Manganiello
Anthony J. Manganiello, Pen Argyl, PA US
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20150346969 | INTERACTIVE MEDIA OBJECT DEVELOPMENT SYSTEM AND METHOD - Systems and methods are described herein that enable a user (e.g., a developer) to develop an interactive media object. The interactive media object may be suitable for embedding in a digital book, a web page, or other application. A user may be provided with a graphical user interface that enables a user to add one or more components to the interactive media object. For example, a user may be enabled to provide a background image. The user may be further enabled to insert a foreground image and/or one or more overlay(s) (i.e., an image that can be toggled on or off by the user) over the background image. The user may further be able to insert “hotspots” and/or filmstrips over the background image, foreground image, and/or the overlay(s). A bundler may be provided that assembles the one or more components into the interactive media object. | 12-03-2015 |
Frank Manganiello, Centreville, MA US
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20100270322 | FLOW CONTROL ELEMENT FOR USE WITH LEAK-PROOF CUP ASSEMBLIES - There is provided a flow control element for use with a drinking cup cap having a first mating member in fluid communication with a spout aperture. The flow control element has a first stack and a first valve. The first stack has an upper portion that can be positioned to be removably sealed in or with the cap. The first valve is defined in a sidewall of the first stack and is configured to provide selective fluid communication with the spout aperture. | 10-28-2010 |
Mark Manganiello, Everett, MA US
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20080283040 | High efficiency atmospheric steamer - A pressureless or atmospheric steamer for cooking food with a high cooking efficiency has a cooking compartment with an outlet for steam and condensate that feeds to a tempering tank via an outlet conduit. The outlet conduit is spaced closely from the controlled water level in the tempering tank, and is in fluid communication with the atmospheric vent to create an open steam cooker. A steam generator is adjacent the cooking compartment and has a water reservoir, a heat exchanger secured within the reservoir in a heat-transferring relationship at an exterior surface of the heat exchanger with the water held in the reservoir, and a heater that supplies heat to the interior of the heat exchanger. The tempering tank has a drain and level controls for a water supply held in the tempering tank. A pressure-sensitive device is disposed to measure the steam pressure in the cooking compartment and to generate electrical output signals indicative of minimum and maximum pressure values to control the operation of the heater to maintain the steam pressure in the cooking compartment within that operating range. The steamer has an in-built water filtration system for water supplied to the water reservoir. | 11-20-2008 |
Matthew Manganiello, Seattle, WA US
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20140235790 | CARBOHYDRATE-BASED COMPOSITIONS AND METHODS FOR TARGETED DRUG DELIVERY - Provided herein are compositions and methods for intracellular delivery. The compositions are polymer compositions in which the polymer serves as a carrier for therapeutic and/or diagnostic agents. The polymer compositions are effective in targeted delivery of therapeutic and/or diagnostic agents to a cell. The polymer compositions include a targeting moiety that includes carbohydrate groups that effectively target specific cell surface receptors. The polymer compositions also include an agent binding moiety that effectively associates the therapeutic and/or diagnostic agent to be delivered to the cell. | 08-21-2014 |
Paul D. Manganiello, Norwich, VT US
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20130123613 | Magnetic Particle Heating System And Method For Occlusion Of The Fallopian Tube - In a magnetic particle heating method for occlusion of the Fallopian tubes, biocompatible magnetic particles are delivered transcervically to the entrance of the Fallopian tube. Placement of the particles (e.g., magnetic nanoparticles) in the Fallopian tube is confirmed, and a coil is positioned about or proximate the patient's abdomen. Alternating current is applied to the coil to couple magnetic energy into the nanoparticles, heating the nanoparticles and causing thermal injury to the Fallopian tube. Temperature within the Fallopian tube may be monitored during heating, to prevent overheating, or alternating current may be applied for a predetermined treatment time, with or without temperature monitoring. Each Fallopian tube may be treated with nanoparticles and the two tubes heated simultaneously, or the tubes may be sequentially treated and heated. Treatment may be visualized via in-office hysteroscope, fluoroscopy or ultrasound. Thermal injury to the Fallopian tube mucosa occludes the tube and completes sterilization. | 05-16-2013 |