rotation e.g. for reeling in a flexible adjustment member such as a string or band with which the bridge may be connected to the adjustment handle. The adjustment mechanism may have a release mechanism. The release mechanism may preferably be operable by another movement than the rotation, such as by moving at least part of the handle (e.g. button) in axial direction (pushing or pulling) relative to an axis of rotation of the rotary adjustment handle, which may facilitate operation and/or construction of the adjustment mechanism and/or may prevent accidental operation of the adjustment mechanism. Such rotary adjustment mechanisms and buttons are commonly known and widely commercially available and therefore not further elucidated here.
Rotation may facilitate operation by one hand, and/or may facilitate reeling in a flexible adjustment member and/or may facilitate substantially retaining a size associated with the adjustment mechanism and/or facilitate providing relatively large travel of the bridge without detachment of it. A convenient and predictable size may be provided.
The flexible members may be elastic and/or be reversibly length adjustable between the finger components and the bridge, preferably in at least a distal position of the bridge. This may facilitate adjusting tension between the bridge and the finger component connected by the flexible member.
The device may comprise a thumb section removably connected to the hand sleeve. The thumb section and hand sleeve may be configured for reversibly adjusting and securing a proximal-distal position of the thumb portion relative to the hand sleeve to tension to provide adjustable tension on the thumb section, e.g. to pull on the thumb section. The thumb section preferably may be provided with a flexible member just like the fingers I finger components. As for the fingers, the tension may be arranged along one or more tendons associated with extension of the thumb and/or an anatomic direction of such tendon(s). Thus, the tension may help and/or correct (a direction of) extension of the thumb.
Thus the thumb may also be pulled, possibly without connection to the bridge, and/or by providing a separate bridge and/or a separate adjustment means. Thus, it may be facilitated that a tension direction on the thumb may differ from a general tension direction on the fingers; the flexible members of the fingers may be arranged dorsal over at least part of the respective fingers and the hand palm generally parallel to the respective fingers, whereas for the thumb it may be preferred that the tension direction be rather radial than substantially dorsal.
The one or more finger components may comprise a loop portion for accommodating, e.g. encircling, a wearer’s finger, the loop being openable for reversibly wrapping and closing the loop around the wearer’s finger and, respectively, opening the loop and unwrapping it from the wearer’s finger. E.g. the one or more finger components may comprise a finger tip portion comprising sleeve and/or a loop portion for accommodating, e.g. encircling, the finger tip of a wearer’s finger, and/or a finger base portion comprising a loop portion for encircling the finger base segment (proximal phalanx) of a wearer’s finger. One or each of the respective loops may be openable for, reversibly wrapping and closing the loop around the wearer’s finger and, respectively, opening the loop and unwrapping it from the wearer’s finger.
This may facilitate putting on the finger components and therewith the device as a whole. Opening and closing the loops may obviate having to fit a finger in a finger component which may be painful of substantially impossible for a cramped finger.
At least part of a finger component may be formed with touch screen sensitive material, in particular a finger tip portion. Thus, a wearer can operate touch screens while wearing (a finger component of) the device. Note that an exposed finger portion may also allow or assist operation of a touch screen.
Hence and as will be clarified below, the presently provided hand rehabilitation training device may serve as both a dynamic splint and as a compressive wrist sleeve. The former may be responsible for counteracting the contraction in the wrist and fingers, while still allowing some movement. The latter, along with the open design may be responsible for encouraging blood flow and thus, sensory feedback.
BRIEF DESCRIPTION OF THE DRAWINGS
The above-described aspects will hereafter be more explained with further details and benefits with reference to the drawings showing a number of embodiments by way of example.
Fig. 1 is a substantially dorsal view of a hand rehabilitation training device;
Fig. 2 is a substantially palmar view of the hand rehabilitation training device of Fig. 1 ;
Fig. 3 (= Figs. 3A-3E) are schematic views in different directions of a finger component of a hand rehabilitation training device
Fig. 4 (= Figs. 4A-4E) are schematic views in different directions of a wrist component of a hand rehabilitation training device;
Fig. 5 is a schematic view of a brace for the wrist component of a hand rehabilitation training device.
