Proteinuria

Proteinuria is the presence of excess proteins in the urine. In healthy persons, urine contains very little protein; an excess is suggestive of illness. Excess protein in the urine often causes the urine to become foamy (although this symptom may also be caused by other conditions). Severe proteinuria can cause nephrotic syndrome in which there is worsening swelling of the body.

Proteinuria
Various test tubes of urine
Pronunciation
  • /ˌprtˈnjʊəriə/
SpecialtyNephrology
ComplicationsProtein toxicity

Signs and symptoms

Proteinuria often causes no symptoms and it may only be discovered incidentally.

Foamy urine is considered a cardinal sign of proteinuria, but only a third of people with foamy urine have proteinuria as the underlying cause.[1] It may also be caused by bilirubin in the urine (bilirubinuria),[2] retrograde ejaculation, pneumaturia (air bubbles in the urine) due to a fistula,[3] or drugs such as pyridium.[2]

Causes

There are three main mechanisms to cause proteinuria:

Proteinuria can also be caused by certain biological agents, such as bevacizumab (Avastin) used in cancer treatment. Excessive fluid intake (drinking in excess of 4 litres of water per day) is another cause.[4][5]

Proteinuria may be a sign of renal (kidney) damage. Since serum proteins are readily reabsorbed from urine, the presence of excess protein indicates either an insufficiency of absorption or impaired filtration. People with diabetes may have damaged nephrons and develop proteinuria. The most common cause of proteinuria is diabetes, and in any person with proteinuria and diabetes, the cause of the underlying proteinuria should be separated into two categories: diabetic proteinuria versus the field.

With severe proteinuria, general hypoproteinemia can develop which results in diminished oncotic pressure. Symptoms of diminished oncotic pressure may include ascites, edema and hydrothorax.

Conditions with proteinuria

Proteinuria may be a feature of the following conditions:[6]

Bence–Jones proteinuria

Pathophysiology

Protein is the building block of all living organisms.[12] When kidneys are functioning properly by filtering the blood, they distinguish the proteins from the wastes which were previously present together in the blood.[12] Thereafter, kidneys retain or reabsorb the filtered proteins and return them to the circulating blood while removing wastes by excreting them in the urine.[12] Whenever the kidney is compromised, their ability to filter the blood by differentiating protein from the waste, or retaining the filtered protein then returning which back to the body, is damaged.[12] As a result, there is a significant amount of protein to be discharged along with waste in the urine that makes the concentration of proteins in urine high enough to be detected by medical machine.[12]

Medical testing equipment has improved over time, and as a result tests are better able to detect smaller quantities of protein.[12] Protein in urine is considered normal as long as the value remains within the normal reference range.[12] Variation exists between healthy patients, and it is generally considered harmless for the kidney to fail to retain a few proteins in the blood, letting those protein discharge from the body through urine.[12]

Albumin and immunoglobins

Albumin is a protein produced by the liver which makes up roughly 50%-60% of the proteins in the blood while the other 40%-50% are proteins other than albumin, such as immunoglobins.[13][12] This is why the concentration of albumin in the urine is one of the single sensitive indicators of kidney disease, particularly for those with diabetes or hypertension, compared to routine proteinuria examination.[12]

As the loss of proteins from the body progresses, the suffering will gradually become symptomatic.[12]

The exception applies to the scenario when there's an overproduction of proteins in the body, in which the kidney is not to blame.[12]

Diagnosis

Protein dipstick grading
DesignationApprox. amount
Concentration[14]Daily[15]
Trace5–20 mg/dL
1+30 mg/dLLess than 0.5 g/day
2+100 mg/dL0.5–1 g/day
3+300 mg/dL1–2 g/day
4+More than 1000 mg/dLMore than 2 g/day

Conventionally, proteinuria is diagnosed by a simple dipstick test, although it is possible for the test to give a false negative reading,[16] even with nephrotic range proteinuria if the urine is dilute. False negatives may also occur if the protein in the urine is composed mainly of globulins or Bence Jones proteins because the reagent on the test strips, bromophenol blue, is highly specific for albumin.[6][17] Traditionally, dipstick protein tests would be quantified by measuring the total quantity of protein in a 24-hour urine collection test, and abnormal globulins by specific requests for protein electrophoresis.[2][18] Trace results may be produced in response to excretion of Tamm–Horsfall mucoprotein.

