Anita M.
Anita M. Gilgenbach, Neenah, WI US
Patent application number | Description | Published |
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20120035563 | Absorbent Articles with Intricate Graphics - Absorbent articles are disclosed that have been printed with active graphics alone or in combination with permanent graphics to create a wetness indicator. Different active graphic compositions and/or permanent graphic compositions are combined so as to make the wetness indicator very prominent on the article. In addition, when the absorbent article is wetted, the active graphics undergo a change that is easily noticed by the wearer or the caregiver for the wearer. In one embodiment, for instance, active graphics are positioned within a distinctive frame. The frame focuses a person's attention onto the active graphics. The active graphics fill most of the surface area of the frame such that when the absorbent article is wetted, a clearly noticeable change occurs. | 02-09-2012 |
Anita M. Mahadevan-Jansen, Nashville, TN US
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20100145200 | SPATIALLY OFFSET RAMAN SPECTROSCOPY OF LAYERED SOFT TISSUES AND APPLICATIONS OF SAME - The present invention in one aspect relates to a method for surgical margin evaluation of tissues during breast conserving therapy at a surgical site of interest. In one embodiment, the method comprises the steps of acquiring a plurality of spatially offset Raman spectra from the surgical site of interest, identifying tissue signatures from the plurality of spatially offset Raman spectra, and determining surgical margins of the surgical site from the identified tissue signatures. | 06-10-2010 |
Anita M. Mcmiller, Kenosha, WI US
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20090089099 | METHODS FOR TRACKING BAGS OF BLOOD AND BLOOD PRODUCTS - The invention involves a method for tracking bags containing biological fluids for dispensing within a human body, including, but not limited to human blood and plasma. The method comprises the steps of: obtaining a bag configured and arranged for sterile, aseptic, and stable retention of biological fluids; placing a quantity of the biological fluids into the bag; providing a first information-processing device with a data-input device and with a data-transfer device, said data-transfer device capable of writing data that has been input into the information-processing device, into a data-storage chip in a manner readable by a second information-processing device; affixing to the bag a readable/writeable data-storage chip; collecting fluid-data about the biological fluid; and inputting data, such as the fluid-data, into the first information-processing device for data transfer onto the chip. The readable/writeable data-storage chip is capable of interfacing with the first and second information-processing devices. The first information-processing device can write data to the data-storage chip and the second information-processing device can read of the data on the chip. | 04-02-2009 |
Anita M. Wiederholt, Sheffield Village, OH US
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20120152480 | NANO-ENGINEERED ULTRA-CONDUCTIVE NANOCOMPOSITE COPPER WIRE - Nano-composite structures are formed by pre-loading carbon nanotubes (CNTs) into at least one of a plurality of channels running the length of a cartridge, placing the pre-loaded cartridge in a piston chamber of a die-casting machine, creating a vacuum therein, and filing the piston chamber with molten metal to soak the pre-loaded cartridge and fill empty cartridge channels. Pressure is applied via the piston to eject the carbon nanotubes and molten metal from the cartridge channels and inject the nano-composite mixture into a rod-shaped die cavity. The internal diameter of the cavity is equal to or less than the final diameter of the nozzle. The nano-composite mixture is cooled to form a solid nano-composite rod having the first predetermined diameter, wherein the carbon nanotubes are aligned in a non-random manner. Furthermore, drawing down the nano-composite rod to smaller diameter wire further disperses the nanotubes along the length of the wire. | 06-21-2012 |