Patent application number | Description | Published |
20090071062 | METHOD FOR REMOVING OR TREATING HARMFUL BIOLOGICAL AND CHEMICAL SUBSTANCES WITHIN STRUCTURES AND ENCLOSURES - A process for removing or treating harmful biological and chemical substances from an enclosure, such as a building or vehicle by using heated air. The method of the present invention is non-toxic and can be performed in a relatively short amount of time while effectively killing and removing a large proportion of dead organisms and substantially reducing volatile organic compounds. | 03-19-2009 |
20110064605 | METHOD FOR TREATING AN OBJECT CONTAMINATED WITH HARMFUL BIOLOGICAL ORGANISMS OR CHEMICAL SUBSTANCES UTILIZING ELECTROMAGNETIC WAVES - The present invention relates to methods of sanitizing structures, buildings, passenger occupiable vehicles, and other enclosed or enclosable spaces. More particularly, the present invention relates to a method for killing and/or removing pests and their allergens, bacteria, viruses, fungi, molds, volatile organic compounds and other dangerous substances, from such objects or enclosures. | 03-17-2011 |
20110064607 | METHOD FOR REMOVING OR TREATING HARMFUL BIOLOGICAL ORGANISMS AND CHEMICAL SUBSTANCES - The present invention relates to methods of sanitizing structures, buildings, passenger occupiable vehicles, and other enclosed or enclosable spaces. More particularly, the present invention relates to a method for killing and/or removing pests and their allergens, bacteria, viruses, fungi, molds, volatile organic compounds and other dangerous substances, from such objects or enclosures. | 03-17-2011 |
20110219665 | METHOD FOR REMOVING OR TREATING HARMFUL BIOLOGICAL AND CHEMICAL SUBSTANCES WITHIN STRUCTURES AND ENCLOSURES - A process for removing or treating harmful biological and chemical substances from an enclosure, such as a building or vehicle by using heated air. The method of the present invention is non-toxic and can be performed in a relatively short amount of time while effectively killing and removing a large proportion of dead organisms and substantially reducing volatile organic compounds. | 09-15-2011 |
Patent application number | Description | Published |
20110087076 | FEEDBACK SYSTEMS AND METHODS FOR COMMUNICATING DIAGNOSTIC AND/OR TREATMENT SIGNALS TO ENHANCE OBESITY TREATMENTS - Feedback systems and methods communicate implanted sensor-based feedback signals to promote behavior modifications that ameliorate obesity and other eating disorders. The system and methods described may also be applicable to any treatment in which presenting feedback regarding patients' eating and exercise habits is desired. The present invention provides a method and system for treating a patient by collecting ingestion and exercise information about the patient from an implanted sensor and communicating the collected information to the patient, his or her physician and/or other health care providers. In some embodiments, stimulation of the patient's stomach is also provided to reduce caloric intake. In some embodiments, the collected data is transmitted to a central server. Further embodiments may provide access to additional information in conjunction with the collected patient information, such as a calorie database, an exercise planner, and so forth, with the data optionally being used within a social networking system. | 04-14-2011 |
20120214140 | Feedback Systems and Methods for Communicating Diagnostic and/or Treatment Signals to Enhance Obesity Treatments - Feedback systems and methods communicate implanted sensor-based feedback signals to promote behavior modifications that ameliorate obesity and other eating disorders. The system and methods described may also be applicable to any treatment in which presenting feedback regarding patients' eating and exercise habits is desired. The present invention provides a method and system for treating a patient by collecting ingestion and exercise information about the patient from an implanted sensor and communicating the collected information to the patient, his or her physician and/or other health care providers. In some embodiments, stimulation of the patient's stomach is also provided to reduce caloric intake. In some embodiments, the collected data is transmitted to a central server. Further embodiments may provide access to additional information in conjunction with the collected patient information, such as a calorie database, an exercise planner, and so forth, with the data optionally being used within a social networking system. | 08-23-2012 |
