Urine: Difference between revisions

Urine (from Latin Urina, ae, f.) is a typically sterile (in the absence of a disease condition)^[1] liquid by-product of the body that is secreted by the kidneys through a process called urination and excreted through the urethra. Cellular metabolism generates numerous by-products, many rich in nitrogen, that require elimination from the bloodstream. These by-products are eventually expelled from the body in a process known as micturition, the primary method for excreting water-soluble chemicals from the body. These chemicals can be detected and analyzed by urinalysis.

Sample of human urine

Physiology

Main article: Renal physiology

Most animals have excretory systems for elimination of soluble toxic wastes. In humans, soluble wastes are excreted primarily by the urinary system and, to a lesser extent in terms of urea removed, by perspiration.^[2] The urinary system consists of the kidneys, ureters, urinary bladder, and urethra. The system produces urine by a process of filtration, reabsorption, and tubular secretion. The kidneys extract the soluble wastes from the bloodstream, as well as excess water, sugars, and a variety of other compounds. The resulting urine contains high concentrations of urea and other substances, including toxins. Urine flows from the kidney through the ureter, bladder, and finally the urethra before passing from the body.

Composition

Exhaustive detailed description of the composition of human urine can be found in NASA Contractor Report No. NASA CR-1802, D. F. Putnam, July 1971.^[3] That report provided detailed chemical analyses for inorganic and organic constituents, methods of analysis, chemical and physical properties and its behavior during concentrative processes such as evaporation, distillation and other physiochemical operations. Urine is an aqueous solution of greater than 95% water, with the remaining constituents, in order of decreasing concentration urea 9.3 g/L, chloride 1.87 g/L, sodium 1.17 g/L, potassium 0.750 g/L, creatinine 0.670 g/L and other dissolved ions, inorganic and organic compounds.

Urine is sterile until it reaches the urethra where the epithelial cells lining the urethra are colonized by facultatively anaerobic Gram negative rods and cocci.^[4] Subsequent to elimination from the body, urine can acquire strong odors due to bacterial action,^{[citation needed]} and in particular the release of asphyxiating ammonia from the breakdown of urea. In medieval times clothes were stored in a garderobe (literally 'to guard ones robes') close to the toilet shaft because this ammonia would kill the fleas.^[5] The term garderobe became a euphemism for toilet for that reason.

Some diseases alter the quantity and consistency of the urine, such as sugar as a consequence of diabetes. Beeturia, which affects some 10–14% of the population, results in the excretion of betanin after eating beets (such as beetroot) resulting urine with a pink/reddish color.^[6] Beeturia can appear and disappear in individuals.^[7]

Hazards

Urine is not toxic.^[8] However, being a waste product, it does contain compounds undesirable to the body and can be irritating to skin and eyes. After suitable processing (as is done, for example, on the International Space Station), it is possible to extract potable water from urine for drinking.

Characteristics

The typical color can range from clear to a dark amber, depending mostly upon the level of hydration of the body, among other factors.

Chemical analysis

Main article: Urinalysis

Urea structure

Urine contains a range of substances that vary with what is introduced into the body. Aside from water, urine contains an assortment of inorganic salts and organic compounds, including proteins, hormones, and a wide range of metabolites.

Green urine during long term infusion of the sedative propofol

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Color

Urine is a transparent solution that can range from colorless to amber but is usually a pale yellow. In the urine of a healthy individual, the color comes primarily from the presence of urobilin. Urobilin in turn is a final waste product resulting from the breakdown of heme from hemoglobin during the destruction of aging blood cells.

Colorless urine indicates over-hydration, which is usually considered much healthier than dehydration (to some extent however over-hydration can remove essential salts from the body). In the context of a drug test, it could indicate a potential attempt to avoid detection of illicit drugs in the bloodstream through over-hydration.^[9]

• Dark yellow urine is often indicative of dehydration.
• Yellowing/light orange may be caused by removal of excess B vitamins from the bloodstream.
• Certain medications such as rifampin and phenazopyridine can cause orange urine.
• Bloody urine is termed hematuria, a symptom of a wide variety of medical conditions
• Dark orange to brown urine can be a symptom of jaundice, rhabdomyolysis, or Gilbert's syndrome.
• Black or dark-colored urine is referred to as melanuria and may be caused by a melanoma.
• Fluorescent yellow / greenish urine may be caused by dietary supplemental vitamins, especially the B vitamins.
• Consumption of beets can cause urine to have a pinkish tint (beeturia), and asparagus consumption can turn urine greenish.
• Reddish or brown urine may be caused by porphyria. Although again, the consumption of beets can cause the urine to have a harmless, temporary pink or reddish tint.

