A self-heating warming blanket includes a pliable outer shell forming a liquid impermeable enclosure. A heat generation layer disposed inside the enclosure has a plurality of liquid permeable heater compartments containing an exothermic reactant. The blanket also has a heater activation system including a sealed bladder containing an activator liquid inside the enclosure. An activation strip extends from outside the outer shell into the enclosure. One segment of the strip is an unsealing segment connected to the bladder. Another segment of the strip is a handle segment outside the outer shell. Pulling on the handle segment opens the bladder and releases the activator liquid into the enclosure where at least a portion of it permeates at least one heater compartment and combines with the exothermic reactant contained therein to initiate an exothermic chemical reaction that heats the warming blanket.

A self-heating warming blanket includes a pliable outer shell forming a liquid impermeable enclosure. A heat generation layer disposed inside the enclosure has a plurality of liquid permeable heater compartments containing an exothermic reactant. The blanket also has a heater activation system including a sealed bladder containing an activator liquid inside the enclosure. An activation strip extends from outside the outer shell into the enclosure. One segment of the strip is an unsealing segment connected to the bladder. Another segment of the strip is a handle segment outside the outer shell. Pulling on the handle segment opens the bladder and releases the activator liquid into the enclosure where at least a portion of it permeates at least one heater compartment and combines with the exothermic reactant contained therein to initiate an exothermic chemical reaction that heats the warming blanket.

The present invention provides a disposable body warmer that makes it possible to suppress scattering of moisture contained in the exothermic composition from the outer bag, and thereby ensure a desired exothermic duration of the exothermic composition when the disposable body warmer is kept in an unused state for a long period of time. The disposable body warmer is structured such that an exothermic composition that contains moisture and generates heat by contact with air is enclosed in one or more air-permeable inner bags, which are accommodated in an airtight outer bag. The outer bag comprises two accommodation units that are partitioned from each other and capable of containing the one or more inner bags. The one or more inner bags each comprise at least one enclosure unit capable of enclosing the exothermic composition, and are accommodated in each accommodation unit in a manner such that at least one of the enclosure units is overlaid with another enclosure unit. The outer bag is formed by overlaying two wrapping films with each other, sealing an entire outer peripheral edge, and partitioning the accommodation units by sealing. Further, in the disposable body warmer, Parameters A to H are set to satisfy Formula (1) below $ R = A B { 1 2 C - 1 D + 1 E - F ( G / H ) } 330 F HEAT PADS COMPRISING SPIRAL HEAT CELLS 20190029879 · 2019-01-31 · Beiersdorf Ag · Karl-Heinz WOELLER, Pia RUECKER, Jens Nierle The invention relates to heat products for single treatment and/or as self-therapy in the event of acute, recurrent and/or chronic states of pain, comprising heat-generating materials arranged in spiral form. Stationary Massage Device, System and Methods for Soft Tissue Strain Release 20190029908 · 2019-01-31 · Jason T. Su Disclosed are stationary massage device, system and methods for self-administrated or assisted soft tissue strain release (including trigger point therapy, strain-and-counterstrain therapy and neuromuscular release). The massage device comprises a body, wherein the body may include branches, each having flat surfaces, edges, ridges or corners. The surfaces, edges and ridges may be pushed along the myofilament direction of the soft tissues to produce pressing, rubbing, stretching and pulling actions on the soft tissues as stripping massages. The system can be configured to form different geometric shapes, and made of different materials of different firmness. The system can be further configured to perform unheated, or heated massages; and cooling treatments. In addition to being used alone, the system can be mounted on a piece of wall, a standing frame, furniture or a garment. Stationary Massage Device, System and Methods for Soft Tissue Strain Release 20190029908 · 2019-01-31 · Jason T. Su Disclosed are stationary massage device, system and methods for self-administrated or assisted soft tissue strain release (including