20120316451 | Event Evaluation Using Heart Rate Variation for Ingestion Monitoring and Therapy - Medical, diagnostic, and/or patient monitoring methods, systems and devices enhance ingestion-related health, often by screening and/or treating patients with eating disorders. Optionally, a gastric electric stimulation (GES) therapy system monitors changes in an obese patients' autonomic balance associated with a stimulation event and/or a meal event by analyzing heart rate variability (HRV) of the patient. These event-based changes in autonomic balance may be used to determine which patients will likely respond to GES therapy, and/or to control the GES therapy administration. | 12-13-2012 |
20140295390 | Feedback Systems and Methods for Communicating Diagnostic and/or Treatment Signals to Enhance Obesity Treatments - Feedback systems and methods communicate implanted sensor-based feedback signals to promote behavior modifications that ameliorate obesity and other eating disorders. The system and methods described may also be applicable to any treatment in which presenting feedback regarding patients' eating and exercise habits is desired. The present invention provides a method and system for treating a patient by collecting ingestion and exercise information about the patient from an implanted sensor and communicating the collected information to the patient, his or her physician and/or other health care providers. In some embodiments, stimulation of the patient's stomach is also provided to reduce caloric intake. In some embodiments, the collected data is transmitted to a central server. Further embodiments may provide access to additional information in conjunction with the collected patient information, such as a calorie database, an exercise planner, and so forth, with the data optionally being used within a social networking system. | 10-02-2014 |
Patent application number | Description | Published |
20080260712 | Non-toxic crosslinking reagents to resist curve progression in scoliosis and increase disc permeability - A method of improving the resistance of collagenous tissue to mechanical degradation in accordance with the present invention comprises the step of contacting at least a portion of a collagenous tissue with an effective amount of a crosslinking reagent. Methods and devices for enhancing the body's own efforts to stabilize discs in scoliotic spines by increasing collagen crosslinks. This stability enhancement is caused by reducing the bending hysteresis and increasing the bending stiffness of scoliotic spines, by injecting non-toxic crosslinking reagents into the convex side of discs involved in the scoliotic curve. Alternatively, contact between the tissue and the crosslinking reagent is effected by placement of a time-release delivery system directly into or onto the target tissue. Methods and devices that use crosslinking agents for increasing the permeability of an intervertebral disc, improving fluid flux to the intervertebral disc, and increasing the biological viability of cells within the intervertebral disc are provided. | 10-23-2008 |
20100158887 | DIRECT APPLICATION OF NON-TOXIC CROSSLINKING REAGENTS TO RESIST PROGRESSIVE SPINAL DEGENERATION AND DEFORMITY - A method of treatment of native, non-denatured tissue to increase resistance to tearing, fissuring, rupturing, and/or delamination, comprising the step of: contacting at least a portion of the tissue with an effective amount of a reagent that increases crosslinks in the tissue. | 06-24-2010 |
20100266544 | NON-TOXIC CROSSLINKING REAGENTS TO RESIST CURVE PROGRESSION IN SCOLIOSIS AND INCREASE DISC PERMEABILITY - A method of improving the resistance of collagenous tissue to mechanical degradation in accordance with the present invention comprises the step of contacting at least a portion of a collagenous tissue with an effective amount of a crosslinking reagent. Methods and devices for enhancing the body's own efforts to stabilize discs in scoliotic spines by increasing collagen crosslinks. This stability enhancement is caused by reducing the bending hysteresis and increasing the bending stiffness of scoliotic spines, by injecting non-toxic crosslinking reagents into the convex side of discs involved in the scoliotic curve. Alternatively, contact between the tissue and the crosslinking reagent is effected by placement of a time-release delivery system directly into or onto the target tissue. Methods and devices that use crosslinking agents for increasing the permeability of an intervertebral disc, improving fluid flux to the intervertebral disc, and increasing the biological viability of cells within the intervertebral disc are provided. | 10-21-2010 |