A personal respiratory isolation assembly includes a manifold-filter assembly configured to be attached to a suction port of a respiratory pump. The manifold-filter assembly has a bowl-shaped manifold housing with an inlet adapter configured for connecting a hose, and a filter releasably attachable to the manifold housing. The isolation assembly further comprises an exhaust baffle with a plurality of openings. The exhaust baffle fits a pressure port of the respiratory pump. A method of operating a personal respiratory isolation assembly involves attaching an exhaust baffle to an outlet adapter of a respiratory pump; connecting a manifold housing to a suction port of the respiratory pump with a filter disposed between the manifold housing and the suction port; connecting a hose to an inlet adapter of the manifold housing; attaching the hose to a hose port of a hood; and starting to operate the respiratory pump.

It is common for the organizers of endurance sports to provide aid stations along the route where participants may receive water to prevent dehydration. To reduce waste at these events, organizers encourage ‘cupless’ races that requiring participants to carry their own vessels. The present invention comprises a hat with a visor, such as a baseball style cap, with a collapsible drinking vessel integrated into the visor. During the course of the race, a runner may encounter a water stop and require a vessel to contain the liquid for immediate consumption. At such time the runner can simply remove their hat and configure the vessel to the open position to receive the liquid. Post-consumption the vessel is configured back to the closed position and becomes seamlessly integrated into the visor with no negative effects upon the runner.

It is common for the organizers of endurance sports to provide aid stations along the route where participants may receive water to prevent dehydration. To reduce waste at these events, organizers encourage ‘cupless’ races that requiring participants to carry their own vessels. The present invention comprises a hat with a visor, such as a baseball style cap, with a collapsible drinking vessel integrated into the visor. During the course of the race, a runner may encounter a water stop and require a vessel to contain the liquid for immediate consumption. At such time the runner can simply remove their hat and configure the vessel to the open position to receive the liquid. Post-consumption the vessel is configured back to the closed position and becomes seamlessly integrated into the visor with no negative effects upon the runner.

Apparatus for applying Transcranial Magnetic Stimulation (TMS) to an individual, wherein the apparatus comprises: a head mount for disposition on the head of an individual; and a plurality of magnet assemblies for releasable mounting on the head mount, wherein each of the magnet assemblies comprises a permanent magnet, and at least one of (i) a movement mechanism for moving the permanent magnet and/or (ii) a magnetic shield shutter mechanism, for selectively providing a rapidly changing magnetic field capable of inducing weak electric currents in the brain of an individual so as to modify the natural electrical activity of the brain of the individual; wherein the number of magnet assemblies mounted on the head mount, their individual positioning on the head mount, and their selective provision of a rapidly changing magnetic field is selected so as to allow the spatial, strength and temporal characteristics of the magnetic field to be custom tailored for each individual, whereby to provide individual-specific TMS therapy, to assist in diagnosis or to map out brain function in neuroscience research.

Apparatus for applying Transcranial Magnetic Stimulation (TMS) to an individual, wherein the apparatus comprises: a head mount for disposition on the head of an individual; and a plurality of magnet assemblies for releasable mounting on the head mount, wherein each of the magnet assemblies comprises a permanent magnet, and at least one of (i) a movement mechanism for moving the permanent magnet and/or (ii) a magnetic shield shutter mechanism, for selectively providing a rapidly changing magnetic field capable of inducing weak electric currents in the brain of an individual so as to modify the natural electrical activity of the brain of the individual; wherein the number of magnet assemblies mounted on the head mount, their individual positioning on the head mount, and their selective provision of a rapidly changing magnetic field is selected so as to allow the spatial, strength and temporal characteristics of the magnetic field to be custom tailored for each individual, whereby to provide individual-specific TMS therapy, to assist in diagnosis or to map out brain function in neuroscience research.

A hood for a hooded garment may include apertures in the hood to improve a sealing connection between headphone earpieces and the outer portion of the user's ears while using headphones while also maintaining the hood's ability to retain body heat when not using headphones. While using the hood with headphones, the apertures may improve the sealing connection between the headphone earpieces and the user's ears and, thus, improve the function of the headphones (e.g., sound translation or sound deadening). While using the hood without headphones, a portion of mesh fabric sewn into the hood over the apertures allows the hood to retain the user's body heat and thereby mitigate heat loss through the hood caused by the apertures.

A hood for a hooded garment may include apertures in the hood to improve a sealing connection between headphone earpieces and the outer portion of the user's ears while using headphones while also maintaining the hood's ability to retain body heat when not using headphones. While using the hood with headphones, the apertures may improve the sealing connection between the headphone earpieces and the user's ears and, thus, improve the function of the headphones (e.g., sound translation or sound deadening). While using the hood without headphones, a portion of mesh fabric sewn into the hood over the apertures allows the hood to retain the user's body heat and thereby mitigate heat loss through the hood caused by the apertures.

A nightcap configured for securing about a wearer's head and method of wearing the same is disclosed. The nightcap includes a cap portion that is dimensioned to cover a wearer's head. An aft end of the cap portion encircles a wearer's head. A forward end of the cap portion has a notch proximal to a top end of the cap portion by a confluence of an upper edge of a pair of elongate straps distending from the cap portion. Side loops are provided at the lateral sides of the cap portion and a rear loop is provided at an aft end of the cap portion. The cap is worn and secured about the wearer's head by encircling the wearer's head with the elongate straps, while routing terminal ends of the elongate straps through the side loops, rear loop, and securing the straps in a knot on the wearer's forehead.

A head covering is described that includes a cap formed from a first stretchable material and shaped to encompass a top of a human head, an elastic band connected to a circumferential rim of the cap, and a headband formed from a second stretchable material and arranged around and connected to a bottom circumferential region of the cap. In certain implementations, the headband is non-detachably or detachably connected to the bottom circumferential region of the cap at attachment points spaced along a top edge of the headband and a bottom edge of the headband, such that a pocket is formed between the headband and the cap. In further accordance with such implementations, spacings between the attachment points along the top edge of the headband form openings that provide access to the pocket, such that a wearer can insert excess material of the cap into the pocket for storage therein.

A head covering is described that includes a cap formed from a first stretchable material and shaped to encompass a top of a human head, an elastic band connected to a circumferential rim of the cap, and a headband formed from a second stretchable material and arranged around and connected to a bottom circumferential region of the cap. In certain implementations, the headband is non-detachably or detachably connected to the bottom circumferential region of the cap at attachment points spaced along a top edge of the headband and a bottom edge of the headband, such that a pocket is formed between the headband and the cap. In further accordance with such implementations, spacings between the attachment points along the top edge of the headband form openings that provide access to the pocket, such that a wearer can insert excess material of the cap into the pocket for storage therein.