Fig. 6 is a similar view as Fig. 1 , but showing an alternative embodiment.
Fig. 7 is a side view of parts of the embodiment as shown in Fig. 6.
Fig. 8 is a side view of a part of Fig. 6.
Fig. 9 is perspective view of different sides of a dorsal bridge of an alternative embodiment of the hand rehabilitation training device according to the invention.
DETAILED DESCRIPTION OF EMBODIMENTS
It is noted that the drawings are schematic, not necessarily to scale and that details that are not required for understanding the present invention may have been omitted. The terms "upward", "downward", "below", "above", and the like relate to the embodiments as oriented in the drawings, unless otherwise specified. Further, elements that are at least substantially identical or that perform an at least substantially identical function are denoted by the same numeral, where helpful individualised with alphabetic suffixes and/or increased by 100, 200, etc. between embodiments. Further, unless otherwise specified, terms like “openable” “detachable” and “removably connected” are intended to mean that respective parts may be opened and/or, respectively, disconnected essentially without damage or destruction of the associated part or parts, e.g. excluding structures in which the parts are integral (e.g. continuous sections of a member; structures welded into, or moulded as, one piece), but including structures in which parts are attached by or as mated connectors, fasteners, releasable self-fastening features, etc. The verb “to facilitate” is intended to mean “to make easier and/or less complicated”, rather than “to enable”.
Figs. 1-2 show embodiments of (parts of) a hand rehabilitation training device 1 , comprising a wrist component 3 and one or more finger components 5 removably connectable with the wrist component 3. The wrist component 3 comprises a hand sleeve 7 and a dorsal bridge 9. The device 1 further comprises flexible members 11 each removably connecting a finger component 5 to the dorsal bridge 9 via hooks 10 or other connectors. In other embodiments one or more bridges could be provided and/or one or more bridges could be formed differently, e.g. being formed as a. Here, the flexible members 11 associated with all four finger components 51 all four fingers are attached to the same bridge 9, however, one or more finger components 5 could be omitted.
The dorsal bridge 9 is movably connected to the hand sleeve 7 via an adjustment mechanism 13 comprising one or more flexible adjustment members 15, e.g. one or more pieces of strap or string, and an adjustment handle 17, here in the form of a rotary button The adjustment mechanism 13 is configured for reversibly adjusting and securing a proximal-distal position of the bridge 9 relative to the hand sleeve 7, by winding up I reeling in a portion of the flexible adjustment members 15. Thus a reversible tightening mechanism is provided to tension, when the device 1 is worn on the hand and arm of a wearer (not shown), the flexible member(s) 11 to one or more connected finger components 5 worn on a wearer’s finger (not shown). The adjustment members 15 may be retained by optional loops 19 or other structures to prevent snagging behind objects. A bridge could be attached with a single adjustment member 17 to one adjustment handle 17, or with plural adjustment mechanism 13 to plural adjustment handles 17.
The hand sleeve 7 accommodates the hand and wrist of a wearer (not shown), exposing the wearer’s fingers (not shown). A distal end 7D of the hand sleeve 7 comprises an unopenable sleeve portion providing an opening 21 for encircling the hand. In another embodiment, the distal end 7D may be reversibly openable (not shown). The hand sleeve 7 also comprises an optional thumb sleeve 23 and a thumb component 25 (only shown in Fig.1 ) removably connected to the hand sleeve 7, here via a flexible members 27 connected with a hook 29 to loops 31 provided on the hand sleeve 7. The (distal end of the) thumb sleeve 23 comprises an unopenable portion providing an opening 33 for encircling the thumb.
