Abstract: Transport apparatus having at least one levitation generator and at least one drive generator. The at least one levitation generator configured to generate a levitating magnetic flux, move within a corresponding at least one lifting member, and elevate above a rest position relative to the at least one lifting member in response to the levitating magnetic flux. The at least one drive generator configured to generate a driving magnetic flux, move within a corresponding at least one drive member, and laterally move relative to the at least one drive member in response to the driving magnetic flux. At least a portion of the at least one levitation generator is movable relative to the at least one drive generator.

Abstract: A system for determining a three-dimensional position of a tip of a testing tool in an anatomic training model can be used for injection training. The system can include first and second cameras positioned in the anatomic training model. The first and second cameras can each detect an area of light emitted from the tip of the testing tool. The system can also include a processing unit configured to trace the emitted light away from a location of a centroid of the area of emitted light in the first camera and a location of a centroid of the area of emitted light in the second camera respectively, and calculate a three-dimensional position of the distal tip of the testing tool based on the locations of the centroids. The calculation can take into account refraction of the emitted light through an innermost layer of the training model.

Abstract: An injection aid system and a social aid system having a computing system with at least one processor and a memory device. The computing system can be configured to generate a at least one of a virtual environment and an augmented environment. A display device can be coupled to the computing system and configured to visually display the environment. The injection aid system can further include an injection tool and a treatment target configured to receive a simulated injection by the injection tool. The injection tool can have a needle and a plunger.

Abstract: A system for providing a real-time indication of a location of the distal tip of a medical device in living tissue. The system may include an injection scanning printer that provides a visual indication of detected features to improve the injecting process. Safety needles configured to detect nerves, arteries, veins, or other physiological features upon needle placement but prior to injecting are also provided.

Abstract: Systems and methods are disclosed for an apparatus and method for practicing injection techniques through an injectable apparatus. The injectable apparatus may contain a camera that is configured to detect the intensity and color of light attenuated from a testing tool after it is injected into a simulated human or animal body parts. A training tool may be connected to a user display device to generate a display of the injection apparatus as well as the performance parameters of a trainee.

Abstract: An ocular micro tremor (OMT) sensor, system and method for measuring micromovements of an individual's eyeball having an amplitude of 40 micrometers or less to provide a variable voltage biosignal for measuring the individual's brain stem activity. The OMT sensor includes a flexible piezo-active sensing element mounted at the individual's closed or opened eyelid so as to be deflected by the micromovements of the eyeball. A shielded flexible ribbon assembly supplies the biosignal generated by the piezo-active sensing element to an OMT amplifier located on the individual's skin where the biosignal is amplified. The OMT amplifier is interconnected with a signal processor and a display by which graphical and numerical representations of the biosignal are made accessible to an anesthesiologist, intensivist or clinician.

Abstract: A tip assembly is presented herein. The tip assembly can have a member having a first end and a second end. The first end of the member can be open. The first end also can allows an implement to be inserted. The tip assembly also includes a jaw hingedly coupled to the second end of the member.

Abstract: A smart injection system that promotes patient safety includes, among other things, a smart stem that allows for measuring the location of the injection relative to the patient's face and/or the amount of medication injected into the patient. In addition, the smart stem has medication cartridge verification and injector verification features. The smart stem wirelessly transmits the measure data to a processing system.

Abstract: Systems and methods are disclosed for an apparatus and method for practicing injection techniques through an injectable apparatus. The injectable apparatus may contain a camera that is configured to detect the intensity and color of light attenuated from a testing tool after it is injected into a simulated human or animal body parts. A training tool may be connected to a user display device to generate a display of the injection apparatus as well as the performance parameters of a trainee.

Abstract: Systems, methods, and apparatuses for providing substantially omnidirectional light emission from a tip of a needle for use with injection training systems are provided. The substantially omnidirectional light emission improves the angular range of detection of the emitted light. The approach uses principles of fluorescence and/or light diffusion to emit light in a substantially omnidirectional pattern from the needle tip in order to improve the detectability of the emitted light by a light detector.

