A shoulder orthosis is provided for maintenance of a patients arm in a postoperative shoulder immobilization posture in the context of tearing of rotator cuff muscles. The orthosis comprises a belt, an arm splint, and a column member with axial mechanical spring continuously adjustable by a manual adjustment handle and interconnecting the belt to the splint and biasing the splint to an abduction upper limit position. The orthosis provides stable support for the patients forearm around a horizontal plane, while allowing pivoting movement of the patients injured arm about a vertical axis intersecting the patients elbow and approaching the patients torso in a transverse plane. This orthosis also allows a cyclical back and forth movement of the splint, the free downward movement of the patients arm by his healthy muscles, assisted by the adductor muscles against the bias of the adjustable spring without active movement of the rotator cuff. A control handle incrementally locks the spring in a selected retracted position of the axial spring. The axial spring column member remains closely spaced against the patients torso during movements of the splint relative to the patients waist belt.

A heel protector (100) includes a leg engaging section (101) and a foot engaging section (102) intersecting at a heel receiver (103). The leg engaging section (101) and the foot engaging section (102) define a leg insertion aperture (104). The leg engaging section (101) defines at least one aperture (203) disposed in an ankle region (205) to permit a connection tube (1002) extending from an inflatable bladder (901) of a compression device (800) to pass therethrough. The heel protector (100) and compression device (800) work together as a rehabilitation system (1300).

The system invention describes a support and improved method of application and removal. The support, comprised of a network of flexible, non-porous, multi-lumen tubing interlaces at a plurality of junctions to form a lattice structure. Apertures designed to accommodate boney prominences also permit air or water to reach the skin underneath and encourage rapid fluid flow internally through the lattice. A hydrophobic, thermal-resistant, flowable padding layer is injected within a secondary lumen to the lattice structure, spanning its complete surface area. As a result, the breathability of the support is not affected by this padding layer because it mirrors the apertures of the lattice. At least one liquid is injected into the structure and configured to transform into a solid when acted on by an external mechanical stimulus.

The system invention describes a support and improved method of application and removal. The support, comprised of a network of flexible, non-porous, multi-lumen tubing interlaces at a plurality of junctions to form a lattice structure. Apertures designed to accommodate boney prominences also permit air or water to reach the skin underneath and encourage rapid fluid flow internally through the lattice. A hydrophobic, thermal-resistant, flowable padding layer is injected within a secondary lumen to the lattice structure, spanning its complete surface area. As a result, the breathability of the support is not affected by this padding layer because it mirrors the apertures of the lattice. At least one liquid is injected into the structure and configured to transform into a solid when acted on by an external mechanical stimulus.

Implementations of an arm sleeve that provides external assistance to an arm and shoulder of a user during an arm motion are provided. In one implementation, the arm sleeve comprises a framework that includes a torso portion configured to be attached to the torso of the user and an arm portion configured to receive at least a portion of the arm of the user. The framework of the arm sleeve is a unitary construction of interconnected elastic members that define openings therebetween. The interconnected elastic members include a first elastic member configured to play an active part throughout an overhead throwing motion, a second elastic member configured to decrease the concentric contraction force necessary for shoulder abduction during the cocking phase of a throwing motion, and a third elastic member configured to assist eccentrically contracting muscles during the deceleration phase of a throwing motion. In another implementation, the framework of the arm sleeve is encased by an elastomeric cover.

A patient grasps a handle grip of a repositioning device. The patient may be on a bed or a couch, for example, and wishes to pull the injured limb up onto the bed or couch without having to bend over. The device has a shaft, a handle grip on a proximal end of the shaft and a hook on a distal end of the shaft. The patient secures the hook to something that is about the limb, such as a cast, brace, bandage, or the like. Once the hook is secured, the user pulls the device upwardly to raise the limb. Once the user has positioned the limb as desired, the hook is disengaged.

Systems for immobilizing a patient are disclosed. The system includes at least one preform formed from a low melting temperature thermoplastic, the preform being configured to be formed to the anatomy of the patient, at least one frame coupled to the at least one preform, and at least one support configured to support the anatomy of the patient. The system also includes at least one lock mechanism coupled to at least one of the frame and the support and configured to couple the at least one frame to the at least one support, and at least one adjuster mechanism coupled to at least one of the at least one frame and the at least one support and configured to selectively adjust a distance between the at least one frame and the at least one support while the at least one frame is coupled to the at least one support.

Systems, devices and methods are disclosed for reshaping airways concurrently with dental and/or orthodontic treatment. The systems can have a series of two or more oral appliances configured to progressively reposition the maxillary and mandibular teeth in two or more successive steps. Each oral appliance in the series can have one or more maxillary blocks, one or more mandibular blocks, a maxillary oral tray, and a mandibular oral tray. One or more maxillary blocks can be attached to or integrated with the maxillary oral tray. One or more mandibular blocks can be attached to or integrated with the mandibular oral tray. The maxillary and mandibular oral trays can be configured to move one or more teeth from a tooth first position to a tooth second position. The maxillary and mandibular blocks can be configured to interact with one another to treat sleep breathing disorders.

A cold therapy dynamic hand splint system including an electric pump, a sleeve, an inflatable bladder, a refrigeration device, and a fluid reservoir. The sleeve includes a fluid-tight cavity filled with a cold fluid pressurized by the pump, and is wrapped around the forearm of a user. The inflatable bladder has an expanded state where the bladder is charged with the fluid pressurized by the pump and chilled by the refrigeration device, and a collapsed state where the bladder is substantially empty. The bladder is small enough that a portion fits inside a palm of a contracted spastic hand while in the collapsed state, and large enough to press the spastic hand open when the bladder is in the expanded state. The fluid is maintained within a therapeutic temperature range, and is in fluidic communication with the sleeve and the bladder through the pump.

Halo vests and the construction methods thereof are provided. The halo vests are designed in unibody structures to minimize the number of components. A 3D scanner is utilized to scan a subject to obtain parameters for a modeling program, which help to construct an optimized halo vest for the subject by printing rather than assembling manually. The subject can easily put on the halo vest without miscellaneous steps.