The hand sleeve 7 comprises a zipper 35 in proximal-distal direction of the hand sleeve 7 providing a reversibly openable portion for opening and closing a proximal end 7P of the hand sleeve 7 about the wearer’s wrist. The zipper 35 has a blind end, being closed at a distal end 33D.
At least part of the hand sleeve 7 is comparably soft and pliable and possibly being comparably elastic, e.g. being generally of one or more textile fabrics with or without padding, and the hand sleeve 7 comprises a comparably rigid brace 36 discussed further below. The hand sleeve 7 may be configured to closely fit about the hand, wrist and (distal portion of the) lower arm of the wearer (not shown); the hand sleeve 7 may be generally elastic so as to engage the wearer’s anatomy along and substantially throughout the sleeve 7 as much as possible at a substantially constant local pressure so as to prevent local stress and/or cutting off blood flow.
The device 1 further comprises one or more optional openable wrist bands 37 for reversibly wrapping and closing a loop around the wearer’s wrist and/or forearm, and, respectively, opening the loop and unwrapping it from the wearer’s wrist and/or forearm. The wrist band 37 is preferably arranged at a proximal end of the wrist component, configured to be attached under the wearer’s wrist bone for facilitating maximum support. The wrist band 37 is preferably fixed to the wrist sleeve (not shown) and comprises an optional eye of ring 39 through which a leading free end of the wrist band 37 is fed and doubled back onto a trailing end of the wrist band 37. This may facilitate tightening the band 37. The band 37 may be provided with a releasable closure such as a buckle and/or a hook-and-loop-fabric type fastening system such as Velcro which may be preferred. The wrist band 37 may be tightened under the adjustment members 15 to prevent interference with (tenson control of) the adjustment members 15. The wrist band 37 also preferably is arranged to be separated from the adjustment handle 17. Each shown finger component 5 comprises a comparably soft and pliable portion 41 , possibly being comparably elastic, e.g. being generally of one or more textile fabrics with or without padding, for attachment about a wearer’s finger (not shown). The soft finger component portion 41 comprises a finger tip portion 43 for attachment about the finger tip of a wearer’s finger (not shown) comprising a sleeve, and a finger base portion 45 for attachment about the base segment of the wearer’s finger. The finger base portion 45 comprises a strap 47 for reversibly wrapping and forming a closed loop around the base (proximal) segment of the wearer’s finger and, respectively, opening the loop and unwrapping it from the wearer’s finger.
Each shown finger component 5 comprises a comparably rigid backbone 49 attached to a dorsal side of the soft finger component portion 41 . The backbones 49 are configured for placement dorsally over and along the middle phalanx of the respective wearer’s finger (not shown). The backbones 49 comprise openings 51 for accommodating (flexion of) respective interphalangeal joints, which openings 51 may be formed into and/or through (as shown) the rigid material of the backbone 49. One or more of the openings 51 may expose the soft finger component portion 41 underneath the backbone 49, or may be open and expose the finger. The backbones 49 may be formed of any suitable material, e.g. plastic, metal, rubber, hard leather, etc. In another embodiment, not shown, one or more of the backbones 49 may be one or more of covered by, integrated with, and at least partly accommodated in, the soft finger component portion 41 .
In each shown finger component 5 the finger tip portion 43 and the finger base portion 45 (47) are separate and spaced from each other on a palmar side of the device, leaving a space S for exposing at least part of the middle phalanx of the wearer’s finger.
Figs. 2, 4-5 indicate embodiments of the brace 36, 236. Fig. 5 shows the brace 36 of Fig. 2 in an unfolded state, wherein the brace has a general M-shape. In an unfolded state, the brace may be flat, e.g. the brace may be cut from a metal or a thermoplastic sheet. Other manufacturing methods may also be provided. Figs. 2 and 4 indicate a brace 36, 236 in use, formed to operably fit about the wearer’s hand such that the brace comprises a palmar brace leg 53, 253 and a dorsal brace leg 55, 255 connected by an ulnar back 57, 257 to fit around the ulnar side of a wearer’s hand (not shown). Due to the M-shape of the brace 36 the back 57 in Figs. 2 and 5 is generally V-shaped and provides a distal recess 59 for lateral abduction of a wearer’s finger adjacent the back, here the little finger (pinky). Beast seen in Fig. 5, the distal portions of the dorsal side DD and the distal portion of the palmar side DP may be the same or differ for accommodating movement, as shown; the shown brace may be deformed by bending, starting from te folded-out geometry shown in Fig. 5 the legs 53, 55 “towards the viewer” as it were.
