A spinal surgery modeling system includes a spine model and a spine movement device. The spinal surgery modeling system provides a three-dimensional hands-on model that can be configured to have any desired variation of spinal alignment of the spine model by hydraulic actuation of the spine movement device to simulate the biomechanical feel and behavior of a patient's spine. The spine model may include various vertebral body or disc conditions and allows a clinician to examine and/or adjust the model and observe the three-dimensional outcome of such adjustments.

A fluid analysis simulation and training system and method. An embodiment includes an educational monitor that allows desired data and results to be displayed on a simulated glucometer as part of a faculty computer. In this embodiment, a faculty member controls the data displayed depending on the action of the learners. The present invention also discloses a model allowing the opportunity to practice the skill of obtaining a blood sample in a simulated environment. The model includes a simulated finger configured for placement over a manikin or simulated patient's finger and for holding a simulated patient fluid. In an exemplary embodiment, the simulated patient fluid includes a predetermined amount of glucose and is configured for testing with a standard glucometer. In another embodiment, the simulated patient fluid is inert, and a faculty member, or instructor, controls the display on a simulated glucometer.

A personal laboratory apparatus includes a plurality of life sciences laboratory modules disposed on or in a common housing. The laboratory modules include a cooling station, a heating station, an incubator, a bioreactor, and a removable fluidic cartridge that is fluidly coupled to the bioreactor. The personal laboratory apparatus can be sold as a kit with a wetware kit that includes laboratory hardware and ingredients for performing a genetic-engineering experiment. The wetware kit includes a plurality of test tubes and a pre-measured volume or mass of a plurality of materials, each pre-measured volume or mass disposed in a corresponding test tube.

Provided is a pseudo visceral model having a specific texture.

A model of viscera, tissues, or organs comprising a foam layer containing a hydrogel.

A teaching device includes a base and a first set of equipment. The first set of equipment includes a first rod portion including a first spiraling rod portion installed in the base. A first encircled object is disposed on the base plate and is encircled by the first spiraling rod portion. Also included is a first rod slider. The first rod slider is slidably movable along the first rod portion and around the first encircled object.

Techniques for providing medical image processing training are described herein. According to one embodiment, at least one medical image associated with a medical image processing training course (MIPTC) is displayed in a first display area. An instruction is displayed in a second display area, where the instruction requests a user to perform a quantitative determination on at least a portion of a body part within the medical image displayed in the first display area. In response to a user action from the user, the requested determination is performed on the displayed medical image. It is determined automatically without user intervention at least one quantitative value representing a result of the user action. The quantitative value is compared to a predefined model answer.

Techniques for providing medical image processing training are described herein. According to one embodiment, at least one medical image associated with a medical image processing training course (MIPTC) is displayed in a first display area. An instruction is displayed in a second display area, where the instruction requests a user to perform a quantitative determination on at least a portion of a body part within the medical image displayed in the first display area. In response to a user action from the user, the requested determination is performed on the displayed medical image. It is determined automatically without user intervention at least one quantitative value representing a result of the user action. The quantitative value is compared to a predefined model answer.

An online platform generates a playlist of clips of a lecture accessed by a plurality of users of the online platform. The online platform receives a recording of the lecture, and receives a plurality of events captured during a time period corresponding to the lecture. Each captured event is associated with a time stamp corresponding to a time at which a user performed an activity while listening to the lecture. The online platform clusters the captured events based on the time stamps, and generates one or more clips of the recording of the lecture from the clustered events. The online platform generates a playlist including the clips of the lecture.

An online platform generates a playlist of clips of a lecture accessed by a plurality of users of the online platform. The online platform receives a recording of the lecture, and receives a plurality of events captured during a time period corresponding to the lecture. Each captured event is associated with a time stamp corresponding to a time at which a user performed an activity while listening to the lecture. The online platform clusters the captured events based on the time stamps, and generates one or more clips of the recording of the lecture from the clustered events. The online platform generates a playlist including the clips of the lecture.

Automatic injection training device with a housing assembly comprising an outer housing, an actuation assembly, and a damper unit comprising a damper housing and a piston assembly that is arranged in said damper housing. The damper housing slides in a proximal direction relative to the piston assembly when an injection is simulated.