Odor

The smell of urine can be affected by the consumption of food. Eating asparagus is known to cause a strong odor in human urine. This is because of the body's breakdown of asparagusic acid.^[10] Other foods and beverages that contribute to odor include saffron, alcohol, coffee, turkey, and onion. Particularly spicy foods can have a similar effect, as the compounds are not broken down by the kidneys and pass through the body in the urine.^[11][12]

Turbidity

Turbid (cloudy) urine may be a symptom of a bacterial infection, but can also be caused by crystallization of salts such as calcium phosphate.^{[citation needed]}

pH

The pH of urine is close to neutral (7) but can normally vary between 4.6 and 8. In persons with hyperuricosuria, acidic urine can contribute to the formation of stones of uric acid in the kidneys, ureters, or bladder.^[13] Urine pH can be monitored by a physician^[14] or at home.

A diet high in citrus, vegetables, or dairy can increase urine pH (more basic)^{[dubious ]}. Some drugs also can increase urine pH, including acetazolamide, potassium citrate, and sodium bicarbonate.^{[citation needed]}

A diet high in meat can decrease urine pH (more acidic).^{[citation needed]} Cranberries, popularly thought to decrease the pH of urine, have actually been shown not to acidify urine.^[15] Drugs that can decrease urine pH include ammonium chloride, chlorothiazide diuretics, and methenamine mandelate.^[16][17]

Volume

The amount of urine produced depends on numerous factors including level of hydration, activities, environmental factors, weight of individual, and the individual's health. In adult humans the average production is about 1 – 2 L per day. Producing too much or too little urine needs medical attention: Polyuria is a condition of excessive production of urine (> 2.5 L/day), in contrast to oliguria where < 400 mL are produced per day, or anuria with a production of < 100 mL per day.

Density or specific gravity

Normal urine density or specific gravity values vary between 1.003–1.035 (g·cm⁻³) , and any deviations may be associated with urinary disorders.

Urine in medicine

A Doctor Examining Urine. Trophime Bigot.

Examination

Many physicians in history have resorted to the inspection and examination of the urine of their patients. Hermogenes wrote about the color and other attributes of urine as indicators of certain diseases. Abdul Malik Ibn Habib of Andalusia d.862 AD, mentions numerous reports of urine examination throughout the Umayyad empire.^[18] Diabetes mellitus got its name because the urine is plentiful and sweet. A urinalysis is a medical examination of the urine and part of routine examinations. A culture of the urine is performed when a urinary tract infection is suspected. A microscopic examination of the urine may be helpful to identify organic or inorganic substrates and help in the diagnosis.

The color and volume of urine can be reliable indicators of hydration level. Clear and copious urine is generally a sign of adequate hydration, dark urine is a sign of dehydration. The exception occurs when alcohol, caffeine, or other diuretics are consumed, in which case urine can be clear and copious and the person still be dehydrated.

Resource

Urine contains proteins and other substances that are useful for medical therapy and are ingredients in many prescription drugs (e.g., Ureacin, Urecholine, Urowave)^{[citation needed]}. Urine from postmenopausal women is rich in gonadotropins that can yield follicle stimulating hormone and luteinizing hormone for fertility therapy^{[citation needed]}. The first such commercial product was Pergonal^{[citation needed]}. Urine from pregnant women contains enough human chorionic gonadotropins for commercial extraction and purification to produce hCG medication. Pregnant mare urine is the source of estrogens, namely Premarin^{[citation needed]}. Urine also contains antibodies, which can be used in diagnostic antibody tests for a range of pathogens, including HIV-1.^[19]

Other uses

Agriculture

Main article: Fertilizer

Urine contains large quantities of nitrogen (mostly as urea), as well as significant quantities of dissolved phosphates and potassium, the main macronutrients required by plants, with urine having plant macronutrient percentages (i.e. NPK) of approximately 11-1-2 by one study^[20] or 15-1-2 by another report,^[21] illustrating that exact composition varies with diet. Undiluted, it can chemically burn the roots of some plants, but it can be used safely as a source of complementary nitrogen in carbon-rich compost.^[22]

When diluted with water (at a 1:5 ratio for container-grown annual crops with fresh growing medium each season,^[23] or a 1:8 ratio for more general use^[22]), it can be applied directly to soil as a fertilizer. The fertilization effect of urine has been found to be comparable to that of commercial fertilizers with an equivalent NPK rating.^[24] Urine contains most (94% according to Wolgast^[20]) of the NPK nutrients excreted by the human body. Conversely, concentrations of heavy metals such as lead, mercury, and cadmium, commonly found in solid human waste, are much lower in urine (though not low enough to qualify for use in organic agriculture under current EU rules).^[25] The more general limitations to using urine as fertilizer then depend mainly on the potential for buildup of excess nitrogen (due to the high ratio of that macronutrient),^[23] and inorganic salts such as sodium chloride, which are also part of the wastes excreted by the renal system. The degree to which these factors impact the effectiveness depends on the term of use, salinity tolerance of the plant, soil composition, addition of other fertilizing compounds, and quantity of rainfall or other irrigation.

