Gaylor
Anthony Gaylor, Lakeville, MN US
Patent application number | Description | Published |
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20100285180 | DONENESS INDICATOR FOR HEAT-IN PACKAGING AND METHOD OF MAKING SAME - A heat-in package with doneness indicator for heating applications, such as microwave heating of foods or sterilization applications. The doneness indicator comprises indicia printed with thermochromatic ink on the heat-in packaging. The doneness indicator can be sealed from front to back on the heat-in packaging in such a way that the heat transfer to the sealed area is controlled so that the contents contained within the heat-in packaging has adequate time to heat before a color change or other visual transformation is observed in the doneness indicator. Furthermore, the sealed area containing the thermochromatic ink is not in direct contact with the contents within the packaging. The ink changes due to heat conduction through the film. A venting system can further be incorporated to prevent excessive pressure build-up within the packaging. | 11-11-2010 |
Edward Appleton Gaylor, Little Falls, NJ US
Patent application number | Description | Published |
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20150327721 | Marshmallow Toasting Device - My Marshmallow Toasting Device is an invention which deals with the problem of toasting marshmallows over an open fire in an effective, inexpensive manner. The problem is to invent a device that allows several people to use their own personal toasting device over the same fire at the same time; while at the same time the device needs to be lightweight, inexpensive, reusable, and yet be disposable (in part) for easy cleanup. My Marshmallow Toasting Device solves the above problem and basically consists of a lightweight holding rod which is capable of easily accepting a disposable skewer being inserted into one end of it. | 11-19-2015 |
Ian Gaylor, Cambridge GB
Ian Gaylor, Cambridge Cambridgeshire GB
Patent application number | Description | Published |
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20140137898 | Multi-Dosing Device - The invention relates to a detergent dispensing device for an automatic washing machine. In particular the invention relates to a simple multi-dosing device. | 05-22-2014 |
Ian Michael Daines Gaylor, Cambourne GB
Patent application number | Description | Published |
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20090061053 | MICROWAVEABLE PACKAGE FOR FOOD PRODUCTS - A susceptor includes a flexible substrate and a metallic material provided on at least one surface of the substrate. A first plurality of ventilation apertures are formed in the substrate and the metallic material, and the first plurality of ventilation apertures are configured to permit a fluid to pass through the substrate and the metallic material. | 03-05-2009 |
Jeffrey W. Gaylor, Little Genesee, NY US
Patent application number | Description | Published |
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20080245500 | Reversible heat transfer element basket assembly with integrated frame for use in a heat exchanger - A heat exchanger heat transfer element basket assembly ( | 10-09-2008 |
Shari Kay Gaylor, Kalamazoo, MI US
Patent application number | Description | Published |
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20150272980 | Dosing and Administration of Oligonucleotide Cancer Therapies - The present invention relates to cancer therapies, compositions, and methods of using the same. In particular, the present invention provides methods of dosing and administration of cancer therapies comprising the administration of oligomers and liposome formulations of oligomers, wherein the cancer is mediated by the bcl-2 oncogene. In some aspects, the oligomers or liposome formulations of oligomers are administered in combination with one or more other therapeutic agents. | 10-01-2015 |
20150299803 | Methods of Using Biomarkers for the Treatment of Cancer by Modulation of BCL2 Expression - The present invention relates to cancer therapies and methods of using the same. In particular, the present invention provides methods of monitoring and improving the administration of cancer therapies, wherein the cancer is mediated by the BCL2 oncogene, via markers of disease identification, disease progression, drug resistance, and/or treatment efficacy. | 10-22-2015 |
Timothy Gaylor, Plantation, FL US
Patent application number | Description | Published |
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20120297206 | Securing Encrypted Virtual Hard Disks - Securing encrypted virtual hard disks may include a variety of processes. In one example, a virtual hard disk is created for a user and encrypted with a volume key, and the volume key placed in an administrator header. The administrator header may be encrypted with a protection key, the protection key created from a user identifier corresponding to the user, a volume identifier corresponding to the virtual hard disk, and two cryptographic secrets. The protection key may then destroyed after encrypting the administrator header and therefore, might never leave the encryption engine. The two cryptographic secrets may be stored in separate storage locations, one accessible to the user and the other accessible to administrators. Accordingly, the protection key might never transmitted or can be intercepted, and no single entity may be compromised to gain access to all of the information needed to recreate the protection key. | 11-22-2012 |
20140164774 | Encryption-Based Data Access Management - Encryption-based data access management may include a variety of processes. In one example, a device may transmit a user authentication request for decrypting encrypted data to a data storage server storing the encrypted data. The computing device may then receive a validation token associated with the user's authentication request, the validation token indicating that the user is authenticated to a domain. Subsequently, the computing device may transmit the validation token to a first key server different from the data storage server. Then, in response to transmitting the validation token the computing device may receive, from the first key server, a key required for decrypting the encrypted data. The device may then decrypt at least a portion of the encrypted data using the key. | 06-12-2014 |
20140164792 | Securing Encrypted Virtual Hard Disks - Securing encrypted virtual hard disks may include a variety of processes. In one example, a virtual hard disk is created for a user and encrypted with a volume key, and the volume key placed in an administrator header. The administrator header may be encrypted with a protection key, the protection key created from a user identifier corresponding to the user, a volume identifier corresponding to the virtual hard disk, and two cryptographic secrets. The protection key may then destroyed after encrypting the administrator header and therefore, might never leave the encryption engine. The two cryptographic secrets may be stored in separate storage locations, one accessible to the user and the other accessible to administrators. Accordingly, the protection key might never transmitted or can be intercepted, and no single entity may be compromised to gain access to all of the information needed to recreate the protection key. | 06-12-2014 |