IE56883B1 - Human shoe sole - Google Patents

Description

The present invention relates to a new and improved design associated with the construction of a human shoe sole or insole capable of encouraging the human great toe to be able to extend on the first metatarsal head 5 It is in the context of the above that one of the primary objects of the present invention is to create a new and improved design of the human shoe sole whereby the human first metatarsal will be able to achieve a plantarflexed position relative to the great toe and the remaining metatarsal heads. This plantarflexed position will thereby allow for the extension of the human great toe during the human gait cycle in an efficient fashion.

The present invention is designed to allow the first metatarsal and hallux (great toe) to function in their proper sequence. It is their sequential function that seems to control not only the toe-off phase but the shape of the arch and the ability of the foot to spring forward as well. The invention effectively encourages this proper functioning and preferably comprises a lower durometer (by comparison to the remaining midsole) or an absence of material directly under the first metatarsal head in a cutout of the original mid-sole material. The shape of the cutout is one where the portion underlying the medial sesmoid is wider than the portion underlying the lateral sesmoid. Because the durometer rating of the insert plug is less than the remaining midsole material, the reactive force of the ground under this particular site is decreased relative to the remainder of the foot. This allows for a relative strengthening of the peroneous longus and a stabilizing effect on the foot by causing the first metatarsal to bear weight while plantarflexing against the ground. Not only does the softer cutout of the present invention promote plantar flexion of the first metatarsal, but also (due to the varying width of the cut out) promotes eversion of this same bone, once the initial motion of first metatarsal plantarflexion-great toe extension begins to take place, the mechanical advantage of the proximal phalynx over the metatarsal is such that the first v metatarsal can no longer dorsiflex under weight bearing conditions. This allows for the windlass effect to take place; the arch raises as the heel lifts off the ground and therefore provides better support to the body.

For many years, the search for the best method of support with a human shoe has continued. Attempts have been made to limit rear foot pronation by varieties of means, for exampLe, by added stabilization means to the medial portion of the hindfoot midsole and other similar methods of dual density material, in one example added different lower density materials to both the rear and forefoot components of the midsole have been provided in order to aid in shock absorption, in another arrangement a lower durometer bar is placed under the metatarsal-phalangeal joints in order to increase the flexibility of the shoe at that site, raised sponge rubber pads is disposed under metatarsal heads 1 and 5 and a thicker sponge pad under metatarsal heads 2, 3 and 4 as a means of forefoot support and the pad dorsiflexes the first and fifth metatarsal heads. All the above-mentioned concepts have, in one way or another, attempted to use some form of external support and/or shock absorbtion mechanism to stablize the human foot. The present invention, however, creates an environment * which encourages the intrinsic mechanisms of the human p? foot to support itself. By allowing for proper great , 35 toe extension at toe-off. The windlass mechanism can be utilized by the human foot. When proper supination is accomplished by the windlass mechanism, not only is the foot able to better support the weight of the body during the midstance and propulsion phases of gait, but it also is in the correct position to begin the contact phase which occurs at the conclusion ol the swing phase. The greater the supination at propulsion, the more pronation range of motion is available for attenuation of impact shock at heel contact.

Hie present invention provides a human shoe sole having a foot supporting surface, an area of which, underlying substantially only the location of the first metatarsal head of a wearer's foot, is of * reduced support relative to the remainder of said surface.

In order to more fully understand the invention, reference should be had to the following drawings taken in connection with the accompanying text which show, by way of example, several preferred forms of the invention: Fig. 1 is a diagrammatic, schematic diagram of the foot as it might be seen in an X-ray showing additional soft tissue structures.

Fig. 2 is a view similar to Fig. 1 showing the foot as it should effectively function.

Fig. 3 shows first ray dorsiflexion and the problem of first metatarsal phalangeal joint lock up. * Fig. 4 is a section taken along the line 4—4 of Fig. 1 of a left foot showing the inversion and eversion motions of the head of the first metatarsal.

