Abstract: A flexible device having a layered structure for delivering light or ultrasound to a skin surface. The device includes a flexible substrate that supports either a flexible light emitter layer or a flexible ultrasound emitter layer, as well as first and second flexible conductive layers. The device has a surface configured to face the skin surface, wherein (a) the light emitter layer emits pulsed light with an intensity that is substantially constant across the device's surface when driven by a power source connected to the conductive layers to thereby deliver a therapeutically effective dose of pulsed light to the skin surface or (b) the ultrasound emitter layer emits ultrasound with an intensity that is substantially constant across the device's surface when driven by a power source connected to the conductive layers to thereby deliver a therapeutically effective dose of ultrasound to the skin surface.

Abstract: A hitch system comprising a hitch shaft with a forward end configured to rigidly attach to a tow vehicle and a rearward end extending rearwardly toward a trailer frame; a head unit pivotally attached to the rearward end of the hitch shaft at a first pivot point having an upper portion and a lower portion, comprising a hitch ball on the upper portion of the head unit positioned out of vertical alignment with the first pivot point creating a second pivot point between the hitch ball and a trailer attached thereto; and a slot on the lower portion of the head unit, the slot having portions in vertical alignment with the first pivot point and the second pivot point; a first moment arm with a distal end configured for slidable attachment to a first bracket on the trailer frame and a forked proximal end comprising a first tine pivotally connected to the lower portion of the head unit; and a second tine having a knob in a sliding connection with the slot; and a second moment arm with a distal end configured for slida

Abstract: A hitch system comprising a hitch shaft with a forward end configured to rigidly attach to a tow vehicle and a rearward end extending rearwardly toward a trailer frame; a head unit pivotally attached to the rearward end of the hitch shaft at a first pivot point having an upper portion and a lower portion, comprising a hitch ball on the upper portion of the head unit positioned out of vertical alignment with the first pivot point creating a second pivot point between the hitch ball and a trailer attached thereto; and a slot on the lower portion of the head unit, the slot having portions in vertical alignment with the first pivot point and the second pivot point; a first moment arm with a distal end configured for slidable attachment to a first bracket on the trailer frame and a forked proximal end comprising a first tine pivotally connected to the lower portion of the head unit; and a second tine having a knob in a sliding connection with the slot; and a second moment arm with a distal end configured for slida

Abstract: A flexible device having a layered structure for delivering electrical stimulation and one or both of light and ultrasound to a skin surface is provided. The device is flexible so as to form a non-planar contact surface against the skin surface, and includes one or both of (a) a flexible light emitter layer positioned between two flexible conductive layers that emits light when driven by a power source and (b) a flexible ultrasound emitter layer positioned between two flexible conductive layers that produces ultrasound when driven by a power source. The device also includes a flexible electrical stimulation layer that functions as an electrode and is configured to provide electrical stimulation when driven by a power source.

Abstract: A flexible device having a layered structure for delivering light or ultrasound to a skin surface. The device includes a flexible substrate that supports either a flexible light emitter layer or a flexible ultrasound emitter layer, as well as first and second flexible conductive layers. The device has a surface configured to face the skin surface, wherein (a) the light emitter layer emits pulsed light with an intensity that is substantially constant across the device's surface when driven by a power source connected to the conductive layers to thereby deliver a therapeutically effective dose of pulsed light to the skin surface or (b) the ultrasound emitter layer emits ultrasound with an intensity that is substantially constant across the device's surface when driven by a power source connected to the conductive layers to thereby deliver a therapeutically effective dose of ultrasound to the skin surface.

Abstract: A flexible device having a layered structure for delivering electrical stimulation and one or both of light and ultrasound to a skin surface is provided. The device is flexible so as to form a non-planar contact surface against the skin surface, and includes one or both of (a) a flexible light emitter layer positioned between two flexible conductive layers that emits light when driven by a power source and (b) a flexible ultrasound emitter layer positioned between two flexible conductive layers that produces ultrasound when driven by a power source. The device also includes a flexible electrical stimulation layer that functions as an electrode and is configured to provide electrical stimulation when driven by a power source.

Abstract: A device for delivering light and ultrasound across a skin surface is provided. The device has a layered structure comprising a light source and an ultrasonic transducer. The light source comprises a flexible light emitter layer electrically coupled to a first conductive layer and a second conductive layer, wherein at least one of the first and second conductive layers is transparent. The ultrasonic transducer comprises a flexible ultrasound emitter layer electrically coupled to a third conductive layer and a fourth conductive layer. In one embodiment, the light source comprises an organic light emitting diode or a plurality of printed light emitting diodes and the ultrasonic transducer comprises a piezoelectric coating. The device may be provided with a therapeutic or cosmetic composition to be applied to the skin surface, wherein the light and ultrasound emitted from the device cause transdermal transport of the composition through the skin surface.

