Tubules Information and Courses from MediaLab, Inc.
These are the MediaLab courses that cover Tubules and links to relevant pages within the course.
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| Clinical Significance In the healthy individual, almost all of the glucose filtered by the renal glomerulus is reabsorbed in the proximal convoluted tubule. The amount of glucose reabsorbed by the proximal tubule is determined by the body's need to maintain a sufficient level of glucose in the blood. If the concentration of blood glucose becomes too high (160-180 mg/dL), the tubules no longer reabsorb glucose, allowing it to pass through into the urine. It is important to note that glucose may appear in the urine of healthy individuals after consuming a meal that is high in glucose. Fasting prior to providing a sample for screening eliminates this problem. | View Page |
| Reabsorption in the kidneys primarily occurs in: | View Page |
| Which of the following methods may be employed to definitively identify Bence-Jones proteins: | View Page |
| What is the primary functional unit of the kidney : | View Page |
| Diseases Associated with Proteinuria Normal urine contains very little protein, usually less than 10mg/dL, and the major serum protein that is found in normal urine is albumin. The presence of an increased amount of protein in the urine (proteinuria) can be an indicator of renal disease. The two mechanisms which can lead to proteinuria are glomerular damage or a defect in the reabsorption process of the tubules in the nephron. The concentration of protein in the urine is not necessarily indicative of the severity of renal disease. | View Page |
| Clostridium septicum RapID ANA The definitive identification of C. septicum can be made using a profile of biochemical reactions, as is contained in the RapID ANA strip (see photograph). The upper set of tubules are reactions before addition of reagents; the bottom set of reactions after reagents are added.The upper set of letter codes is used to read the reactions before addition of reagents; the lower set of labels indicate the tests to read following addition of reagents.Of all the reactions included, only ONPG and NAG in the upper set are positive.The biotype number derived from this profile of reactions, 014000 codes for Clostridium septicum, thus confirming the identification. | View Page |
| Match the complications that are most likely to be associated with each of the two yeast diseases that are listed in the drop-down box: | View Page |
| Formation and Significance of Casts Casts are cylindrical bodies formed either in the distal convoluted tubules or the collecting ducts of the kidney. Since the walls of the tubule act as a mold for cast formation, the width of the tubule determines the width of the cast. Thus, narrow casts are formed in the distal tubules while broad casts are formed in the collecting ducts.
The matrix of all casts is thought to be Tamm-Horsfall protein, a glycoprotein secreted by the distal loop of Henle and the distal tubule. This protein entraps cells and granular material of tubular origin.
Very few casts are seen in the urine of a person without renal disease, except for hyaline casts, which may be transiently present after strenuous exercise, and during fever, diuretic therapy, and congestive heart failure.
A significant number of urinary casts usually indicates the presence of renal disease.
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| Waxy Casts Waxy casts appear as cylinders of smooth, highly refractive material. They are yellow, homogeneous and their ends may be square or broken off. Cracks may occur within the cast, giving it a segmented appearance. Waxy casts are believed by some to be the final stage of degeneration of the fine granules of granular casts. Since the granules need time to degrade, this finding implies localized nephron obstruction. Waxy casts are seen in chronic renal failure, and acute and chronic renal allograft rejection. Unusually broad waxy casts are known as renal failure casts. These very broad casts are created in the dilated tubules seen in end-stage renal disease. | View Page |
| Factors Promoting Cast Formation The following factors promote the formation of casts in the kidney:Larger than normal amounts of plasma proteins entering the tubules,Decreased pH.Decreased urinary flow rate.Increased urine concentrationAfter formation, casts are washed loose from the tubules and discharged into the urine, where they can be found its sediment. | View Page |
| Cellular Casts Cellular casts consists of a Tamm-Horsfall mucoprotein matrix containing red or white blood cells, renal tubular epithelial cells, or a mixture of these cell types.
All cellular casts originate from the distal tubules. The presence of cellular casts is always abnormal. | View Page |
| Renal Tubular Epithelial Cell Another type of epithelial cell is the renal tubular epithelial cell. The proximal and distal convoluted tubules are the sites of origin for one form of these cells. They occur singly and are large (14-60 microns). Papancolaou stain is useful in distinguishing renal tubular cells from other mononuclear cells in urine. Increased numbers of proximal and distal convoluted renal epithelial cells are seen in cases of acute tubular necrosis and certain drug or heavy metal intoxication. | View Page |