An apparatus for adjusting a shoe and methods for making and using the same. A relative movement can be generated between a platform and a model foot wearing the shoe such that the platform contacts the shoe and the model foot adjusts the shoe via the relative movement. Advantageously, the model foot can be a surrogate to a human foot in adjusting the shape of the shoe. The model foot can stretch the shoe in the same manner as human walk. A person can experience great comfort when wearing the stretched shoe. The model foot can simulate the mechanical characteristics of the natural foot. The model foot can simulate gait of a natural foot and the stretching of the shoe can be further customized.

Methods, systems, and non-transitory computer readable medium for foot differentiation scoring pertaining to an individual's differences in their two feet. A method includes receiving, from sensors of a scanning device, pressure and/or other measurement data corresponding to feet of a user. The method further includes preprocessing the pressure and/or measurement data. The method further includes generating, based on the preprocessed pressure and/or measurement data, a foot differentiation score based on differences between a left foot and a right foot of the user. The foot differentiation score may assign or correspond to a numerical rating based on how different the user's left foot and right foot are from each other.

The present invention is an insert having a raised region that contacts an arch region of a wearer's foot, which may be selectively reinforced with a removable supplemental support. In exemplary embodiments, the insert includes a heel region adapted to receive at least a region of a heel of a wearer, and the raised region has a length situated along a width of the insert and adapted to underlie a calcaneus-midtarsal connection of a foot the wearer. The raised region is defined by a bottom semi-cylindrical surface that forms a cavity below the raised region so that an apex of the bottom semi-cylindrical surface lies above a bottom flat surface of the insert. Inside the cavity, the support is removably coupled to the cavity for selectively increasing or decreasing a rigidity of the raised region of the insert in order to apply a user-selected therapeutic pressure.

A customizable sole insert for a shoe, the sole insert comprising: a top layer having a first plurality of holes through the top layer; a middle layer having a conforming and curable hardening material; a bottom layer having a second plurality of holes through the bottom layer; wherein the top layer, middle layer, and bottom layers are fastened together by a fastener; wherein a fluid applied to the middle layer causes the middle layer to cure; wherein the middle layer conforms to a plantar aspect area or sole of a foot of a user. Further comprising: a top cover attached to to a top outside surface of the top layer; and, a bottom cover attached to a bottom outside surface of the bottom layer. The customizable sole insert has a method for constructing the sole insert and a method for activating the sole insert.

A modular technical system for creating a patient-data-specifically individualized foot sole last (15) having a modular structure, characterized in that per zone (16; 24, 25, 26, 27) of the foot sole last (15) it comprises respectively one or more mutually exchangeable standard foot sole last modules (17) as standardized components whichafter selection of the suitable standard module (17) from orthopaedic aspects for the respective zone (16; 24, 25, 26, 27) of a patient's footcan be mounted consecutively along the longitudinal axis (22) of the foot sole last (15) in series zone-wise or at least partially adjacently to one another to form a patient-data-specifically individualized foot sole last (15) having a modular structure, wherein the upper sides of the standard modules (17) are configured depending on shoe size and depending on zone (16) as negative to the corresponding zones (16) of the foot of the patient and/or each have a shape which, specific to shoe size and specific to zone (16), corresponds from orthopaedic aspects to the most logical shape for correction or treatment of one specific or several of the statistically most commonly occurring deformities or diseases requiring treatment from orthopaedic aspects and wherein the transitions (23; 28, 29, 30) between two neighbouring standard modules (17; 24, 25, 26, 27)in the side vieware stepless and smooth andin the plan viewadjoin one another without gaps.

An example physical last includes a body having a bottom region. The physical last also includes a fitting attachable to the bottom region to define a component of a shoe. The fitting is manufactured based on three dimensional (3D) scan data of a foot of a customer and pressure data associated with the foot of the customer.

An apparatus for adjusting a shoe and methods for making and using the same. A relative movement can be generated between a platform and a model foot wearing the shoe such that the platform contacts the shoe and the model foot adjusts the shoe via the relative movement. Advantageously, the model foot can be a surrogate to a human foot in adjusting the shape of the shoe. The model foot can stretch the shoe in the same manner as human walk. A person can experience great comfort when wearing the stretched shoe. The model foot can simulate the mechanical characteristics of the natural foot. The model foot can simulate gait of a natural foot and the stretching of the shoe can be further customized.

Method for producing an individual foot sole last (15) for a patient (10) or sportsman by reference to measured values and/or medical findings which are obtained from the body of the patient (10) or sportsman, characterized in that the individual foot sole last (15) is constructed of individual pre-fabricated standard modules (17), wherein the standard modules (17) are selected from a module set, whereby by reference to the measured values and/or medical findings which are obtained from the body of the patient (10) or sportsman, an actual value for the foot mould is determined and this is compared with one or more predefined desired values and by reference to the result of the comparison and the knowledge of the standard modules (17) present in the module set, those standard modules (17) are selected and combined in their sequenceor specified in their sequencewhich come closest to the ideal individual foot sole last (15) determined by reference to the comparison of actual and desired value.

Methods, systems, and non-transitory computer readable medium for foot differentiation scoring pertaining to an individual's differences in their two feet. A method includes receiving, from sensors of a scanning device, pressure and/or other measurement data corresponding to feet of a user. The method further includes preprocessing the pressure and/or measurement data. The method further includes generating, based on the preprocessed pressure and/or measurement data, a foot differentiation score based on differences between a left foot and a right foot of the user. The foot differentiation score may assign or correspond to a numerical rating based on how different the user's left foot and right foot are from each other.

A footwear last (1) comprising a hind foot section and a forefoot section joined by a midfoot section. The forefoot section is defined by a three reference points which define a reference point circumference (9, FIGS. 1 and 2). The hind foot section is equivalent to a predetermined shoe (20) size (37) while the forefoot section is equivalent to a shoe (20) size (37) between 2 and 3 sizes larger than said predetermined shoe (20) size (37) using the Paris point system. An article of footwear made using said last (1) comprises an upper (22), a midsole (30, FIG. 6) and an outer sole (40). The upper (22) has an outer layer (21) and an inner layer, which inner layer comprises an elastic panel (25) arranged to cover the first and/or fifth metatarsophalangeal joint of a user. The midsole (30) has a first layer and a second layer, wherein the first layer is arranged to line the footbed of the shoe (20) and the second layer is arranged to provide a shock absorbing layer. The outer sole (40) is secured to the upper (22) on assembly to complete the article of footwear. FIG. 3 A footwear last (1) comprising a hind foot section and a forefoot section joined by a midfoot section. The forefoot section is defined by a three reference points which define a reference point circumference (9, FIGS. 1 and 2). The hind foot section is equivalent to a predetermined shoe (20) size (37) while the forefoot section is equivalent to a shoe (20) size (37) between 2 and 3 sizes larger than said predetermined shoe (20) size (37) using the Paris point system. An article of footwear made using said last (1) comprises an upper (22), a midsole (30, FIG. 6) and an outer sole (40). The upper (22) has an outer layer (21) and an inner layer, which inner layer comprises an elastic panel (25) arranged to cover the first and/or fifth metatarsophalangeal joint of a user. The midsole (30) has a first layer and a second layer, wherein the first layer is arranged to line the footbed of the shoe (20) and the second layer is arranged to provide a shock absorbing layer. The outer sole (40) is secured to the upper (22) on assembly to complete the article of footwear.