Glucose in the urine

Glucose filtered into the primary urine from the plasma is reabsorbed in the proximal tubules by active transport. The organism protects glucose from unnecessary losses, which is why the kidney tubules have a considerable reserve capacity - under physiological circumstances, the transport system is only about one-third loaded. With hyperglycemia, the use of the transport system increases, and if the blood glucose exceeds values of around 10 mmol/l (the so-called renal threshold for glucose), the capacity of tubular resorption is exceeded and glucose passes into the urine. Urine glucose losses greater than 0.72 mmol/24 hours are referred to as ``glycosuria (``glucosuria). Glycosuria is the most common finding leading to the discovery of diabetes mellitus. However, a negative finding of glucose in the urine does not rule out this disease. Therefore, the determination of glucose in urine is not one of the basic biochemical parameters used for the diagnosis and monitoring of DM.

The finding of glycosuria must be evaluated together with the level of fasting blood glucose. Based on glycemia, we distinguish:


 * "Hyperglycemic glycosuria", which is a typical finding in diabetes mellitus. However, with prolonged illness, the renal threshold for glucose increases and glycosuria may even disappear. Therefore, it is only an orientation examination, on the basis of which DM therapy cannot be managed. The so-called "alimentary glycosuria" can also temporarily occur as a result of a diet rich in carbohydrates or during oGTT.
 * Normoglycemic renal glycosuria' in which the concentration of glucose in the blood is not elevated. It is the result of a disorder of the renal tubular cells, which ensure the reabsorption of glucose. It can be a manifestation of an autosomal recessive disease, it occurs more often, for example, with toxic or inflammatory kidney damage affecting the function of the proximal tubule.

Methods for determination of glycosuria
Non-specific chemical reactions or test strips' can be used to determine glycosuria.

Non-specific chemical reactions are based on the reducing properties of monosaccharides'. The FehlingBenedict assay utilizes the non-specific reduction of the CuII+ chelate complex with citrate or tartrate to Cu1+. In the Nylander test, in the presence of reducing agents, bismuth nitrate-oxide BiNO3(O) is reduced to black metallic bismuth. These reactions are positive not only for glucose, but also for other reducing saccharides, or substances with reducing properties (eg ascorbic acid). The examined urine must not contain proteins.

Urine glucose determination with diagnostic strip
Positive glycosuria is an urgent indication for a fasting blood glucose test.