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.

Disclosed is a knee joint guide apparatus which can be driven even at any point on a plane in which an instantaneous rotation center of a knee joint can be positioned by a self-alignment function, and can also implement output performance required for a walking operation through a mechanical advantage change depending on a flexion angle. The knee joint guide apparatus includes: a proximal body link provided above a knee joint; a distal body link provided at a location corresponding to the proximal body link below the knee joint; and a planar rigid body 6-bar linkage mechanism including a plurality of revolute joints and a plurality of prismatic joints, and a plurality of links between the proximal body link and the distal body link to output a mechanical advantage depending on a flexion angle of the knee joint in movement of the knee joint with a self-alignment function.

The ankle foot orthosis has a foot section securable externally to a footwear worn by a user, a leg section having a leg engagement portion extending in front of the user's lower leg and being securable against a shin area of the user's lower leg, and two arm portions extending downwardly from the leg engagement portion, on opposite sides of the user's lower leg, and a hinge section having two hinge members disposed on opposite sides of the user's ankle, each hinge member having two ends being elastically stretchable away from one another, with a first one of the ends being secured to a corresponding one of the leg arm portions, and a second one of the two ends being secured to the foot section, with a spacing between the hinge members and the arm portions forming a foot engagement path allowing the user to respectively engage or disengage his foot from the footwear across the spacing.

Orthopedic device or implants are provided, comprising an orthopedic device or implant and a sensor.

Medical devices are provided, comprising a medical device and a sensor.

A spring mechanism having at least two wave washers and at least one spring washer between the wave washers. The wave washers are mounted so as to be twistable relative to one another.

The disclosure features wearable anatomical devices that include a sleeve formed of a first material, one or more conduits connected to the sleeve, where each conduit is formed of a second material and at least partially filled with a third material, and one or more adjustable members connected to the one or more conduits and oriented so that at least some of the one or more adjustable members are connected at multiple locations to the one or more conduits, where the one or more conduits are oriented along a longitudinal direction of the sleeve, where each adjustable member extends in a circumferential direction of the sleeve, and where each adjustable member can be selectively controlled to modify a deformation of the one or more conduits.

A limb support apparatus and corresponding methods for making same are disclosed. The limb support can comprise a shell for supporting a patient's limb during treatment, examination, and/or recovery. The shell can comprise at least one padding configured to protect the patient's limb. The padding can be secured to the shell using one or more mounting structures included in the padding. The mounting structures are configured such that they are received by corresponding mounting openings and/or features in the shell. An interference fit between the mounting structures and mounting openings/features secures the padding against the shell, thereby preventing the padding from inadvertently moving or sliding on the shell. Embodiments disclosed herein eliminate the need for traditionally used fasteners that are often difficult to clean and sterilize, thereby improving the quality of patient care and facilitating cleaning of patient and/or operating rooms.

A footplate assembly for ankle includes a footplate base; a slider arm that is rotatably coupled to the footplate base, the slider arm being configured to be couplable to external ankle instrumentation; a locking fastener configured to lock the slider arm in a chosen orientation relative to the footplate base; and a knob coupled to the footplate base having a scale to display the angle of the slider arm relative to the footplate base.

Systems, methods, and devices are described for providing a brace having an inflation control. The control directs fluid flow from an inflation component to one or more inflatable cells of the brace. The inflatable cells are independently inflated and deflated by the inflation component through the control. The control allows a user to create a fluid path between the inflation component and one of the inflatable cells by positioning the control in an orientation corresponding to the desired inflatable cells. Each inflatable cell is independently inflated and deflated in various orientations of the control.