The Pocketed Compression sheath is polyester compressive material formed into an open-ended sheath. Squares of the same type of polyester material are sewn onto the sides of the open-ended sheath to form pockets. The sheath is intended to be slid onto an extremity such as foot. Figure B illustrates a larger version intended to be utilized for the mid to upper leg. The pockets are intended to be place holders for heating packs or ice packs to help minimize swelling and pain in muscles and joints.

An additively manufactured ankle-foot orthosis. The ankle-foot orthosis includes an additively manufactured footplate and a calf cuff separate from the additively manufactured footplate. A pre-fabricated strut connects the additively manufactured footplate to the additively manufactured calf cuff and includes thickness and width adapted to define a patient-specific stiffness about an ankle joint of a patient. The stiffness of the pre-fabricated strut is suited to one or more of a gait need or a gait requirement of each patient, and the additively manufactured footplate has a portion with a shape complementary to a shape of a portion of the pre-fabricated strut. So configured, a collective shape and volume of the additively manufactured footplate and the pre-fabricated strut together are adapted to fit inside a shoe of the patient.

The invention relates to a relief orthosis comprising a foot part which comprises a sole, a shank part extending away from the foot part in the proximal direction, and at least one fastening element for fastening the orthosis to a user, which fastening element is disposed on the foot part and/or on the shank part, wherein the foot part is embodied with an adaptable length.

The present disclosure relates to a technical field of medical exercise apparatus. A non-surgical reduction exercise therapy apparatus for rupture of anterior cruciate ligament or achilles tendon includes a thigh immobilization device, a calf immobilization device, an adjustable knee joint hinge and a foot immobilization device, a boot heel being provided under a rear of the boot sole. The present disclosure has a reasonable and compact structure and is convenient to use, and also has characteristics of low treatment cost, no surgery, whole process activities, pleasant dance, no influence on work and study during treatment, and fast healing of the anterior cruciate ligament or achilles tendon.

A rear-entry ankle brace includes an elastomeric component defining an inside elbow channel configured to span an ankle joint. A channel opening extends the length of the elastomeric component for direct insertion on top of a leg. One or more leg straps are used to adjustably tension first and second rear edges of the channel opening toward one another and secure the brace to the lower leg. Two foot straps are used to adjustably tension first and second bottom edges of the channel opening toward one another and secure the brace to the mid-foot. The foot straps overlap on the bottom to define a plantar surface of the brace and cross over each other on the topside of the elastomeric component and are secured to a leg strap. A pair of stabilizing stirrups optionally are included on the inside surfaces of the elastomeric component and receive the malleoli.

The invention relates to a device for supporting at least one foot arch of a user, which device is provided with: a forefoot anchor which is configured to be anchored on the foot, at least partly at the location of the distal part of the metatarsal bones (ossis metatarsi I-V); at least one working strap which can be anchored around the heel and the ends of this at least one working strap are attached or attachable to the forefoot anchor, wherein the device can be brought from a fitting position, in which the at least one working strap is not or virtually not tensioned in order to be able to put the device on a foot of the user, to a working position, in which, in the working position, the at least one working strap is tensioned between the heel and the forefoot anchor in such a way that the part or parts of the tensioned at least one working strap situated under the sole support at least one foot arch of a user.

A method, system, apparatus, and/or device for supporting a plantar flexion ridge. The method, system, apparatus, and/or device may include: a sheath; a stretch cord extending along an interior of the sheath from a first end of the sheath to a second end of the sheath; a first buckle attached to a first end of the stretch cord; a first sleeve configured to cover at least a portion of the first end of stretch cord; a second buckle attached to a second end of the stretch cord; and a second sleeve configured to cover at least a portion of the second end of stretch cord.

Disclosed is a digit wrapping assembly configured to wrap and compress digits in a foot or hand. A method of using the digit wrapping assembly may include, in a positioning state of the digit wrapping assembly, the first digit being vertically offset from the second and third digits, and in a securing state of the digit wrapping assembly, the first, second, and third digits being substantially vertically aligned with one another. The digit wrapping assembly may be configured to compress at least two, three, or four digits.

Real-time cast sensor measurement outputs of a set of cast sensors that each measure a characteristic related to usage of an adjustable removable cast worn by a patient during treatment of congenital talipes equino varus (CTEV) are monitored. A cast usage anomaly relative to a treatment program prescribed for the patient with respect to wearing of the adjustable removable cast is identified according to the real-time cast sensor measurement outputs. Responsive to identifying the cast usage anomaly, real-time corrective treatment feedback is provided to the patient that instructs further and proper use of the adjustable removable cast to improve compliance with the treatment program prescribed for the patient.

Wearable and implantable devices that are used to support human anatomy and are formed using additive manufacturing are provided. Systems and methods for performing additive manufacturing allow for the formulation of a mesh material that has localized stiffness and slack in regions to best serve the needs of the patient. For example, regions of the mesh material can be designed to rigidly support portions of human anatomy, such as injured tissue, while regions of the mesh material adjacent to the injured tissue can be designed to closely mimic movement of the relevant human anatomy. For example, the mesh material can be formed in a manner such that it does not fold in those regions, and therefore is not obtrusive. The present disclosure allows for control of toolpaths when printing fibers used to form the devices. Other devices, as well as systems and methods for creating the same, are also provided.