Abstract: The Lateral Canthotomy and Cantholysis Simulation Device of the present invention includes a base with a depression to receive a simulated eye, a skin covering, and a plug having a plug head and a plug band that is removably attached to the base under said skin covering, where the band is under tension between the first end and the second end to simulate a canthal tendon. The plug band is pulled through an opening formed into the skin covering and an opening formed into the base. A bending member is attached at one end to a stationary member and the other end to plug. The simulated eye is attached to a hook, which is used with the bending member to move to simulated eye away from the base to simulate proptosis. When plug band is cut, bending member moves to a relaxed configuration and simulated eye moves back towards base.

Abstract: A wearable device for simulating wounds and injuries received during a trauma event includes a raiment and vest for covering the torso of a person. The raiment has an outer surface with a color and a texture comparable to human skin. Mounted on the outer surface is at least one wound simulator formed with an orifice that is in fluid communication with a fluid reservoir. Thus, the person can selectively expel a blood-like fluid from the reservoir, and through the wound simulator orifice, to simulate a trauma event. The vest includes an artificial rib cage and prosthetic internal organs juxtaposed with at least one wound simulator to simulate internal effects of a trauma event.

Abstract: A wearable device for simulating wounds and injuries received during a trauma event includes a raiment and vest for covering the torso of a person. The raiment has an outer surface with a color and a texture comparable to human skin. Mounted on the outer surface is at least one wound simulator formed with an orifice that is in fluid communication with a fluid reservoir. Thus, the person can selectively expel a blood-like fluid from the reservoir, and through the wound simulator orifice, to simulate a trauma event. The vest includes an artificial rib cage and prosthetic internal organs juxtaposed with at least one wound simulator to simulate internal effects of a trauma event.

Abstract: The Lateral Canthotomy and Cantholysis Simulation Device of the present invention includes a base with a depression to receive a simulated eye, a skin covering having an eye opening with an upper lid and a lower lid, a band having a first end and a second end that is removably attached to the base under said skin covering, where the band is under tension between the first end and the second end to simulate a canthal tendon. The skin covering may also be formed with a preformed incision at the junction between the upper lower lid to simulate a preformed lateral canthotomy.

Abstract: A field-deployable construction set for the assembly of a Relocatable Habitat Unit (RHU), used for simulating real world environments without costly construction expenses. The various panels, supports, and accessories used to construct an RHU include male (M) and female (F) lock connectors located on their respective peripheries and a frame constructed from a plurality vertical corner posts and horizontal beams provide the user with innumerable options for floor plans and building design, further providing significant options for reconfiguration of floor, ceiling, and wall panels without having to disassemble the structure. The exterior composition of the expanded polymer foam is customizable to provide a realistic environment for high quality training in a versatile system that is deployable by truck or aircraft and can be assembled with only a single tool.

Abstract: A wearable device for simulating wounds and injuries received during a trauma event includes a raiment and vest for covering the torso of a person. The raiment has an outer surface with a color and a texture comparable to human skin. Mounted on the outer surface is at least one wound simulator formed with an orifice that is in fluid communication with a fluid reservoir. Thus, the person can selectively expel a blood-like fluid from the reservoir, and through the wound simulator orifice, to simulate a trauma event. The vest includes an artificial rib cage and prosthetic internal organs juxtaposed with at least one wound simulator to simulate internal effects of a trauma event.

Abstract: A wearable device for simulating wounds and injuries received during a trauma event includes a raiment and vest for covering the torso of a person. The raiment has an outer surface with a color and a texture comparable to human skin. Mounted on the outer surface is at least one wound simulator formed with an orifice that is in fluid communication with a fluid reservoir. Thus, the person can selectively expel a blood-like fluid from the reservoir, and through the wound simulator orifice, to simulate a trauma event. The vest includes an artificial rib cage and prosthetic internal organs juxtaposed with at least one wound simulator to simulate internal effects of a trauma event.

Abstract: A construction set and method for assembling a single-level Relocatable Habitat Unit (RHU) requiring a plurality of flat panels that include male (M) and female (F) lock connectors located on their respective peripheries and a frame constructed from a plurality vertical corner posts and horizontal beams. The panels are a wall panel, a ceiling panel, or a floor panel. The entire RHU can be assembled using a single, hand-operated tool to engage a selected M lock with a selected F lock in addition to other securing hardware. First the floor is established and leveled. Next, starting at a corner, the walls are erected around the floor using vertical corner posts and horizontal beams. Finally, the roof is created. The hand-operated tool is used for each task.

Abstract: The Tactical Combat Casualty Care Trainer For Hyper-Realistic™ Emergency Medical Training (“TCCC”) of the present invention includes a tactical combat training device for the purpose of providing an emergency medical services provider hands-on training. The TCCC includes an artificial human skeleton having specific anatomical features which provide the trainee or provider with appropriate tactile response analogous to a real human patient, thereby increasing the fidelity of training and improving the skills necessary to conduct procedures such as cricothyrotomy, intrasosseous infusion, CPR and other medical services to human patients. The skeleton is covered by a realistic coating that simulates human skin, which adds to the TCCC's training value. The TCCC also includes a removable trachea module and training pucks located at the sternum as well as the left and right proximal humeral heads to simulate the use of infusion-type devices.

Abstract: A field-deployable construction set for the assembly of a Relocatable Habitat Unit (RHU), used for simulating real world environments without costly construction expenses. The various panels, supports, and accessories used to construct an RHU provide the user with innumerable options for floor plans and building design, further providing significant options for reconfiguration of floor, ceiling, and wall panels without having to disassemble the structure. The exterior composition of the expanded polymer foam is customizable to provide a realistic environment for high quality training in a versatile system that is deployable by truck or aircraft and can be assembled with only a single tool.