trigger point therapy, strain-and-counterstrain therapy and neuromuscular release). The massage device comprises a body, wherein the body may include branches, each having flat surfaces, edges, ridges or corners. The surfaces, edges and ridges may be pushed along the myofilament direction of the soft tissues to produce pressing, rubbing, stretching and pulling actions on the soft tissues as stripping massages. The system can be configured to form different geometric shapes, and made of different materials of different firmness. The system can be further configured to perform unheated, or heated massages; and cooling treatments. In addition to being used alone, the system can be mounted on a piece of wall, a standing frame, furniture or a garment. MOLDABLE HEATER WITH MINIATURE HARMONIC RESONANCE FREQUENCY VIBRATION GENERATOR FOR OPTHALMIC EYELID THERAPY 20190029878 · 2019-01-31 · EYEDETEC MEDICAL, INC. · Barry J. Linder, Ronald D. Linder, James L. Dippo, Rubin D. Linder, JOHN A. SCHOLL Embodiments provide a moldable warming device. The moldable warming device includes a heating disc, a harmonic resonance frequency stimulation vibration generator (RFSVG), a coupling device, a mask, and a sensor array. The mask is configured to hold the heating disc, the RFSVG, and the coupling device for use in parallel utility. The sensor array is configured to determine tuning parameters of a vibration and heating profile of a user's individual eyelid and periorbital three-dimensional anatomy and surface topography. The moldable warming device is configured to provide an entire eyelid surface and periorbital structures with therapeutic warmth and tuned harmonic resonance frequency stimulation vibration to mobilize Meibom lipids and stimulate flow of the mobilized Meibom lipids from the user's Meibomian glands. MOLDABLE HEATER WITH MINIATURE HARMONIC RESONANCE FREQUENCY VIBRATION GENERATOR FOR OPTHALMIC EYELID THERAPY 20190029878 · 2019-01-31 · EYEDETEC MEDICAL, INC. · Barry J. Linder, Ronald D. Linder, James L. Dippo, Rubin D. Linder, JOHN A. SCHOLL Embodiments provide a moldable warming device. The moldable warming device includes a heating disc, a harmonic resonance frequency stimulation vibration generator (RFSVG), a coupling device, a mask, and a sensor array. The mask is configured to hold the heating disc, the RFSVG, and the coupling device for use in parallel utility. The sensor array is configured to determine tuning parameters of a vibration and heating profile of a user's individual eyelid and periorbital three-dimensional anatomy and surface topography. The moldable warming device is configured to provide an entire eyelid surface and periorbital structures with therapeutic warmth and tuned harmonic resonance frequency stimulation vibration to mobilize Meibom lipids and stimulate flow of the mobilized Meibom lipids from the user's Meibomian glands. Devices and Methods for Treating Epistaxis 20190029880 · 2019-01-31 · Brian R. DuBois An exemplary medical apparatus includes a heated nasal insert, where the nasal insert is configured to heat tissue to be treated to a temperature in the range of substantially 46 C. to substantially 52 C. in use. An exemplary medical method for inducing hemostasis in tissue of a patient includes possessing a nasal insert; apposing the nasal insert to tissue of a patent; heating said nasal insert to a temperature that causes tissue of a patient to be heated to a temperature in the range of substantially 46 C. to substantially 52 C.; and maintaining the tissue of a patent treaded by said nasal insert within a temperature range of substantially 46 C. to substantially 52 C. Exothermic therapeutic natural massage shells 10188549 · 2019-01-29 · FOREVER YOUNG INTERNATIONAL, INC. · Daniel Young An exothermic natural massage shell includes a natural bivalve shell comprising a first half and a second half adhered together with an adhesive to form a hollow chamber. An aperture is formed in the first half to provide a portal to the hollow chamber of the bivalve shell. A reactant is disposed inside the hollow chamber of the bivalve shell. The reactant may be a reactive powder mixture disposed inside a fluid-permeable pouch. Combining the reactant with an activator inside the hollow chamber of the bivalve shell causes an exothermic reaction that heats the bivalve shell and maintains the bivalve shell at a substantially constant elevated temperature for a duration of time. The adhesive adhering the first shell half to the second shell half includes a first elastomeric polymer bonding agent with balanced coefficient of expansion properties and a second flexible resin sealant that makes the adhesive moisture-proof. $