The brace 236 of Fig. 4 may be, in an unfolded configuration generally U- shaped (not shown), so that in a configuration formed to operably fit about the wearer’s hand the ulnar back may flare laterally outward as indicated.
Figs. 3 (= Figs. 3A-3E) are schematic views in different directions of a finger component 105 of a hand rehabilitation training device as described herein. In this embodiment, the backbone 149 is provided with a distal extension 49D providing a cap 43 over soft the finger tip portion 141 . A flexible member 111 is attached in a medial portion of the backbone 149.
Different embodiments of finger components 5, 105 and/or others (not shown), could be used with one wrist component, e.g. the wrist component of Figs. 1- 2, e.g. associated with different (degrees of) afflictions of different fingers.
A property of preferred embodiments of the provided device is a combination of soft and hard materials in both the finger components and wrist component. The finger components can be individually clipped/slipped on, allowing independent use. Along with this, the finger components have (elastic) tensioners, e.g. at the proximal side thereof and can be position-adjusted to a large extent via a continuous tensioner. The wrist component contains a hard brace and it can be slipped on. Unlike conventional rehabilitation devices, the present device is easily customizable by the tensioners, wrist sleeve and number of fingers. Also, the device may be lightweight, not bulky and may allow for independent use in a domestic environment.
The provided device comprises several separate components, which work together to open the wrist and fingers of a wearer into a functional position.
The wrist brace may be made of thermoplastic which can be formed, e.g. molded to a wearer’s anatomy. Further, the thickness of this component can be selected based on the required strength e.g. associated with a severity of the wearer’s spasticity. This brace may be configured to maintain the wrist in a neutral position, thereby helping to alleviate spasticity and involuntary movements. An optional adjustable wrist strap goes around the forearm to stabilize the wrist component. The strap may be closable with any suitable closing means; a hook-and- loop-fabric type fastening system such as Velcro may be preferred as indicated; it is preferred that for closing, a leading end of the strap is fed through an eye and looped back, e.g. for closing onto a trailing end of the strap, for pulling on the eye reducing required force for closing and/or providing an anchoring point for the closing.
The device also comprises one or more separate finger components. These are preferably made of semi rigid plastic, on the back of the digit and are attached to stretchy material. The finger components may all be individual, so as to alleviate struggling for a person who puts them on the fingers of the wearer, possibly the wearer personally putting one or more finger components on without assistance. In addition, the amount of fingers affected by spasticity can vary, and hence the number of finger components used, thus this acts as another level of customization.
The finger components help stretch the fingers but also still allow movement that makes grabbing, grasping, daily activities and other finger movements possible. This may be facilitated by the pliable material of the finger components and the hard material conforming to a phalanx of the finger.
The finger and wrist components are preferably attached via two adjustable mechanisms connected, e.g. hooked, together. The mechanisms may be continuous adjustable mechanisms. The first adjustable mechanism is attached to the finger components, e.g. the proximal end thereof and/or the hard part (also dubbed “backbone”) thereof, and is made of a flexible material, possibly elastic, with an adjustment component. The adjustment member may comprise a slider which may allow continuous sliding and/or may be configured for adjustment to discrete positions. At an end of the member, there may be a connector, preferably a hook, which is, in use, attached to a bridge. The second adjustment mechanism may be continuous as well or adjustable to discrete increments, and/or the mechanism may comprise a rotary button or “wheel” attached to the wrist component, in particular the brace. This wheel is also attached to the bridge, preferably via flexible adjustment elements such as strings which more preferably have significantly lower elasticity than the flexible elements straps, e.g. having little to substantially no elasticity. The wheel can easily be adjusted with one hand and may be responsible for larger tensioning steps than the flexible straps. Note that more or fewer mechanism may be provided.