Abstract: The Lateral Canthotomy and Cantholysis Simulation Device of the present invention includes a base with a depression to receive a simulated eye, a skin covering, and a plug having a plug head and a plug band that is removably attached to the base under said skin covering, where the band is under tension between the first end and the second end to simulate a canthal tendon. The plug band is pulled through an opening formed into the skin covering and an opening formed into the base. A bending member is attached at one end to a stationary member and the other end to plug. The simulated eye is attached to a hook, which is used with the bending member to move to simulated eye away from the base to simulate proptosis. When plug band is cut, bending member moves to a relaxed configuration and simulated eye moves back towards base.

Abstract: A construction set and method for assembling a single level Relocatable Habitat Unit (RHU) requiring a plurality of flat panels that include male (M) and female (F) lock connectors located on their respective peripheries and a frame constructed from a plurality vertical corner posts and horizontal beams. The panels are a wall panel, a ceiling panel, or a floor panel. The entire RHU can be assembled using a single, hand-operated tool to engage a selected M lock with a selected F lock in addition to other securing hardware. First the floor is established and leveled. Next, starting at a corner, the walls are erected around the floor using vertical corner posts and horizontal beams. Finally, the roof is created. The hand-operated tool is used for each task.

Abstract: A wearable device for simulating wounds and injuries received during a trauma event includes a raiment and vest for covering the torso of a person. The raiment has an outer surface with a color and a texture comparable to human skin. Mounted on the outer surface is at least one wound simulator formed with an orifice that is in fluid communication with a fluid reservoir. Thus, the person can selectively expel a blood-like fluid from the reservoir, and through the wound simulator orifice, to simulate a trauma event. The vest includes an artificial rib cage and prosthetic internal organs juxtaposed with at least one wound simulator to simulate internal effects of a trauma event.

Abstract: The Tactical Combat Casualty Care Trainer For Hyper-Realistic™ Emergency Medical Training (“TCCC”) of the present invention includes a tactical combat training device for the purpose of providing an emergency medical services provider hands-on training. The TCCC includes an artificial human skeleton having specific anatomical features which provide the trainee or provider with appropriate tactile response analogous to a real human patient, thereby increasing the fidelity of training and improving the skills necessary to conduct procedures such as cricothyrotomy, intrasosseous infusion, CPR and other medical services to human patients. The skeleton is covered by a realistic coating that simulates human skin, which adds to the TCCC's training value. The TCCC also includes a removable trachea module and training pucks located at the sternum as well as the left and right proximal humeral heads to simulate the use of infusion-type devices.

Abstract: The Lateral Canthotomy and Cantholysis Simulation Device of the present invention includes a base with a depression to receive a simulated eye, a skin covering having an eye opening with an upper lid and a lower lid, a band having a first end and a second end that is removably attached to the base under said skin covering, where the band is under tension between the first end and the second end to simulate a canthal tendon. The skin covering may also be formed with a preformed incision at the junction between the upper lower lid to simulate a preformed lateral canthotomy.

Abstract: A wearable device for simulating wounds and injuries received during a trauma event includes a raiment and vest for covering the torso of a person. The raiment has an outer surface with a color and a texture comparable to human skin. Mounted on the outer surface is at least one wound simulator formed with an orifice that is in fluid communication with a fluid reservoir. Thus, the person can selectively expel a blood-like fluid from the reservoir, and through the wound simulator orifice, to simulate a trauma event. The vest includes an artificial rib cage and prosthetic internal organs juxtaposed with at least one wound simulator to simulate internal effects of a trauma event.

Abstract: A field-deployable construction set for the assembly of a Relocatable Habitat Unit (RHU), used for simulating real world environments without costly construction expenses. The various panels, supports, and accessories used to construct an RHU provide the user with innumerable options for floor plans and building design, further providing significant options for reconfiguration of floor, ceiling, and wall panels without having to disassemble the structure. The exterior composition of the expanded polymer foam is customizable to provide a realistic environment for high quality training in a versatile system that is deployable by truck or aircraft and can be assembled with only a single tool.

Abstract: A wearable device for simulating wounds and injuries received during a trauma event includes a raiment and vest for covering the torso of a person. The raiment has an outer surface with a color and a texture comparable to human skin. Mounted on the outer surface is at least one wound simulator formed with an orifice that is in fluid communication with a fluid reservoir. Thus, the person can selectively expel a blood-like fluid from the reservoir, and through the wound simulator orifice, to simulate a trauma event. The vest includes an artificial rib cage and prosthetic internal organs juxtaposed with at least one wound simulator to simulate internal effects of a trauma event.

Abstract: A construction set and method for assembling a single level Relocatable Habitat Unit (RHU) requiring a plurality of flat panels that include male (M) and female (F) lock connectors located on their respective peripheries and a frame constructed from a plurality vertical corner posts and horizontal beams. The panels are a wall panel, a ceiling panel, or a floor panel. The entire RHU can be assembled using a single, hand-operated tool to engage a selected M lock with a selected F lock in addition to other securing hardware. First the floor is established and leveled. Next, starting at a corner, the walls are erected around the floor using vertical corner posts and horizontal beams. Finally, the roof is created. The hand-operated tool is used for each task.

Abstract: A field-deployable construction set for the assembly of a Relocatable Habitat Unit (RHU), used for simulating real world environments without costly construction expenses. The various panels, supports, and accessories used to construct an RHU provide the user with innumerable options for floor plans and building design, further providing significant options for reconfiguration of floor, ceiling, and wall panels without having to disassemble the structure. The exterior composition of the expanded polymer foam is customizable to provide a realistic environment for high quality training in a versatile system that is deployable by truck or aircraft and can be assembled with only a single tool.