A system and method for detecting and measuring changes in angular position with respect to a reference plane is useful in surgical procedures for orienting various instruments, prosthesis, and implants with respect to anatomical landmarks. One embodiment of the device uses dual orientation devices of a type capable of measuring angular position changes from a reference position. One such device provides information as to changes in position of an anatomical landmark relative to a reference position. The second device provides information as to changes in position of a surgical instrument and/or prosthesis relative to the reference position.

A measuring device for a pedal plane angle of a bicycle includes a pedal body, an angle sensing unit and a central processing unit (CPU). The angle sensing unit is disposed in an accommodating chamber of the pedal body, and senses an angle of the pedal body to send an angle sensing signal. The CPU analyzes the angle sensing signal to obtain angle data of the pedal body relative to an angle of a reference plane to accordingly learn an angle relationship between the pedal body and the reference plane. The angle relationship may coordinate with other sensing units, for example, data of a pedaling force sensing unit to mutually correct and analyze the data, so as to obtain correct pedaling force information. With the angle data, whether a pedaling angle of a rider is correct can be learned to prevent sports injuries caused by incorrect pedaling angles.

A non-invasive analyte sensor that includes at least one electromagnetic shield at least partially electromagnetically isolates an electrical component of the non-invasive analyte sensor from radio frequency interference and/or microwave frequency interference.

A method is provided for evaluating the tension or laxity of the soft tissue surrounding a patient's knee joint. Based on this evaluation, a surgeon may determine a desired resection depth for a knee arthroplasty procedure that will achieve an appropriate spacing between adjacent, articulating components of the knee joint.

Diagnostic systems and methods for measuring and assessing spine instability are described which involve reconstruction of a dynamic three-dimensional model of a patient's spine moving through a range of motions, and optimization of the three-dimensional model to provide relative three-dimensional position and orientation data for each vertebra in the spine throughout the motion. Vertebral movement is thereby accurately measured and instability determined for presentation in a user-friendly form.

An exercise support device of the present invention includes a detecting section which detects motion data related to a motion status of a user performing an exercise and an swing-angle obtaining section which obtains an swing angle of the user and an information notifying section which notifies the user of exercise support information for guiding the swing angle to a suitable angle. When the user is in a specific motion state with an swing motion of a part which is an arm or a leg of the user, the swing-angle obtaining section successively tracks a swing status in one cycle of the swing motion in the specific motion state based on the motion data detected by the detecting section, and obtains a maximum value of differences between angles of the part of the user at two different timings in the one cycle as the swing angle.

Various embodiments relate to apparatuses and methods of using light transmission thought living tissue, such as a finger, to detect the flexure of a joint. Light is introduced into the tissue at one point, passes through the tissue, and exits the tissue at a second point where a sensor receives the light as it exits the tissue. Transmission of light through living tissue such as a finger can be affected by movement of the finger. As the finger flexes and, for example, the joints of the finger change angle, the characteristics of the light exiting the tissue, such as the intensity of the light, can change. These changes in characteristics can be used as an indirect means of determining the flexure of the joint.

A height measuring apparatus comprising a main body portion adapted for placement upon an object to be measured, and a movable portion which is movable relative to the main body portion, wherein the movable portion comprises a laser source and a photo detector, the movable portion being movable so that a laser beam from the laser source can be directed to the ground when the main body is placed on the object to be measured.

A gait analysis system includes a foot sensing unit, a knee sensing unit and a portable device. The foot sensing unit senses pressure information. The knee sensing unit senses first and second three-dimensional rotational attributes of knee. The portable device generates direction of ground reaction force according to the pressure information, the first and the second three-dimensional rotational attributes of knee and a model of direction of ground reaction force, generates knee moment according to the pressure information, the first and the second three-dimensional rotational attribute of knee, the direction of ground reaction force, length of tibia and model of knee moment, determines gait information according to a gait model and one of the pressure information, the first and the second three-dimensional rotational attributes of knee, and generates gait analysis result according to the gait information, the knee moment and the gait model.

Systems and methods for monitoring a range of motion of a joint are described. For example, in one embodiment, a first set of sensors may sense accelerations of a first body portion located on a first side of the joint and a second set of sensors may sense accelerations of the second body portion located on a second opposing side of the joint. The acceleration data may then be used to compute the relative motion of the first and second body portions to determine movement of the joint. This joint movement may then be used to determine one or more range of motion movement metrics which are output for viewing by a subject or medical practitioner.