Abstract: A system for delivering light and/or ultrasound across a skin surface is provided. The system includes a device having a layered structure comprising one or both of a light source and an ultrasonic transducer. The light source comprises a flexible light emitter layer electrically coupled to a first conductive layer and a second conductive layer, wherein at least one of the first and second conductive layers is transparent. The ultrasonic transducer comprises a flexible ultrasound emitter layer electrically coupled to a third conductive layer and a fourth conductive layer. The system also includes one or more sensors in contact with the skin surface and a controller electrically coupled to the device and the sensor. The controller is operable to receive sensor data from the sensor and dynamically control the device in response to the received sensor data.

Abstract: A system for delivering light and/or ultrasound across a skin surface is provided. The system includes a device having a layered structure comprising one or both of a light source and an ultrasonic transducer. The light source comprises a flexible light emitter layer electrically coupled to a first conductive layer and a second conductive layer, wherein at least one of the first and second conductive layers is transparent. The ultrasonic transducer comprises a flexible ultrasound emitter layer electrically coupled to a third conductive layer and a fourth conductive layer. The system also includes one or more sensors in contact with the skin surface and a controller electrically coupled to the device and the sensor. The controller is operable to receive sensor data from the sensor and dynamically control the device in response to the received sensor data.

Abstract: A device for delivering light and ultrasound across a skin surface is provided. The device has a layered structure comprising a light source and an ultrasonic transducer. The light source comprises a flexible light emitter layer electrically coupled to a first conductive layer and a second conductive layer, wherein at least one of the first and second conductive layers is transparent. The ultrasonic transducer comprises a flexible ultrasound emitter layer electrically coupled to a third conductive layer and a fourth conductive layer. In one embodiment, the light source comprises an organic light emitting diode or a plurality of printed light emitting diodes and the ultrasonic transducer comprises a piezoelectric coating. The device may be provided with a therapeutic or cosmetic composition to be applied to the skin surface, wherein the light and ultrasound emitted from the device cause transdermal transport of the composition through the skin surface.

Abstract: A multilayer breathable moisture management and compressive device, having a laminate material that includes a thin, hydrophillic polyurethane foam coated on both surfaces with an adhesive. A stretchable elastomeric polymer layer is bonded to each of the adhesive surfaces. The polymer layers preferably are microfibers having a greater number of filaments on a skin engaging side than on an opposite side thereof. The resulting device draws moisture from the skin whereby moisture generated by the underlying skin is absorbed into the device and is thereafter conveyed into the polyurethane foam and then into the outer polymer layer such that the moisture is permitted to evaporate from the surface of the device. The device may be used as a sleeve for providing compression especially during exercise or may be used as a wound dressing or the like, providing moisture management and/or heat retention under compression.

Abstract: A multilayer compression support sleeve construction. The laminate material includes a thin polyurethane film coated on both surfaces with an adhesive. A stretchable elastomeric polymer material is bonded to each of the adhesive surfaces. A substantial portion of one of the elastomeric polymer surfaces is coated with a discontinuous layer of silicone microdots. The microdots are applied by gravure roll printing to project a uniform distance above the elastomeric polymer surface to form small tacky dots. The laminate material is fabricated into a sleeve with the material oriented so that the microdot coated face is adjacent the skin of the wearer. Microdots may be applied in a predetermined pattern in order to impart enhanced compression to certain areas of the support sleeve. The resulting support sleeve retains its breathability while presenting a nonslip inner surface which prevents migration of the garment on the skin of the wearer during exercise.

Abstract: A process for extracting a fat from a feedstock (e.g., chocolate liquor), includes mixing the feedstock with a liquefied gas solvent (e.g., butane), filtering, washing the retentate with additional solvent, refiltering, drying, granulating, aerating the granulate, and separating the fat from the solvent in the original filtrate. The mixing, filtering, washing, refiltering, drying, and granulating are conducted under an atmosphere consisting essentially of the solvent vapor. An improved solvent extraction process includes repeatedly loading and unloading an extractor with solvent and feedstock to extract fat from the feedstock, wherein throughout loading, extracting, unloading and repeating: (a) a pressure in the extractor is continuously maintained above atmospheric pressure; (b) the extractor is continuously maintained under an oxygen-free atmosphere; and/or (c) the extractor is continuously maintained under an atmosphere consisting essentially of a vapor of the solvent.

Abstract: A multilayer compression support sleeve construction. The laminate material includes a thin polyurethane film coated on both surfaces with an adhesive. A stretchable elastomeric polymer material is bonded to each of the adhesive surfaces. A substantial portion of one of the elastomeric polymer surfaces is coated with a discontinuous layer of silicone microdots. The microdots are applied by gravure roll printing to project a uniform distance above the elastomeric polymer surface to form small tacky dots. The laminate material is fabricated into a sleeve with the material oriented so that the microdot coated face is adjacent the skin of the wearer. Microdots may be applied in a predetermined pattern in order to impart enhanced compression to certain areas of the support sleeve. The resulting support sleeve retains its breathability while presenting a nonslip inner surface which prevents migration of the garment on the skin of the wearer during exercise.