More recently developed technology detects human serum albumin (HSA) through the use of liquid crystals (LCs). The presence of HSA molecules disrupts the LCs supported on the AHSA-decorated slides thereby producing bright optical signals which are easily distinguishable. Using this assay, concentrations of HSA as low as 15 µg/mL can be detected.[19]

Alternatively, the concentration of protein in the urine may be compared to the creatinine level in a spot urine sample. This is termed the protein/creatinine ratio. The 2005 UK Chronic Kidney Disease guidelines state that protein/creatinine ratio is a better test than 24-hour urinary protein measurement. Proteinuria is defined as a protein/creatinine ratio greater than 45 mg/mmol (which is equivalent to albumin/creatinine ratio of greater than 30 mg/mmol or approximately 300 mg/g) with very high levels of proteinuria having a ratio greater than 100 mg/mmol.[20]

Protein dipstick measurements should not be confused with the amount of protein detected on a test for microalbuminuria which denotes values for protein for urine in mg/day versus urine protein dipstick values which denote values for protein in mg/dL. That is, there is a basal level of proteinuria that can occur below 30 mg/day which is considered non-pathology. Values between 30 and 300 mg/day are termed microalbuminuria which is considered pathologic.[21] Urine protein lab values for microalbumin of >30 mg/day correspond to a detection level within the "trace" to "1+" range of a urine dipstick protein assay. Therefore, positive indication of any protein detected on a urine dipstick assay obviates any need to perform a urine microalbumin test as the upper limit for microalbuminuria has already been exceeded.[22]

Analysis

It is possible to analyze urine samples in determining albumin, hemoglobin and myoglobin with an optimized MEKC method.[23]

Treatment

Treating proteinuria mainly needs proper diagnosis of the cause. The most common cause is diabetic nephropathy; in this case, proper glycemic control may slow the progression. Medical management consists of angiotensin converting enzyme (ACE) inhibitors, which are typically first-line therapy for proteinuria. In patients whose proteinuria is not controlled with ACE inhibitors, the addition of an aldosterone antagonist (i.e., spironolactone)[24] or angiotensin receptor blocker (ARB)[25] may further reduce protein loss. Caution must be used if these agents are added to ACE inhibitor therapy due to the risk of hyperkalemia. Proteinuria secondary to autoimmune disease should be treated with steroids or steroid-sparing agent plus the use of ACE inhibitors.

