An item of footwear including an outsole secured to an upper is provided. A bootie is attached to the infill panel. The bootie and infill panel combine to form a cavity receiving the wearer's foot. The bootie is provided by a single air permeable, moisture vapor permeable, and waterproof sheet formed from a plurality of layers of material laminated together. The sheet forms at least one edge portion extending, at least one time, a distance between a toe end and a heel end of the bootie. A protection strip is attached to the outer surface of the sheet adjacent the at least one edge portion. A stitching seam is formed by a thread-type material securing the at least one edge portion of the bootie adjacent an outer peripheral edge portion of the infill panel. The thread-type material extends through the protection strip and the infill panel to form the seam.

An item of footwear including an outsole secured to an upper is provided. A bootie is attached to the infill panel. The bootie and infill panel combine to form a cavity receiving the wearer's foot. The bootie is provided by a single air permeable, moisture vapor permeable, and waterproof sheet formed from a plurality of layers of material laminated together. The sheet forms at least one edge portion extending, at least one time, a distance between a toe end and a heel end of the bootie. A protection strip is attached to the outer surface of the sheet adjacent the at least one edge portion. A stitching seam is formed by a thread-type material securing the at least one edge portion of the bootie adjacent an outer peripheral edge portion of the infill panel. The thread-type material extends through the protection strip and the infill panel to form the seam.

An article of footwear may include an upper configured to receive a foot of a wearer and a sole structure fixedly attached to the upper, the sole structure including a ground-contacting outer member and a removable midsole. The footwear may further include a motorized tensioning system including a power source, a control unit, a tensile member, and a motorized tightening device, the motorized tightening device being attached to an outer surface of the upper, and the tightening device being configured to apply tension in the tensile member to adjust the size of an internal void defined by the article of footwear. In addition, the power source and the control unit of the tensioning system may be configured to be removably disposed in the removable midsole.

An article of footwear may include an upper configured to receive a foot of a wearer and a sole structure fixedly attached to the upper, the sole structure including a ground-contacting outer member and a removable midsole. The footwear may further include a motorized tensioning system including a power source, a control unit, a tensile member, and a motorized tightening device, the motorized tightening device being attached to an outer surface of the upper, and the tightening device being configured to apply tension in the tensile member to adjust the size of an internal void defined by the article of footwear. In addition, the power source and the control unit of the tensioning system may be configured to be removably disposed in the removable midsole.

A shoe sole assembly having a hindfoot section and a forefoot section including an inner sole having a shock absorbing material, a load-bearing outer sole configured to receive the inner sole, and a heel piece including a recess configured to receive at least part of the hindfoot section of the load-bearing outer sole. The recess is upwardly open and open towards the forefoot section. A shoe includes an upper and the shoe sole assembly. A method of manufacturing a shoe includes the steps of forming the load-bearing outer sole based on a lower side of a last, fastening part of the hindfoot section of the load-bearing outer sole to the heel piece, which has a recess which is upwardly open and open towards the forefoot section, and fastening the upper to the upper surface of the load-bearing outer sole.

A shoe sole assembly having a hindfoot section and a forefoot section including an inner sole having a shock absorbing material, a load-bearing outer sole configured to receive the inner sole, and a heel piece including a recess configured to receive at least part of the hindfoot section of the load-bearing outer sole. The recess is upwardly open and open towards the forefoot section. A shoe includes an upper and the shoe sole assembly. A method of manufacturing a shoe includes the steps of forming the load-bearing outer sole based on a lower side of a last, fastening part of the hindfoot section of the load-bearing outer sole to the heel piece, which has a recess which is upwardly open and open towards the forefoot section, and fastening the upper to the upper surface of the load-bearing outer sole.

An article of footwear may include an upper configured to receive a foot of a wearer and a sole structure fixedly attached to the upper, the sole structure including a ground-contacting outer member and a removable midsole. The footwear may further include a motorized tensioning system including a power source, a control unit, a tensile member, and a motorized tightening device, the motorized tightening device being attached to an outer surface of the upper, and the tightening device being configured to apply tension in the tensile member to adjust the size of an internal void defined by the article of footwear. In addition, the power source and the control unit of the tensioning system may be configured to be removably disposed in the removable midsole.

An article of footwear may include an upper configured to receive a foot of a wearer and a sole structure fixedly attached to the upper, the sole structure including a ground-contacting outer member and a removable midsole. The footwear may further include a motorized tensioning system including a power source, a control unit, a tensile member, and a motorized tightening device, the motorized tightening device being attached to an outer surface of the upper, and the tightening device being configured to apply tension in the tensile member to adjust the size of an internal void defined by the article of footwear. In addition, the power source and the control unit of the tensioning system may be configured to be removably disposed in the removable midsole.

An article of footwear may have an upper and a sole structure secured to the upper. The sole structure has a plurality of support elements, and each of the support elements include a shell and a core. The shell defines an interior void and is formed from a polymer material that extends around substantially all of the void. The core has a shape of the void and is located within the void, with at least a portion of the core being a polymer foam material. The polymer foam material of at least two of the support elements may have different densities.

An article of footwear may have an upper and a sole structure secured to the upper. The sole structure has a plurality of support elements, and each of the support elements include a shell and a core. The shell defines an interior void and is formed from a polymer material that extends around substantially all of the void. The core has a shape of the void and is located within the void, with at least a portion of the core being a polymer foam material. The polymer foam material of at least two of the support elements may have different densities.