Fig. 5 is a sectional view of one shoe sole embodying the present invention and Fig. 6 is a plan view of the shoe sole of Fig. 5.

Fig. 7 illustrates another embodiment of the present invention; Fig. 8 is a sectional view of a shoe showing a schematic diagram of a first metatarsal head with its * relationship to the lower durometer portion of the sole , of the present invention. This also shows the closest known prior art and the difference between the present invention and the prior art; and Fig. 9 illustrates the windlass effect described in the Journal of Anatomy by J.H. Hicks in 1954 with respect to the plantar aponeurosis.

Reviewing again the motions of the bones of the foot, reference should be had to Figures 1 through 4.

To determine the actual motion of the first metatarsal head experiments were made to show how the vertical forces exerted on the two sesmoids of the metatarsal head can create eversion or inversion and thus encourage or discourage, as the case may be, the dorsiflexion or plantarflexion of the first metatarsal. As weight u begins to shift from the heel to the first metatarsal head it is critical that plantarflexion be permitted.

This means that the first metatarsal head must be permitted to move downward and to rotate to the medial (evert) or inside (See Fig. 4-c and also see Fig. 2 showing the plantarflexion of the foot). As can be seen, relative forward motion of the sesmoids and plantarflexion of the first metatarsal for tightening the plantar aponeurosis and therefor create the windlass effect.

Referring now more specifically to Figs. 5 and 6, there is shown a shoe sole embodying one preferred form of the invention. The sole is indicated at 10 as having a smooth upper surface 12 and an insert 14 of a material which is softer than the material of the remainder of the sole. As can be seen, this portion tapers outwardly from a point 16 to a relatively wide portion at the inside of the foot. This softer section 14 is positioned under the head of the first metatarsal and the transverse increase in softness encourages eversion and plantarflexion of the first metatarsal head as weight shifts from the heel to the first ray. Thus the normal functioning of the foot for plantarflexion and supination will be encouraged with beneficial results for walking and for shock absorption on subsequent heel contact. As can be seen in Fig. 4-c, the softer portion of the insert 14, (i.e. the wider portion) is positioned i to contact the inside or medial portion of the first metatarsal head and encourages this first metatarsal head to plantacflex and evert, thus encouraging the normal plantarflexion shown in Fig. 2.

Referring now to Fig. 7 there is shown another embodiment of the invention wherein the insert 14-a is shown in plan view as having a slightly larger area under the medial portion of the first metatarsal head.

Referring now to Fig. 8, the relationship of the insert 14 in the sole 10 with respect to the bones of the first ray is shown. In this Fig. 8, the insert is shown at 14 as encompassing the range B. As can be » seen* the normal motion of the first metatarsal head, with its sesmoids* causes it to move down and slightly to the rear where it will impinge directly on the area encompassed by B. This permits the natura? motion of the first metatarsal bead with the plantarflexion and desired eversion. Also* superimposed on this drawing is a dotted line area, shown as a, which represents the prior art of Alchermes U.S. Patent 4*377,041, As described in his patent this softer section of Alchermes is for the purpose of permitting flexing of the sole of the shoe* not for plantarflexion of the first metatarsal head. Accordingly* this flexible section is in front of 2S the head, towards the toe and is positioned under the joint between the first metatarsal head and the proximal phalynx. This will do nothing to encourage metatarsal plantarflexion since it will not encourage downward motion of the first metatarsal head with respect to the remainder of the bones in the first ray. It is this downward motion or plantarflexion and eversion (as weight transfers from the heel to the metatarsal head) which is of critical importance in the present invention. 1 In a preferred form of the invention, the cutout 14 can be made of ethylene vinyl acetate foam, for example* , having a durometer of 45 which can be used in a shoe sole having a durometer of 50 for the remainder of the sole. The principal point here is that the durometer of the insert be appreciably softer than the durometer of the surrounding portions of the sole so that transfer of the weight from the heel to the first ray will tend not to push the first metatarsal head up, and thereby start the natural action of plantar flexion and eversion.

