A spine bracing system featuring one or more anterior panels that are trimmable to provide different sized anterior panels, all of which would include finished (fused) edges.

A hinge assembly for use in an orthopedic or prosthetic system includes first and second connection members arranged to rotate relative to one another about at least one pivot point. At least one shaft member is rotatably attached to the first connection member. A translating member is attached to the at least one shaft member and is operatively connected to or meshes with the second connection member. Rotation of the at least one shaft member drives translation of the translating member along a length of the at least one shaft member. Translation of the translating member along the shaft member drives rotation of the second connection member relative to the first connection member.

An improved orthosis apparatus for being selectively formed and applied and removed having offset zipper closures on two shell members for improved hinging and opening and access for initial application and forming when malleable and for removing and reinstalling when hardened.

An improved Scoliosis Boston Brace having a motorized tightening mechanism is disclosed, which tightens the brace around the patient's body with a motorized mechanism. The motorized tightening mechanism makes it easier for the patient to tighten the brace around their body, and also eases the task of putting on/off, the brace. The components of the present invention include a Boston brace, a worm drive, worm drive rack, a hexagonal peg, nylon strap, rivet, two parts epoxy glue, buttons and motor screwdriver. The worm drive and the worm drive rack are connected to the nylon strap, which is attached through rivet to the Boston brace. The hexagonal peg helps in manipulating the worm drive, which determines the tightens of the brace and the button attached to worm drive rack, helps to unclasp the mechanism when taking off the brace.

The disclosure provides a brace for supporting a spine of a patient. The brace includes an anterior panel, a posterior panel, lateral panels bridging between the anterior panel and the posterior panel, and an adjustable belt tightenable around the anterior panel, the brace selectively configurable to include either lateral panels attachable to the posterior, a posterior thoracic extension attachable to the posterior panel or a dorsal lumbar extension attachable to the posterior panel.

A conformable body interface includes a body scaffold comprising a three-dimensional lattice which can be removably placed over a three-dimensional soft-tissue surface, such as a knee, elbow, spine, ankle, wrist, hip, or neck. One or more sensors are located at one or more locations on the body scaffold, and the one or more locations are selected to position the sensor near a target region on the body surface when the body scaffold is placed over the three-dimensional body surface. Typically, the sensors are positioned near a body joint to detect motion of the body joint.

A formable cast (100), brace (180) or splint is provided herein which comprises a padding (101), an outer shell (103) spaced apart from the padding, and a ridge (109) disposed along the perimeter of the shell. The ridge, shell and padding define an interior space (115), with a curable polymeric material disposed in the interior space. The curable polymeric material undergoes a phase transition, upon curing, from a liquid or gel phase to a substantially rigid solid phase. The cast (100), brace (180) or splint may be readily customized to the patient by fitting the cast to the patient's body, positioning the cast in the desired orientation, and curing the curable polymeric material through exposure to actinic radiation or by other suitable means.

A thoracic lumbar sacral orthosis attachment for configuring an orthopedic device as a thoracic lumbar sacral orthosis by connecting the attachment to the orthopedic device. The attachment has an anterior aspect including an anterior panel arranged to connect to an orthopedic device. An anterior thoracic extension (ATE) is securable to the anterior panel, and a support bar extends from the ATE. A strap system includes an axillary strap system and/or a shoulder strap system removably securing onto a surface of the orthopedic device, and/or the ATE.

The disclosure provides a brace for supporting a spine of a patient. The brace includes an anterior panel, a posterior panel, lateral panels bridging between the anterior panel and the posterior panel, and an adjustable belt tightenable around the anterior panel, the brace selectively configurable to include either lateral panels attachable to the posterior, a posterior thoracic extension attachable to the posterior panel or a dorsal lumbar extension attachable to the posterior panel.

A back brace is configured to be worn by a patient for treating spinal deformations. The back brace has at least one pressure sensor configured to be attached to the back brace at a point of pressure with the body of a patient, and at least one strap configured to be tightened for adjusting a pressure at the point of pressure. A control unit is configured to be attached to one of an outside of the back brace and inside a cavity formed in the back brace. The control unit is configured for (a) processing signals from the at least one pressure sensor, (b) communicating with at least one external computing apparatus, (c) informing and guiding in real time and incentivizing a patient to more efficiently wear the back brace by at least providing indications to the patient for tightening the at least one strap by comparing a pressure value provided by the at least one pressure sensor with at least one calibration value, and (d) enabling a doctor to more efficiently monitor, intervene, and manage the patient and treatment in real time.