Abstract: The present invention describes a method for predicting a health-state indicative of the presence of ovarian cancer (OC). The method measures the intensities of specific small organic molecules, called metabolites, in a blood sample from a patient with an undetermined health-state, and compares these intensities to those observed in a population of healthy individuals and/or to the intensities previously observed in a population of confirmed ovarian cancer-positive individuals. Specifically, the present invention relates to the diagnosis of OC through the measurement of vitamin E isoforms and related metabolites. The method enables a practitioner to determine the probability that a screened patient is positive or at risk for ovarian cancer.

Abstract: The present invention describes a method for predicting a health-state indicative of the presence of ovarian cancer (OC). The method measures the intensities of specific small organic molecules, called metabolites, in a blood sample from a patient with an undetermined health-state, and compares these intensities to those observed in a population of healthy individuals and/or to the intensities previously observed in a population of confirmed ovarian cancer-positive individuals. Specifically, the present invention relates to the diagnosis of OC through the measurement of vitamin E isoforms and related metabolites. The method enables a practitioner to determine the probability that a screened patient is positive or at risk for ovarian cancer.

Abstract: The present invention describes a method for predicting a health-state indicative of the presence of prostate cancer. The method measures the intensities of specific small biochemicals, called metabolites, in a blood sample from a patient with an undetermined health-state, and compares these intensities to the intensities observed in a population of healthy individuals and/or to the intensities previously observed in a population of confirmed prostate cancer-positive individuals. The method enables a practitioner to determine the probability that a screened patient is positive for prostate cancer.

Abstract: The present invention describes a method for predicting a health-state indicative of the presence of ovarian cancer (OC). The method measures the intensities of specific small organic molecules, called metabolites, in a blood sample from a patient with an undetermined health-state, and compares these intensities to those observed in a population of healthy individuals and/or to the intensities previously observed in a population of confirmed ovarian cancer-positive individuals. Specifically, the present invention relates to the diagnosis of OC through the measurement of vitamin E isoforms and related metabolites. The method enables a practitioner to determine the probability that a screened patient is positive or at risk for ovarian cancer.

Abstract: The present invention describes a method for predicting a health-state indicative of the presence of prostate cancer. The method measures the intensities of specific small biochemicals, called metabolites, in a blood sample from a patient with an undetermined health-state, and compares these intensities to the intensities observed in a population of healthy individuals and/or to the intensities previously observed in a population of confirmed prostate cancer-positive individuals. The method enables a practitioner to determine the probability that a screened patient is positive for prostate cancer.

Abstract: The application of the Fireaqua Screen is for decoration only. When applied it adds a feature to the fireplace to look at just like adding a mantle. The application method is getting/ordering a screen that is the rite dimensions. When installing you will remove any doors you have and screw the fountain in the opening of the current firebox. Doors may then be reapplied if desired.

Abstract: The use of Baking Soda as a vehicle for cleaning stain and surface dirt or discoloration from masonry surfaces such as brick, stone, etc. The method is high pressure spray of the dry Baking Soda particles. As the particles come in contact with the masonry surface the stains are abraded off leaving a fresh masonry surface. The method is similar to sand blasting in concept. The difference is that the Baking Soda while strong enough to remove surface grime is far softer than the surface of the masonry. This allows a very efficient method of cleaning without the typical surface damage and subsequent shortened life expectancy associated with sand blasting or bead blasting.