The device may also provide compressive sensory feedback. The compression provided by the wrist component, in particular the wrist sleeve, possibly assisted by the optional brace, may stabilize the hand, reducing tremors and involuntary movements. In this regard the wrist component could be applied for people with Parkinson’s disease or arthritis as well. In such case, the wrist component could be provided individually, instead of being part of the device and then optionally the wrist component could also be devoid of the dorsal bridge and adjustment mechanism.
In a preferred embodiment, the soft wrist sleeve covers part of the palm and back of the hand, the wrist and part of the forearm, e.g. going down about half of the forearm, and also comprises an optional sleeve for the thumb. There is an optional pocket in the soft compression wrist sleeve to accommodate, e.g. slide in, at least part of the wrist brace, if provided. The soft compressive wrist sleeve can be closed, e.g. zipped shut with one hand; the hand and thumb sleeve may anchor the sleeve against pulling force on the zipper and may facilitate closing the sleeve.
The preferred finger components are also made of soft compressive material to which a semi rigid plastic backbone is attached. The finger components may contain a small finger-tip component into which one can place the finger. The tip component may be made of touch screen sensitive material. At the proximal end of the finger component, e.g. at the proximal segment of the finger there is a strap which can be adjusted to the finger size and make putting the finger components on easily and independently. Most of the bottom of the finger, excluding the tip and bottom, is preferably open to allow for maximal sensory feedback. Exposure of parts of the palm and finger and optional textured surface of the wrist component enhance grip strength and dexterity, making it easier to hold objects and perform fine motor tasks.
Fig. 6 shows an alternative embodiment of a hand rehabilitation training device 1 , comprising the wrist component 3 with one or more finger components 5 removably connected to the wrist component 3. Parts corresponding to parts in the embodiment as shown in Fig. 1 have the same reference numbers. The wrist component 3 comprises the hand sleeve 7 and the dorsal bridge 9. The hand sleeve 7 comprises a multi-layered component with a substantially concave shape that accommodates the hand and the wrist. It may also be a single-layered component.
The multi-layered component comprises multiple layers and may be formed of a semi-rigid material, such as TPU or another semi-rigid material, maintaining its general shape during normal use, while allowing bending of the wearer’s hand. The layer on the palmar surface of the multi-layered component, facing the dorsal surface of the wearer’s hand, may have sweat and irritation avoiding properties and prevent sliding. The rigidity and shape of the multi-layered component may depend on individual applications. E.g. the multi-layered component may be more rigid if assistance to or fixation of the wrist is desired. The multiple layers may improve the comfort of the wearer, e.g. a layer that is in contact with the skin may be made from a soft material that transports sweat and heat and the layer may provide grip which facilitates the hand sleeve 7 to stay in place.
The dorsal bridge 9 is movably connected to the hand sleeve 7 via an adjustment mechanism 13 comprising one or more flexible adjustment members 15, e.g. one or more pieces of strap or string, and an adjustment handle 17, here in the form of a rotary button. The adjustment mechanism 13 is configured for reversibly adjusting and securing a proximal-distal position of the bridge 9 relative to the hand sleeve 7, by winding up I reeling in a portion of the flexible adjustment members 15.
The hand sleeve 7 comprises two reversibly closable wristbands 37. Each of the wristbands 37 may have a permanently connected end that is directly or indirectly connected to the multi-layered component and a loose end, and may be reversibly closable with a two-step method.
