miércoles, 21 de agosto de 2019

Diabetes Discovery Leaves Doctors Speechless (Try This Tonight)



The Key To Reversing Diabetes Is In Your Refrigerator...But It’s NOT Food




IT WAS THERE THAT I FOUND HOPE.

And not just hope - but scientific studies that one person said were deliberately covered up by big pharmaceutical companies to hide the truth about diabetes treatment...


THE RESEARCH SHOWED THAT THE TYPICAL UNDERSTANDING OF WHAT CAUSES DIABETES IS WAY OFF.

That sugar and insulin production are not the root problem, but rather its what the insulin makes your blood DO to your body that causes the issues.

According to this new information, the sugar and INSULIN IN THE BLOOD WERE ACTUALLY CORRODING THE ORGANS INSIDE MY WIFE. This corrosion happens to the organs much LIKE AN OLD BOX OF SCREWS RUSTS over time.

In other words, diabetes is burning her insides from the inside out.

















production of all metals and alloys and non-metallic or composite materials. Microstructural quantification is performed on a prepared, two-dimensional plane through the three-dimensional part or component. Measurements may involve simple metrology techniques, e.g., the measurement of the thickness of a surface coating, or the apparent diameter of a discrete second-phase particle, (for example, spheroidal graphite in ductile iron). Measurement may also require application of stereology to assess matrix and second-phase structures. Stereology is the field of taking 0-, 1- or 2-dimensional measurements on the two-dimensional sectioning plane and estimating the amount, size, shape or distribution of the microstructure in three dimensions. These measurements may be made using manual procedures with the aid of templates overlaying the microstructure, or with automated image analyzers. In all cases, adequate sampling must be made to obtain a proper statistical basis for the measurement. Efforts to eliminate bias are required. An image of the microstructures of ductile cast iron Some of the most basic measurements include determination of the volume fraction of a phase or constituent, measurement of the grain size in polycrystalline metals and alloys, measurement of the size and size distribution of particles, assessment of the shape of particles, and spacing between particles. Standards organizations, including ASTM International's Committee E-4 on Metallography and some other national and international organizations, have developed standard test methods describing how to characterize microstructures quantitatively. For example, the amount of a phase or constituent, that is, its volume fraction, is defined in ASTM E 562; manual grain size measurements are described in ASTM E 112 (equiaxed grain structures with a single size distribution) and E 1182 (specimens with a bi-modal grain size distribution); while ASTM E 1382 describes how any grain size type or condition can be measured using image analysis methods. Characterization of nonmetallic inclusions using standard charts is described in ASTM E 45 (historically, E 45 covered only manual chart methods and an image analysis method for making such chart measurements was described in ASTM E 1122. The image analysis methods are currently being incorporated into E 45). A stereological method for characterizing discrete second-phase particles, such as nonmetallic inclusions, carbides, graphite, etc., is presented in ASTM E 1245

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