Provided is an injection molded article composed of an elastomer composition including: a plurality of styrene-based thermoplastic elastomers that include a first styrene-based thermoplastic elastomer that is a block polymer having a mass average molecular weight of 300,000, and a second styrene-based thermoplastic elastomer that is a block polymer having a polyethylene block exhibiting crystallinity; and a plasticizer.

Disclosed herein are devices, systems and methods for redistributing the normal weight distribution of a user in a standing position. One example is a postural platform for either the left or right foot having a bottom surface defining a reference plane, a top surface configured as a foot contact surface and a perimeter side wall between the bottom and top surfaces. The top surface is rotated about a first rotational axis parallel to the reference plane and rotated about a second rotational axis orthogonal to the reference plane. In another example, a system includes first and second postural platforms that are independent of one another. In other examples, the device is a sandal, shoe, sneaker or any foot covering with a tops surface being at a complex angle to a bottom surface.

Disclosed herein are devices, systems and methods for redistributing the normal weight distribution of a user in a standing position. One example is a postural platform for either the left or right foot having a bottom surface defining a reference plane, a top surface configured as a foot contact surface and a perimeter side wall between the bottom and top surfaces. The top surface is rotated about a first rotational axis parallel to the reference plane and rotated about a second rotational axis orthogonal to the reference plane. In another example, a system includes first and second postural platforms that are independent of one another. In other examples, the device is a sandal, shoe, sneaker or any foot covering with a tops surface being at a complex angle to a bottom surface.

An article may include a first polymeric material layer having a surface. A first conductive trace may form at least a portion of the first layer surface. The article may further include a second polymeric material layer. The second layer may have a first surface, a portion of the second layer first surface being bonded to a portion of the first layer surface. The second layer may have a portion of a channel defined therein, the channel at least partially coinciding with a portion of the first conductive trace. The article may also include a first patch interposed between the first layer surface and the second layer first surface. The first patch may span the channel and cover a portion of the first conductive trace.

An article may include a first polymeric material layer having a surface. A first conductive trace may form at least a portion of the first layer surface. The article may further include a second polymeric material layer. The second layer may have a first surface, a portion of the second layer first surface being bonded to a portion of the first layer surface. The second layer may have a portion of a channel defined therein, the channel at least partially coinciding with a portion of the first conductive trace. The article may also include a first patch interposed between the first layer surface and the second layer first surface. The first patch may span the channel and cover a portion of the first conductive trace.

A shoe insole includes a semi-rigid shell for providing a wearer with extended comfort. The semi-rigid shell includes a notch which is located on the outward side of the wearer's foot and accommodates pronation of the foot during use. Additionally, the semi-rigid shell includes an extended side portion which is located opposite of the notch side on an inner side of the wearer's foot. The semi-rigid shell is shorter in length than the length of a shoe sole and slightly shorter in width and may be combined with an insole comfort cover to provide cushion between the wearer's foot and the semi-rigid shell.

A shoe insole includes a semi-rigid shell for providing a wearer with extended comfort. The semi-rigid shell includes a notch which is located on the outward side of the wearer's foot and accommodates pronation of the foot during use. Additionally, the semi-rigid shell includes an extended side portion which is located opposite of the notch side on an inner side of the wearer's foot. The semi-rigid shell is shorter in length than the length of a shoe sole and slightly shorter in width and may be combined with an insole comfort cover to provide cushion between the wearer's foot and the semi-rigid shell.

Systems and methods are disclosed including a tri-layer orthotic system having a heel portion and a forefoot portion to support respective heel and forefoot portions of a foot through at least a portion of a gait cycle. The tri-layer orthotic system can include an upper layer suspended over a mid-layer and a base layer to create a rear spring section, a mid-spring section, and a front spring section. A distal toe portion of the mid-layer can form the forefoot portion of the tri-layer orthotic system and a heel upper layer portion of the upper layer can form the heel portion of tri-layer orthotic system.

Systems and methods are disclosed including a tri-layer orthotic system having a heel portion and a forefoot portion to support respective heel and forefoot portions of a foot through at least a portion of a gait cycle. The tri-layer orthotic system can include an upper layer suspended over a mid-layer and a base layer to create a rear spring section, a mid-spring section, and a front spring section. A distal toe portion of the mid-layer can form the forefoot portion of the tri-layer orthotic system and a heel upper layer portion of the upper layer can form the heel portion of tri-layer orthotic system.

A sole structure for an article of footwear comprises a midsole body having a proximal surface and a distal surface. Proprioceptive elements may extend in the hole in the midsole body, and translate toward the proximal surface in the holes upon a force directed along a central axis of the hole at a distal end of the proprioceptive elements. In various embodiments, the holes may angle relative to vertical from the proximal surface to the distal surface, the holes may be defined by perforations and the proprioceptive elements may be integral portions of the midsole body, or the midsole body may have a plurality of annular holes at the proximal surface, and a plurality of annular recesses in the distal surface, and a plurality of proprioceptive elements, each centered in a different annular hole of the plurality of annular holes. Methods of manufacturing articles of footwear are described.