In a first closing step, the loose end of the wrist band 37 may be removably connected through a first fastening member 67 to the multi-layered component, encircling the hand, wrist and/or forearm of the wearer. In Fig. 6, the first fastening member 67 may comprise a hook-and-loop-type fastener, but may also be made with other types of fasteners.
The two first fastening members 67 of the respective wrist bands 37 are situated at proximal-distal direction with respect to each other.
In a second step, the wrist bands 37 may be tightened. In this embodiment, each wrist band 37 comprises a second fastening member (not shown in Fig. 6). The wrist bands 37 comprise a section made of a pliable material provided with a hook-and-loop-type fastener. The pliable material is received through a recess in the wrist band 37 and folds back onto itself, such that a hook section of the fastener on the wrist band 37 connects to a loop section of the fastener on the wrist band 37 or the other way around.
The wrist bands 37 may be situated around the hand, wrist and/or forearm of the wearer.
The wrist band 37 may comprise a section made from a material with elastic properties, e.g. an elastic fabric, for improving comfort of the wearer. The material with elastic properties properties may prevent or limit high forces working on the hand, arm and or wrist of the wearer .
The two-step method is advantageous for a person who lacks sufficient force to place the wrist bands 37 in a desired position and simultaneously fasten them. The wearer can first simply position and connect the wrist bands 37 to the multi-layered component through the first fastening member 67 in the first step and then tighten the wrist bands 37 through the second fastening member 67.
The hand sleeve 7 may be opened by releasing the first and/or the second fastening members.
The hand sleeve 7 comprises guiding components 38 on the dorsal side of the hand sleeve 7. The guiding components 7 can guide the finger components 5 and/or flexible members 11 in longitudinal direction of the fingers of a wearer. The guiding components 38 may assist keeping the finger components 5 situated around the fingers during use. They may also assist in directing tension in the finger components 5. The guiding components 38 may be made of plastic, metal, wood or another suitable material. In this case the finger components 5 are flexible elongate elements, but may have different properties and dimensions in an alternative embodiment.
A strip 40 is provided on the dorsal side of the hand sleeve 7. The strip 40 may be made from a pliable material, and allows the guiding components 38 to be ( relocated in transverse direction of the fingers. This makes the device customizable making it applicable for, e.g. different sizes of hands, various use cases, and various disorders or injuries.
The dorsal bridge 9 and the adjustment mechanism 13 are configured for providing adjustable tension to one or more of the finger components 5 similar to the embodiment of Figs. 1-2. Fig. 9 shows different sides of an alternative embodiment of the dorsal bridge 9. It comprises slots 41 for accommodating the flexible members 11 . The slots 41 have toothed inner surfaces to fasten the flexible members 11 to the dorsal bridge 9. A tiltable closure 42 can close the slots 41 .
The finger components 5 are connected via the respective flexible members 11 to the dorsal bridge 9. The finger components 5 may be made at least partially of a soft and pliable material, e.g. a fabric. The finger components 5 allow bending of the fingers by elastically deforming.
The finger components 5 comprise sections 60 with elevated stiffness. In Fig. 6 the sections 60 with elevated stiffness run along the anatomic direction of the flexor tendon(s) in the finger, as they start in the centre of the fingers and fan out in distal direction, thereby reducing pressure on the proximal interphalangeal joint when the fingers are in a bent orientation. In the embodiment as shown in Fig. 6 each of the finger components 60 has two sections 60 which form a V-shape. The sections 60 have a higher stiffness than the finger components 5. They may be fixed to the finger components 5 through stitching, glue, or the like. Flaring out of the sections 60 with elevated stiffness may advantageously affect the direction of the tension force, as it may provide a centering effect to the force which may help keep the finger straight and limit transversal movement of the fingers.
The thumb component 25 is attached to one of the wrist bands 37. Additionally or alternatively, the thump component 25 can be removable attached to the multi-layered component of the hand sleeve 7. The device may also be used without a thumb component 25.
