Presented are footwear sole structures with foot-cushioning insoles movably mounted onto impact-attenuating midsoles, methods for making/using such sole structures, and footwear fabricated with such sole structures. A multilayered sole structure assembly includes an insole movably mounted on a midsole. The midsole is formed with a first compressible material and includes opposing upper and lower midsole surfaces, multiple protrusions projecting from the upper midsole surface, and multiple pockets recessed into the upper midsole surface and interleaved with the midsole protrusions. The insole, which is formed with a second compressible material distinct from the first compressible material, includes opposing upper and lower insole surfaces, multiple protrusions projecting from the lower insole surface and interleaved with the midsole protrusions, and multiple pockets recessed into the lower insole surface and interleaved with the insole protrusions. Each midsole protrusion nests within a respective insole pocket, while each insole protrusion nests within a respective midsole pocket.

A human shoe sole has foot supporting upper surface including a first region for supporting the first, second, third, fourth and optionally fifth metatarsal heads of the foot of the wearer when the human shoe sole is worn; a second region for supporting the wearer's heel when the shoe sole is worn; and a section bridging the first section and the second section. The shoe sole includes a cuboid pad immediately forward the second section configured to underlie essentially the central interior region of the cuboid bone of the wearer, The cuboid pad includes an obliquely running groove or notch on a superior surface of the cuboid pad arranged to align with the location of the peroneus longus tendon of the wearer.

A human shoe sole has foot supporting upper surface including a first region for supporting the first, second, third, fourth and optionally fifth metatarsal heads of the foot of the wearer when the human shoe sole is worn; a second region for supporting the wearer's heel when the shoe sole is worn; and a section bridging the first section and the second section. The shoe sole includes a cuboid pad immediately forward the second section configured to underlie essentially the central interior region of the cuboid bone of the wearer, The cuboid pad includes an obliquely running groove or notch on a superior surface of the cuboid pad arranged to align with the location of the peroneus longus tendon of the wearer.

An orthosis for footwear includes an insert having a plurality of retainers, and a plurality of adjustment elements of predetermined configuration which can be removably retained by the insert to alter the shape of the insert adjacent the arch of a subject's foot when located in the footwear. The orthosis provides an improved device and method for alleviating at least one of the symptoms of a foot condition, such as flat feet.

An orthosis for footwear includes an insert having a plurality of retainers, and a plurality of adjustment elements of predetermined configuration which can be removably retained by the insert to alter the shape of the insert adjacent the arch of a subject's foot when located in the footwear. The orthosis provides an improved device and method for alleviating at least one of the symptoms of a foot condition, such as flat feet.

A damping sole includes support zones with a main surface that have a relative stiffness or hardness lower than that of the other zones, the support zones being positioned under the load-bearing protuberances of the foot. The support zones are delimited by oblique lateral faces that are inclined towards the lower main surface of the sole at an inclination angle (A) and are disposed such that, at rest, they come to bear obliquely against the peripheral surface of the dermal part of the corresponding load-bearing protuberance of the foot. In this way, a compromise is reached between the need for impact damping and the need for foot stability in a shoe, while ensuring satisfactory comfort.

A damping sole includes support zones with a main surface that have a relative stiffness or hardness lower than that of the other zones, the support zones being positioned under the load-bearing protuberances of the foot. The support zones are delimited by oblique lateral faces that are inclined towards the lower main surface of the sole at an inclination angle (A) and are disposed such that, at rest, they come to bear obliquely against the peripheral surface of the dermal part of the corresponding load-bearing protuberance of the foot. In this way, a compromise is reached between the need for impact damping and the need for foot stability in a shoe, while ensuring satisfactory comfort.

An engineered therapeutic footwear for correcting a biomechanical misalignment and provide proper foot alignment. The therapeutic footwear comes with a built in GPS tracking system. The corrective footwear improves biomechanical foot issues by an inner molded brace that provides medial and lateral support, with internal metal frame support incorporated into the molded brace. The built in GPS is utilized to track the location of a child with/without disabilities and physical activity.

A method of making an orthotic is disclosed. The method includes the steps of taking measurements relating to a foot and then creating a digital representation of an orthotic on a display device based on said measurements. This digital representation of the orthotic having a heel portion for supporting a heel of a person and a distal portion located in front of the heel portion which can be divided into first and second distal portions. The thickness of the digital representation of the first and second distal portions is then varied such that one of the distal portions is thicker than the other. Finally, an additive manufacturing technique, using a substantially uniform material or materials, is used to create a physical version of the digital representation of the orthotic.

The soft boot and liner include a moisture transfer system that includes an inner fabric layer carefully selected from technically advanced fabrics. A series of layers are provided outside the inner liner including foam material layers, spacer fabrics and breathable membranes, in various orders. Encapsulation technology and waterproofing are used as well. The outer fabric layer is also capable of working with the other layers to promote the transfer of moisture. Frothed foams and flocking with fibers are further characteristics of the present invention. The moisture transfer system is incorporated into a soft boot or skate or as a removable liner for a shell boot. Numerous other modifications and applications are disclosed.