Abstract: A multilayer compression support sleeve construction. The laminate material includes a thin polyurethane film coated on both surfaces with an adhesive. A stretchable elastomeric polymer material is bonded to each of the adhesive surfaces. A substantial portion of one of the elastomeric polymer surfaces is coated with a discontinuous layer of silicone microdots. The microdots are applied by gravure roll printing to project a uniform distance above the elastomeric polymer surface to form small tacky dots. The laminate material is fabricated into a sleeve with the material oriented so that the microdot coated face is adjacent the skin of the wearer. Microdots may be applied in a predetermined pattern in order to impart enhanced compression to certain areas of the support sleeve. The resulting support sleeve retains its breathability while presenting a nonslip inner surface which prevents migration of the garment on the skin of the wearer during exercise.

Abstract: A process for extracting a fat from a feedstock (e.g., chocolate liquor), includes mixing the feedstock with a liquefied gas solvent (e.g., butane), filtering, washing the retentate with additional solvent, refiltering, drying, granulating, aerating the granulate, and separating the fat from the solvent in the original filtrate. The mixing, filtering, washing, refiltering, drying, and granulating are conducted under an atmosphere consisting essentially of the solvent vapor. An improved solvent extraction process includes repeatedly loading and unloading an extractor with solvent and feedstock to extract fat from the feedstock, wherein throughout loading, extracting, unloading and repeating: (a) a pressure in the extractor is continuously maintained above atmospheric pressure; (b) the extractor is continuously maintained under an oxygen-free atmosphere; and/or (c) the extractor is continuously maintained under an atmosphere consisting essentially of a vapor of the solvent.

Abstract: A multilayer compression support sleeve construction. The laminate material includes a thin polyurethane film coated on both surfaces with an adhesive. A stretchable elastomeric polymer material is bonded to each of the adhesive surfaces. A substantial portion of one of the elastomeric polymer surfaces is coated with a discontinuous layer of silicone microdots. The microdots are applied by gravure roll printing to project a uniform distance above the elastomeric polymer surface to form small tacky dots. The laminate material is fabricated into a sleeve with the material oriented so that the microdot coated face is adjacent the skin of the wearer. Microdots may be applied in a predetermined pattern in order to impart enhanced compression to certain areas of the support sleeve. The resulting support sleeve retains its breathability while presenting a nonslip inner surface which prevents migration of the garment on the skin of the wearer during exercise.

Abstract: A method of fabricating a remote control assembly having a conduit (12) movably supporting a core element (14) with an end fitting (16) disposed on the conduit (12) for mechanical engagement with a ferrule (18) and a slug (20) disposed on the core element (14). The method comprises the steps of selecting a ferrule (18) for supporting the conduit (12) on a support structure (22) from a plurality of ferrule (18) configurations and snapping the ferrule (18) into mechanical connection with the end fitting (16) while inserting the core element (14) through the conduit (12) and ferrule (18). A terminal member (38, 138, 238), having a slug pocket (40) therein and a connector for connection configurations and it is placed on the core element (14) with the slug (20) in the slug pocket (40). A collar (42) is placed over the slug pocket (40) as the collar (42) is mechanically connected to the terminal member (38, 138, 238) to cover the slug pocket (40) and retain the slug (20) in the slug pocket (40).

Abstract: A method of fabricating a remote control assembly having a conduit (12) movably supporting a core element (14) with an end fitting (16) disposed on the conduit (12) for mechanical engagement with a ferrule (18) and a slug (20) disposed on the core element (14). The method comprises the steps of selecting a ferrule (18) for supporting the conduit (12) on a support structure (22) from a plurality of ferrule (18) configurations and snapping the ferrule (18) into mechanical connection with the end fitting (16) while inserting the core element (14) through the conduit (12) and ferrule (18). A terminal member (38, 138, 238), having a slug pocket (40) therein and a connector for connection to a control member, is selected from a plurality of terminal member (38, 138, 238) configurations and it is placed on the core element (14) with the slug (20) in the slug pocket (40).

Abstract: A back support brace for supporting the back of a wearer of the brace for preventing injuries and reinforcing proper lifting mechanics during lifting activities comprises a back panel, a left side panel and a right side panel wherein the left and right side panels are secured at opposite ends of the back panel and are wrappable around the waist of a wearer and adjustably securable thereto. Aligned pairs of belt loops are provided on an inner surface of the brace and are adapted to receive a belt for holding up the pants of the wearer of the brace therethrough so as to prevent the brace from being advanced out of a preset position during lifting activities. A lower edge of the brace includes cutout portions generally positioned above the thighs of the wearer such that the lower edge is contoured to conform to the shape of the wearer throughout lifting activities. Elastic insets extend over the cutout portions to increase tension across the back panel.