The thumb component 25 has a separate tensioning system. In the embodiment in Fig. 6, the tensioning system is a ladderlock buckle 62. Similar to the finger components 5 the thumb component 25 also comprises sections 60 with elevated stiffness.
Fig. 7 shows one of the finger components 5 including the sections 60 and the thumb component 25 including the sections 60. In this case the thumb component 25 is also an elongate element, but may have different dimensions and shapes in alternative embodiment.
The hand sleeve 7 may be provided with a palmar portion 63 as shown in Fig. 8. In this case each of the wristbands 37 are indirectly connected to the multi- layered component of the hand sleeve 7 via the palmar portion 63. The palmar portion 63 is movably connected to the hand sleeve 7 via a flexible connection member in the form of three straps 64 which fold around the wearer’s hand such that the palmar portion 63 is situated in the palm of the hand of the wearer. The palmar portion 63 may support the wrist to maintain it in a desired angle. The palmar portion 63 may be slightly bent and may be formed of a semi-rigid material. The palmar portion 63 connects the wrist bands 37, via the three straps 64 to the hand sleeve 7 and loop around the hand, wrist, and/or forearm.
The palmar portion 63 may be configured to facilitate movement of the wearer’s fingers. The palmar portion 63 may provide support and grip to maintain the hand sleeve 7 in the desired position.
Fig. 8 shows that the wrist bands 37 pass through respective elongated through-holes 65 in the palmar portion 63. An end portion of each wrist band 37 that passes the corresponding through-hole can be fastened to the remainder of the wrist band 37 by folding it back onto the remainder of the wrist band 37, for example through a well-known hook-and-loop-type attachment. This may be considered as being the second fastening member 66 as mentioned hereinbefore. The opposite end of the wrist band 37 may be considered as being the first fastening member 67, see Fig. 6. The wrist band 37 is configured for closing the hand sleeve 7 about the wearer’s wrist in two steps. The wrist band 37 and the multi-layered component of the hand sleeve 7 are provided with a first fastening member 67 for fastening the wrist band to the hand sleeve 7 in a first mutual position in a first step and a second fastening member 66 for fastening the wrist band 37 to the multi-layered component of the hand sleeve 7 in a second mutual position in a second step. In the second mutual position the hand sleeve 7 is tightened about the wearer’s wrist more than in the first mutual position.
In the event that the palmar portion 63 is omitted the wrist bands 37 are directly connected to the multi-layered component of the hand sleeve 7. If a two-step fastening is desired, as well, through-holes like the through-holes in the palmar portion 63 may be provided in the multi-layered component of the hand sleeve 7.
Additionally, the hand sleeve of the wrist component applies gentle pressure to the affected hand, encouraging muscle relaxation and reducing spasticity. As a result, the device promotes a more comfortable hand and wrist position, thereby improving functional ability, encouraging independence and enhancing the quality-of- life for individuals with neurological conditions.
The disclosure is not restricted to the above described embodiments which can be varied in a number of ways within the scope of the claims. For instance in at least some embodiments: a. The device is designed such that it can be provided in a variety of sizes and adjusted to fit each wearer’s body separately, allowing for substantially full customization and optimal comfort. The soft wrist component and finger components can be provided in standard sizes. At least part of the wrist component, in particular the brace, can be molded/adjusted to the persons’ exact hand size; b. The device may be provided for several different sizes and a plurality of sizing options, e.g. for the wrist component and finger components; and one or more adjustable components attached to the wrist component and configured to adjust the size of one or more of the components to fit each patient's body. c. Several adjustable components are attached to the wrist component and configured to secure the device to a patient's body. The device may be designed such that a patient can independently put on and wear the device without the assistance of anybody. d. A soft, elastic sleeve or hand glove (i.e. fingerless glove) covering the hand (excl. most of the palm), wrist and half of the forearm is provided. i. The soft component can be made of elastic materials: Spandex, Neoprene, Lycra, Polyurethane, Nylon, Polyester or alike. ii. The soft component will have one closing mechanism in the form of a: zipper, buttons, tightening wheel, laces, velcro or hooks e. A brace made from moldeable, semi-rigid plastic that may slides into an optional pocket of the soft component which can be molded by the therapist or enduser. Such moldable brace can also be composed of metals or other plastic types. f. An optional reversibly openable and closable band to wrap around the wrist and prevent the brace or other hard component from moving, e.g. comprising one or more of buttons, buckles, ties, hook-and-loop-type fasteners (e.g. Velcro) g. Individual finger components may be formed at least in part as sleeves which cover the dorsal side of the finger but do not cover the whole of the palmar side of the finger. i. The finger components can be hooked on, or slid over, each individual finger ii. The finger components can have the fingertips completely free, or a small cover at the tip which is made of touch screen-friendly material and/or anti-skid material. iii. The finger components could contain (semi) rigid components, or backbones, on the dorsal side of the components for additional support.
