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Micrograph showing Michaelis-Gutmann bodies. H&E stain. Michaelis–Gutmann bodies (M-G bodies) are concentrically layered basophilic inclusions found in Hansemann cells in the urinary tract. These are 2 to 10 μm in diameter, and are thought to represent remnants of phagosomes mineralized by iron and calcium deposits. [citation needed]
Micrograph showing the characteristic finding of malakoplakia (Michaelis–Gutmann bodies). H&E stain . Malakoplakia (from Greek Malako "soft" + Plako "plaque") is a rare inflammatory condition which makes its presence known as a papule , plaque or ulceration that usually affects the genitourinary tract .
By this method, body diagrams can be derived by pasting organs into one of the "plain" body images shown below. This method requires a graphics editor that can handle transparent images, in order to avoid white squares around the organs when pasting onto the body image. Pictures of organs are found on the project's main page. These were ...
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Anatomography is an interactive website which supports generating anatomical diagrams and animations of the human body. The Anatomography website is maintained by the DBCLS (Database Center for Life Science) non-profit research institute located at the University of Tokyo.
The following outline is provided as an overview of and topical guide to human anatomy: . Human anatomy is the scientific study of the morphology of the adult human.It is subdivided into gross anatomy and microscopic anatomy.
Templates relating to English variety and date format [5] [a] Infoboxes [b] Language maintenance templates; Images; Navigation header templates (sidebar templates) Article content Lead section (also called the introduction) Table of contents; Body (see below for specialized layout) Appendices [6] [c] Works or publications (for biographies only ...
This is produced by taking the reciprocal of both sides of the Michaelis–Menten equation. As shown on the right, this is a linear form of the Michaelis–Menten equation and produces a straight line with the equation y = mx + c with a y-intercept equivalent to 1/V max and an x-intercept of the graph representing −1/K M.