Abstract: Systems and methods are disclosed for an apparatus and method for practicing injection techniques through an injectable apparatus. The injectable apparatus may contain a camera that is configured to detect the intensity and color of light attenuated from a testing tool after it is injected into a simulated human or animal body parts. A training tool may be connected to a user display device to generate a display of the injection apparatus as well as the performance parameters of a trainee.

Abstract: Various systems and methods are provided for injection training by collecting, processing, analyzing and displaying measured information associated with the delivery of an injection. Sensor-based measurements of a syringe's position and orientation in three-dimensional space are obtained and processed to provide metrics of a trainee's injection performance. The measurements can be combined with a digital model of a training apparatus to deliver a computer-generated, graphical depiction of the training injection, enabling visualization of the injection from perspectives unavailable in the physical world. The training injection execution, as reflected in the measured sensor-based data, can be reviewed and analyzed at times after, and in locations different than, the time and location of the training injection. Additionally, injection training data associated with multiple training injections can be aggregated and analyzed for, among other things, trends in performance.

Abstract: An injection apparatus and training system for prophylactic, curative, therapeutic, acupuncture, or cosmetic injection training and certification. In an embodiment, an injection training system is described that includes a testing tool having a needle and a position sensor, where the position sensor is configured to obtain position information of the testing tool. The system also includes an injection apparatus configured to receive a simulated injection by the testing tool. The system includes a display device configured to receive the position information and to display position data reflective of the position information.

Abstract: Systems and methods are disclosed for an apparatus and method for practicing injection techniques through an injectable apparatus. The injectable apparatus may contain a camera that is configured to detect the intensity and color of light attenuated from a testing tool after it is injected into a simulated human or animal body parts. A training tool may be connected to a user display device to generate a display of the injection apparatus as well as the performance parameters of a trainee.

Abstract: Systems and methods are disclosed for an apparatus and method for practicing injection techniques through an injectable apparatus. The injectable apparatus may contain a camera that is configured to detect the intensity and color of light attenuated from a testing tool after it is injected into a simulated human or animal body parts. A training tool may be connected to a user display device to generate a display of the injection apparatus as well as the performance parameters of a trainee.

Abstract: A trocar assembly is presented herein. The trocar assembly can include a tip assembly comprising an adapter sleeve and a jaw assembly component. The jaw assembly component can be hingeably coupled to the adapter sleeve such that it has a first position, such as a rest position, and a second position, such as an expanded position. The adapter sleeve can be configured to couple the jaw assembly to a trocar of the trocar assembly component. Additionally, the trocar assembly can have a trocar having a hollow elongate member that includes a first end and a second end. The first end of the hollow elongate member can be open. The first end can allow an implement to be inserted therein. The insertion of the implement can transition the jaw assembly component from the rest position to the expanded position.

Abstract: A tip assembly is presented herein. The tip assembly can have a member having a first end and a second end. The first end of the member can be open. The first end also can allows an implement to be inserted. The tip assembly also includes a jaw hingedly coupled to the second end of the member.

Abstract: Systems and methods are disclosed for an apparatus and method for practicing injection techniques through an injectable apparatus. The injectable apparatus may contain a camera that is configured to provide three-dimensional location information for a testing tool based on light attenuated from the testing tool after it is injected into a simulated human or animal body parts. A training tool may be connected to a user display device to generate a display of the injection apparatus as well as the performance parameters of a trainee.

Abstract: Systems and methods are disclosed for an apparatus and method for practicing injection techniques through an injectable apparatus. The injectable apparatus may contain a camera that is configured to detect the intensity and color of light attenuated from a testing tool after it is injected into a simulated human or animal body parts. A training tool may be connected to a user display device to generate a display of the injection apparatus as well as the performance parameters of a trainee.

Abstract: Systems and methods are disclosed for an apparatus and method for practicing injection techniques through an injectable apparatus. The injectable apparatus may contain a camera that is configured to detect the intensity and color of light attenuated from a testing tool after it is injected into a simulated human or animal body parts. A training tool may be connected to a user display device to generate a display of the injection apparatus as well as the performance parameters of a trainee.