See also

References

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  2. Friedlander, Ed (1 January 2016). "URINALYSIS". pathguy.com. Archived from the original on 16 August 2006.
  3. "Pneumaturia". GPnotebook. Retrieved 2007-01-20
  4. Clark WF, Kortas C, Suri RS, Moist LM, Salvadori M, Weir MA, Garg AX (2008). "Excessive fluid intake as a novel cause of proteinuria". Canadian Medical Association Journal. 178 (2): 173–175. doi:10.1503/cmaj.070792. PMC 2175005. PMID 18195291.
  5. "Drinking too much water called latest threat to health". Montreal Gazette. January 2008. Archived from the original on 2012-02-14.
  6. Simerville JA, Maxted WC, Pahira JJ (2005). "Urinalysis: a comprehensive review". American Family Physician. 71 (6): 1153–62. PMID 15791892. Archived from the original on 2005-06-02.
  7. Dettmeyer RB, Preuss J, Wollersen H, Madea B (2005). "Heroin-associated nephropathy". Expert Opinion on Drug Safety. 4 (1): 19–28. doi:10.1517/14740338.4.1.19. PMID 15709895. S2CID 11646280.
  8. Naesens (2015). "Proteinuria as a Noninvasive Marker for Renal Allograft Histology and Failure: An Observational Cohort Study". J Am Soc Nephrol. 27 (1): 281–92. doi:10.1681/ASN.2015010062. PMC 4696583. PMID 26152270.
  9. Chou JY, Matern D, Mansfield BC, Chen YT (2002). "Type 1 Glycogen Storage Diseases: Disorders of the Glucose-6-Phosphatase Complex". Current Molecular Medicine. 2 (2): 121–143. doi:10.2174/1566524024605798. PMID 11949931.
  10. Fernando, B.S. (June 14, 2008). "A Doctor's Perspective". BMJ. 336 (7657): 1374–6. doi:10.1136/bmj.a277. PMC 2427141. PMID 18556321.
  11. Chapman, A.B.; Johnson, A.M.; Gabow, P.A.; Schrier, R.W. (December 1, 1994). "Overt proteinuria and microalbuminuria in autosomal dominant polycystic kidney disease". Journal of the American Society of Nephrology. 5 (6): 1349–1354. doi:10.1681/ASN.V561349. PMID 7894001. Archived from the original on May 15, 2018.
  12. "Urine Protein". Lab Tests Online. Retrieved 2019-05-21.
  13. "Globulin". Lab Tests Online. Retrieved 2019-05-22.
  14. eMedicine > Proteinuria Archived 2010-07-29 at the Wayback Machine Author: Ronald J Kallen. Coauthor: Watson C Arnold. Updated: Apr 21, 2008
  15. Ivanyi B, Kemeny E, Szederkenyi E, Marofka F, Szenohradszky P (December 2001). "The value of electron microscopy in the diagnosis of chronic renal allograft rejection". Mod. Pathol. 14 (12): 1200–8. doi:10.1038/modpathol.3880461. PMID 11743041.
  16. Simerville JA, Maxted WC, and Pahira JJ. Urinalysis: A Comprehensive Review Archived 2012-02-05 at the Wayback Machine Am Fam Physician. 2005 Mar 15;71(6):1153–1162. Accessed 2 Feb 2012.
  17. "Urinalysis". Archived from the original on 2006-08-10. Retrieved 2006-08-06. Retrieved 2007-01-20
  18. "Answers - the Most Trusted Place for Answering Life's Questions". Answers.com. Archived from the original on 2007-02-12. Retrieved 2006-08-06. Retrieved 2007-01-20
  19. Aliño VJ, Yang KL (2011). "Using liquid crystals as a readout system in urinary albumin assays". Analyst. 136 (16): 3307–13. Bibcode:2011Ana...136.3307A. doi:10.1039/c1an15143f. PMID 21709868. S2CID 42893096.
  20. "Identification, management and referral of adults with chronic kidney disease: concise guidelines" (PDF). UK Renal Association. 2005-09-27. Archived from the original (PDF) on 2013-02-19. – see Guideline 4 Confirmation of proteinuria, on page 9
  21. Meyer NL, Mercer BM, Friedman SA, Sibai BM (Jan 1994). "Urinary dipstick protein: a poor predictor of absent or severe proteinuria". Am J Obstet Gynecol. 170 (1 Pt 1): 137–41. doi:10.1016/s0002-9378(94)70398-1. PMID 8296815.
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  23. Kočevar Glavač N, Injac R, Kreft S (2009). "Optimization and Validation of a Capillary MEKC Method for Determination of Proteins in Urine". Chromatographia. 70 (9–10): 1473–1478. doi:10.1365/s10337-009-1317-3. S2CID 93939634.
  24. Mehdi UF, Adams-Huet B, Raskin P, Vega GL, Toto RD (2009). "Addition of angiotensin receptor blockade or mineralocorticoid antagonism to maximum angiotensin-converting enzyme inhibition in diabetic nephropathy". J Am Soc Nephrol. 20 (12): 2641–50. doi:10.1681/ASN.2009070737. PMC 2794224. PMID 19926893.
  25. Burgess E, Muirhead N, Rene de Cotret P, Chiu A, Pichette V, Tobe S (2009). "Supramaximal dose of candesartan in proteinuric renal disease". J Am Soc Nephrol. 20 (4): 893–900. doi:10.1681/ASN.2008040416. PMC 2663827. PMID 19211712.
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