The invention is directed to a mouth piece for cooling of oral tissue of a patient during chemotherapy treatment. The mouth piece includes a cooling medium contained within the top element and the bottom element and able to retain a cooling environment within the mouth sufficient to reduce capillary blood flow to the patient's mouth.

In one embodiment, a particular state of a body is sensed. In response to the sensing, at least one action is taken to modulate a projected adverse interaction between the body or a portion thereof and at least one object in the environment of the body.

An apparatus, methods and computer program product, and system are described that enable a first subset of actuatable cushioning elements for a first time period, enable a second subset of actuatable cushioning elements for a second time period, determine an event, and actuate, based on a time the event is determined, at least one of the first and the second subsets of actuatable cushioning elements to provide cushioning support for an object. Other example embodiments are also provided relating to actuatable cushioning elements.

An apparatus, methods and computer program product, and system are described that enable a first subset of actuatable cushioning elements for a first time period, enable a second subset of actuatable cushioning elements for a second time period, determine an event, and actuate, based on a time the event is determined, at least one of the first and the second subsets of actuatable cushioning elements to provide cushioning support for an object. Other example embodiments are also provided relating to actuatable cushioning elements.

An apparatus, method, computer program product, and/or system are described that determine an event, actuate a cushioning element in response to the determining the event, the cushioning element including one or more tension-bearing members, and dissipate at least some of an energy associated with a collision based on deforming at least one of the tension-bearing members during the collision, the deforming including substantially inelastically stretching the at least one of the tension-bearing members. Other example embodiments are also provided relating to actuatable cushioning elements.

An apparatus, method, computer program product, and/or system are described that determine an event, actuate a cushioning element in response to the determining the event, the cushioning element including one or more tension-bearing members, and dissipate at least some of an energy associated with a collision based on deforming at least one of the tension-bearing members during the collision, the deforming including substantially inelastically stretching the at least one of the tension-bearing members. Other example embodiments are also provided relating to actuatable cushioning elements.

An apparatus, method, computer program product, and/or system are described that determine an event, actuate a cushioning element in response to the determining

A smart hard shell helmet for protection of head injury having a plurality of air filled inflatable bladders inside the shell, a valve on at least one bladder that responds to a controller, at least one flexible extendible strap extended from the bladder to a one point on the inside of the helmet, accelerometers operably connected to the helmet and wearer's head for sensing g force changes, pressure sensors in the bladders, an electrically actuated valve responsive to pressure and force measurement determined by the controller thresholds being met, and the valve exhausts a portion of the air in the bladder to the atmosphere extending the strap to the second state followed by the strap returning to the first state by drawing atmospheric air through the valve and re-inflating the bladder.

A sport helmet for protecting a head of a wearer, such as a hockey, lacrosse or football player. The sport helmet includes an outer shell with an internal side and an external side and an inner pad mounted to the internal side of the outer shell for absorbing shocks when the sport helmet is impacted. The inner pad includes a core of polymeric cellular material with a body of expanded polymeric microspheres and a molded covering being molded onto the core of polymeric cellular material.

A pad assembly is provided for use with a protective sports helmet in a contact sport, the helmet having an opening. The pad assembly includes a pad member within a pad housing, and a retainer having a projection that fits within the helmet opening. The pad assembly also includes a cap detachably coupled to the retainer, the cap including a base portion that fits within the helmet opening and a flange portion that fits within a countersunk recess disposed around the helmet opening, the cap detachably receiving the projection of the retainer. A protective sports helmet having a pad assembly is also provided.

An article of footwear with a midsole has an auxetic bladder member formed from inflated components surrounding star-shaped apertures. The inflated components form one or more auxetic bladders, and may have a triangular geometry. The inflated components are fluidly connected to adjoining components. Adjoining inflated components are hingedly connected, so that they can rotate with respect to each other in the plane of the midsole.

A soft brace to prevent injury to one or more target joints or body segments is disclosed. The soft brace includes one or more tensile elements configured to limit motion of one or more target joints based on placement of the one or more tensile elements relative to the one or more target joints such that the placement and tension of each of the one or more tensile elements provides resistance against motion of the one or more target joints; one or more soft tissue anchors positioned on a body around the one or more target joints, the one or more anchors being configured to anchor one or more of the one or more tensile elements to the body to provide force distribution relative to the one or more target joints; and wherein at least one of the one or more tensile elements is routed in parallel with the approximate center of rotation of at least one of the one or more target joints.

A protective foam material and pads are disclosed herein. The material is a rounded foam pellet having a hole through the center of the pellet. The pellets may be arranged and interconnected to form a pad. These pads may be applied to persons, animals, or other objects for protective functions.

A lacrosse helmet with a plastic shell has a full jaw protector attached to the shell at a right side of the shell and at a left side of the shell, extending forwardly from the shell and extending continuously from the right side of the shell to the left side of the shell and adapted to cover and protect a lower jaw of the wearer. A faceguard made of a grid of horizontal wire members, vertical wire members, and a bottom wire member is removably attached to both the shell and the full jaw protector by loop straps. T-intersections are formed by the bottom wire member and certain of the vertical wire members, adjacent to and above the full jaw protector and forward of loop straps connecting the faceguard to the jaw protector. The loop straps act as stops against rearward movement of the vertical wire members thereby resisting the tendency of the faceguard to slide and twist when struck with blows during sports play.

A protective liner, attachable to the inner surface of a helmet, comprising an inner face and an outer face oriented towards the inner surface of the helmet, wherein the joining of faces gives rise to a plurality of inflatable chambers permeable to water vapour and connected by means of pressurised air distribution channels. The chambers and channels form a single body extending at least along the inner surface of the helmet above the Frankfurt plane. The outer face comprises a layer of rigid material while the inner face comprises a layer of elastic material, whose area expands when the chambers are filled with air, such that the expansion in volume occurs mainly by means of the deformation of the elastic layer.