Bending of the (semi) rigid component could be because of the stiffness of the materials, a bending mechanism, opening and closing of the (semi) rigid component. h. Individual finger components can be removed individually from the fingers and/or from the device. E.g. via a clip, via opening openable loop, via sliding off the top of the finger, etc. i. A thumb component can be part of the hand sleeve or loose like the other finger sleeves. The thumb can be immobilized/stabilized with a backbone and/or or an additional hard component (materials as specified in e) in the sleeve. Or can be pulled into a neutral position via an elastic tensioner from the thumb component to the glove with suitable connectors such as hooks I clasps I hook-and-loop-type fasteners (e.g. Velcro). j. An elastic tensioner can be attached to the bridge and to a proximal part and/or the backbone (if provided) of the finger components. The attachment to the bridge can be via a button, a hook, a buckle, a tie, or other releasable connector. k. A flexible member such as an elastic tensioner can be (preferably continuously) adjusted via a sliding buckle or other adjustment piece. Such piece may be of plastic, metal, or other suitable material. l. The dorsal bridge can be adjusted with an additional tensioner placed on the wrist or forearm, which may allow continuous adjustment. At least part of the tensioner may be connected with the brace, if provided. E.g. a fixed or removable connection with at least part of the brace may be provided, e.g. such as by a mated connector-counterconnector pair. i. The bridge may contain hooks, clasps, hook-and-loop-type fasteners (e.g. Velcro). ii. If no additional tensioner is present the bridge may be attached to a dorsal portion of the hand sleeve. iii. The additional tensioner can be in the form of a (or multiple) tightening wheel(s) or other tightening mechanism. iv. The adjustment button may be located at a proximal end of the hen sleeve to allow the maximum adjustment of the fingers. m. At least part of the thumb component can be formed as a textile sleeve, and/or can contain fixed bracing, and/or or have adjustable bracing. n. The thumb preferably is not adjusted by the bridge and/or the adjustment handle, e.g. a central wheel, because the positioning would likely only have a stretching effect and not a functional one. Therefore, the thumb is treated independently from the other fingers.
The wrist component may be made of plastics and textiles, along with an adjustment wheel, a bridge and a zipper.
The hand sleeve of soft material may include one hole for all fingers to go through together and a thumb sleeve.
If little adjustment is needed, the bridge can be attached to the back of the glove, possibly removably attachable in discrete positions and an adjustment handle can be left out. A rotary adjustment handle may allow for very precise adjustments (which adjustment may be associated with controlled opening of the fingers). The adjustment mechanism may provide a quick release mechanism releasing tension in, and/or freeing of, the adjustment members 15. o. The finger components may be substantially formed of of plastics and textiles along with an elastic strap. The palmar side (or: inside) of the fingers may be mostly exposed (uncovered by material). The backbone can stop before the finger nail or continue as a cap over the tip of the finger for more support.
Elements and aspects discussed for or in relation with a particular embodiment may be suitably combined with elements and aspects of other embodiments, unless explicitly stated otherwise.