LIM INNOVATIONS, INC. Patent applications |
Patent application number | Title | Published |
20160022466 | SEQUENTIAL SERIES OF ORTHOPEDIC DEVICES THAT INCLUDE INCREMENTAL CHANGES IN FORM - A method is described for fabricating a sequential series of orthopedic devices custom designed to change a configuration of a body part of a patient from a pretreatment configuration to a treated configuration. The method involves receiving digital data representing the body part of the patient in the pretreatment configuration. The method continues by generating, using the digital data, a sequential series of digital 3D body part models, including at least an initial body part model representing the pretreatment configuration of the body part, a final body part model representing the treated configuration of the body part, and at least one intermediate body part model representing the body part in an intermediate configuration between the pretreatment and treated configurations. The method further involves fabricating the sequential series of orthopedic devices from the sequential series of digital 3D body part models. | 01-28-2016 |
20150352775 | METHOD AND APPARATUS FOR TRANSFERRING A DIGITAL PROFILE OF A RESIDUAL LIMB TO A PROSTHETIC SOCKET STRUT - Embodiments of the provided technology relate to methods, devices, and systems that drive a transfer of the digital profile of residual limb contours to a thermoplastic article such as a prosthetic socket strut. A method of reforming a thermoplastic article to assume a desired shape, such as a contour that replicates or is complementary to the contour of a body portion, may include heating a thermoplastic article to render the article malleable. The method may further include placing the thermoplastic article against a molding surface having a desired shape that replicates the portion of the body part. Next, the thermoplastic article may be pressed against the molding surface with a compliant molding press to reform at least a portion of the article into the desired shape. The reformed thermoplastic article may then be removed from the molding surface, the article retaining the desired shape after removal. | 12-10-2015 |
20140277584 | MODULAR PROSTHETIC SOCKETS AND METHODS FOR MAKING AND USING SAME - Embodiments of a modular prosthetic socket for a residual limb of a lower extremity of a patient are provided. Modular components include a base, multiple strut connectors, and multiple longitudinal struts. The base is selected from a collection of bases. The multiple strut connectors are selected from a collection of strut connectors, each strut connector being adjustably connectable to the base along the periphery of the base. The multiple longitudinal struts are selected from a collection of struts, each strut including a thermoplastic-fiber composite material, each strut being connectable to the base along the base periphery via one of the strut connectors. At least one of the component collections includes at least one of multiple sizes or multiple shapes of bases, struts or strut connectors, respectively. The prosthetic socket circumscribes a proximally-open internal space configured to conform to the residual limb of the patient. | 09-18-2014 |
20140135946 | MODULAR PROSTHETIC SOCKETS AND METHODS FOR MAKING SAME - The invention relates to a prosthetic socket for a residual limb of the lower extremity or upper extremity of an individual person. The residual limb has particular dimensions and anatomical contours; the prosthetic socket has dimensions and contours that fit the dimensions and contours of the residual limb. The prosthetic socket may also fit in a manner that is biomechanically particularly appropriate for the individual. The prosthetic socket is an assembly of components from groups of components that include (a) struts arranged longitudinally with respect to the residual limb, (b) proximal brim members arranged proximally to the struts and connected thereto; and (c) distal socket members disposed at the distal base of the prosthetic socket. The socket components within these groups may be modular in that they can vary with respect to dimensions and/or contours, and yet have common connecting features that permit assembly of the components together to form the prosthetic socket. | 05-15-2014 |