While one preferred embodiment has been described above, numerous embodiments may be employed as long as they accomplish the desired promotion of natural plantarflexion of the first metatarsal head. Numerous other materials of different density may be employed.

The same result can be achieved by providing a hollow instead of a lower durometer material. When there is a hollow underneath the first metatarsal head the transfer of weight causes the first metatarsal head to move naturally into the hollow, thus starting the plantarflexion uith continued plantarflexion and eversion providing proper toe-off. The hollow need not be very large and its depth will, of course, depend upon the hardness of the adjacent sole. When the adjacent sole is fairly hard, such as with a leather dress shoe sole, the hollow under the first metatarsal head can be quite shallow on the order of a few sixteenths of an inch. When the adjacent sole is softer, and there is more compression of the sole as the weight shifts from the heel to the first ray, then the hollow should be deeper to assure that the natural motion of the first metatarsal head in a plantar flexing direction is not impeded, but is encouraged.

While the invention has been described as a shoe sole, it can be equally employed as an insole and wherever the word ’sole” is used it should be interpreted to mean insole as well.

Claims (14)

1. CLAIMS;

1. A human shoe sole having a foot supporting surface, an area of which, underlying substantially only the location of the first metatarsal head of a wearer's foot, is of reduced support relative to the remainder of said surface.

2. A human shoe sole according to Claim 1, wherein said area of reduced support is softer than the remainder of said surface, '

3. A human shoe sole according to Claim 2, wherein , If said area of reduced support comprises an opening formed in said surface with a plug of material softer than the remainder of the surface fitted therein. I

4. A human shoe sole according to Claim 1, wherein said area of reduced relative support comprises an opening formed in said surface.

5. A human shoe sole according to Claim 1, 2, 3 or 4, said area providing a reduced support relative to said surface in the region of the ball of the foot, said area being arranged so that resistance to eversion is less than resistance to inversion of the first metatarsal head thus permitting and encouraging the first metatarsal to evert and bear weight of the wearer while plantarflexing against the ground.

6. A human shoe sole according to Claim 4, said area. being removed to permit said first metatarsal head freely to plantarflex under load, said area being arranged so that resistance to eversion decreases as resistance to inversion of the first metatarsal head increases thus permitting end encouraging the first metatarsal to evert and plantarflex as weight of the wearer shifts from the heel to the toe during walking.

7. A human shoe sole having a foot engaging transverse 5 sole surface, that area of the sole, underlying substantially only the location of a first metatarsal head of a wearer's foot being less resistant to downward motion of the adjacent foot element than the surface in the region of the ball of the foot, the remainder of the 10 transverse sole surface underlying the other metatarsal c heads being substantially harder than the portion underlying said first metatarsal head, said less resistant area being arranged so that resistance to eversion decreases as resistance to inversion of the 15 first metatarsal head increases thus permitting and encouraging the first metatarsal to evert and plantarflex as weight of the wearer shifts from the heel to the toe during walking□

8. A human shoe sole according to Claim 1, 2, 3 or 20 wherein the effective support of said area varies from maximum reduction of support under the medial (inside) portion of the first metatarsal head to a minimum reduction of support under the lateral (outside) portion of said metatarsal head to encourage eversion and 25 plantarflexion of said first metatarsal head.

9. A human shoe sole according to Claim 1, 2, 3 or 4, wherein the effective support of said area varies from a maximum reduction of support under the impact point of the medial portion of the first metatarsal head of the A 30 wearer during plantarflexion. i

10. « A human shoe sole accoridng to Claim 8 or 9, wherein the variation of effective support is due to a larger size of the area of maximum reduction under the impact point of the medial portion relative to the area 5 under the impact point of the lateral portion of the first metatarsal head.

11. A human shoe sole according to any preceding claim, wherein the area does not extend forward of said first metatarsal head. 10

12. « A human shoe sole according to any preceding claim, wherein the area is a portion of the sole extending from the foot supporting surface into the sole.

13. A human shoe sole according fo Claim 1, substantially as hereinbefore described with particular

14. 15 reference to the accompanying drawings.