Uremia is the condition of having high levels of urea in the blood. Urea is one of the primary components of urine. It can be defined as an excess in the blood of amino acid and protein metabolism end products, such as urea and creatinine, which would normally be excreted in the urine. Uremic syndrome can be defined as the terminal clinical manifestation of kidney failure (also called renal failure). It is the signs, symptoms and results from laboratory tests which result from inadequate excretory, regulatory, and endocrine function of the kidneys. Both uremia and uremic syndrome have been used interchangeably to denote a very high plasma urea concentration that is the result of renal failure. The symptoms, such as fatigue, can be very vague, making the diagnosis of impaired kidney function difficult. Treatment can be by dialysis or a kidney transplant, though some patients choose to pursue symptom control and conservative care instead. Dialysis increases life span, but patients may have more limited function. They have physical limitations which include impairment of balance, walking speed, and sensory functions. They also have cognitive impairments such as impairment in attention, memory, and performance of higher-order tasks.
Blood tests
Primary tests performed for the diagnosis of uremia are basic metabolic panel with serum calcium and phosphorus to evaluate the GFR, blood urea nitrogen and creatinine as well as serum potassium, phosphate, calcium and sodium levels. The principal abnormality is very low GFR (<30 mL/min). Uremia will demonstrate elevation of both urea and creatinine, likely elevated potassium, high phosphate and normal or slightly high sodium, as well as likely depressed calcium levels. As a basic work up a physician will also evaluate for anemia, and thyroid and parathyroid functions. Chronic anemia may be an ominous sign of established renal failure. The thyroid and parathyroid panels will help work up any symptoms of fatigue, as well as determine calcium abnormalities as they relate to uremia versus longstanding or unrelated illness of calcium metabolism.
Urine tests
A 24-hour urine collection for determination of creatinine clearance may be an alternative, although not a very accurate test due to the collection procedure. Another laboratory test that should be considered is urinalysis with microscopic examination for the presence of protein, casts, blood and pH. Many uremic salts can also be uremic toxins.
Urea was one of the first metabolites identified. Its removal is directly related to patient survival but its effect on the body is not yet clear. Still, it is not certain that the symptoms currently associated with uremia are actually caused by excess urea, as one study showed that uremic symptoms were relieved by initiation of dialysis, even when urea was added to the dialysate to maintain the blood urea nitrogen level at approximately 90 mg per deciliter (that is, approximately 32 mmol per liter).
{| class="wikitable"
|+ Potential uremic toxins
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! Toxin !! Effect !! References
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| Urea || At high concentrations [>300 mg/dL(>50 mmol/L)]: headaches, vomiting, fatigue, carbamylation of proteins ||
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| ρ-cresyl sulfate || Accumulates in and predicts chronic kidney disease || Urea was hypothesized to be the source of urinary ammonia during this time and was confirmed in 1817. It was hypothesized that excess urea may lead to specific disorders. Later in 1821, it was confirmed that the body did produce urea and that it was excreted by the kidneys.
One of the early symptoms of renal failure is uremic fetor. It is an ammonia odour in the mouth caused by the high concentration of urea in the saliva, which subsequently breaks down to ammonia. Salivary swelling can also be seen in some cases. These aspects can be directly discussed with the nephrologist when necessary. Any alterations in drugs or other aspects of treatment must be previously agreed upon by the nephrologist.
Dental examination for such patients consists of a non-invasive complete assessment of dental, periodontal, and mucosal tissues, with radiographs to aid with the diagnostic process. All potential foci of infection should be intercepted; these include periodontal and endodontic lesions, residual roots, partially erupted and malpositioned third molars, peri-implantitis, and mucosal lesions. When periodontitis is suspected, a periodontal chart should be recorded. Orthodontic appliances can be maintained if they do not interfere with oral hygiene.