Urine typically contains 70% of the nitrogen and more than half the phosphorus and potassium found in urban waste water flows, while making up less than 1% of the overall volume. Thus far, source separation, or urine diversion and on-site treatment has been implemented in South Africa, China, and Sweden among other countries with the Bill and Melinda Gates Foundation provided some of the funding implemenations.^[26] China – in 2003 reportedly had 685,000 operating source separation toilets spread out among 17 provinces ^[27]

"Urine management" is a relatively new way to view it and close the cycle of agricultural nutrient flows, to reduce sewage treatment costs, reduce ecological consequences such as eutrophication, and reduce the influx of nutrient rich effluent into aquatic or marine ecosystems.^[21] Proponents of urine as a natural source of agricultural fertilizer claim the risks to be negligible or acceptable. Their views seem to be backed by research showing there are more environmental problems when it is treated and disposed of compared with when it is used as a resource.^[28]

It is unclear whether source separation, urine diversion, and on-site treatment of urine can be made cost effective, and to what degree the required behavioral changes would be regarded as socially acceptable, as the largely successful trials performed in Sweden may not readily generalize to other industrialized societies.^[24] In developing countries, the application of pure urine to crops is rare, but the use of whole raw sewage (termed night soil) has been common throughout history. However, there are more calls for urine's use as a fertilizer such as a Scientific American article "Human urine is an effective fertilizer".^[29]

Cleaning

Main article: Lant

In pre-industrial use as a cleaning fluid due to its ammonia content.^{[citation needed]}

Munitions

Main article: Potassium nitrate

Urine has been used in the manufacture of gunpowder. Urine, a nitrogen source, was used to moisten straw or other organic material, which was kept moist and allowed to rot for several months to over a year. The resulting salts were washed from the heap with water, which was evaporated to allow collection of crude saltpeter crystals, that were usually refined before being used in making gunpowder.^[30]

Survival uses

See also: Urophagia

Numerous survival instructors and guides,^{[31][32][33][34][35]} including the US Army Field Manual,^[36] advise against drinking urine for survival. These guides explain that drinking urine tends to worsen, rather than relieve dehydration due to the salts in it, and that urine should not be consumed in a survival situation, even when there is no other fluid available. In hot weather survival situations, where water is also hard to find, soaking cloth in urine (a shirt for example) and putting it on one's head can help cool the body.

During World War I, the Germans experimented with numerous poisonous gases for use during war. After the first German chlorine gas attacks, Allied troops were supplied with masks of cotton pads that had been soaked in urine. It was believed that the ammonia in the pad neutralized the chlorine. These pads were held over the face until the soldiers could escape from the poisonous fumes, although it is now known that chlorine gas reacts with urine to produce toxic fumes (see chlorine and use of poison gas in World War I).^{[citation needed]}

Urban myth states that urine works well against jellyfish stings, and this scenario was demonstrated on a Season 4 episode of the NBC-TV show Friends, "The One With the Jellyfish", an early episode of the CBS-TV show Survivor and the documentary film The Real Cancun. At best, it is ineffective and in some cases this treatment may make the injury worse.^[37][38][39]

Tanning

Main article: Tanning

Tanners soaked animal skins in urine to remove hair fibers—a necessary step in the preparation of leather.^{[citation needed]}

Textiles

Urine has often been used as a mordant to help prepare textiles, especially wool, for dyeing. This usage was mentioned in Gathering Blue by Lois Lowry. In Scotland, the process of "walking" (stretching) the tweed is preceded by soaking in urine.^[40]

Hydrogen

Urine is also useful as a base material for the production of hydrogen.^[41] Unlike water, urine has four hydrogen atoms per molecule and has these atoms less tightly bonded when compared with the hydrogen atoms found in water molecules.

History and language

Ancient Romans used human urine to cleanse grease stains from their clothing, before acquiring soaps from the Germans during the first century AD.^[42] Urine that has been fermented for the purposes of cleaning is referred to as lant. The emperor Nero instituted a tax (Latin: vectigal urinae) on the urine industry. This tax was continued by Nero's successor, Vespasian, to whom is attributed the Latin saying Pecunia non olet (money doesn't smell) – this is said to have been Vespasian's reply to a complaint from his son about the disgusting nature of the tax. Vespasian's name is still attached to public urinals in France (vespasiennes), Italy (vespasiani), and Romania (vespasiene).

Alchemists spent much time trying to extract gold from urine, and this effort led to discoveries such as white phosphorus, which was discovered by the German alchemist Hennig Brand in 1669 when he was distilling fermented urine. In 1773 the French chemist Hilaire Rouelle discovered the organic compound urea by boiling urine dry.

The word "urine" was first used in the 14th century. Before that, the concept was described by the now vulgar word "piss". Onomatopoetic in origins, "piss" was the primary means of describing urination, as "urinate" was at first used mostly in medical contexts. Likely, "piss" became vulgar through its use by lower class characters such as the reeve and the Wife of Bath in Geoffrey Chaucer's 14th century work The Canterbury Tales. "Piss" and its association with vulgarity has led to its current classification as obscene, as well as its use in such colloquial expressions as "to piss off" and "piss poor". Euphemisms such as "pee" are used, but there are many more for the act of urination.

See also

• Amniotic fluid
• Bed-Wetting
• Drinking urine
• Ecological sanitation
• Lant
• Urination
• Urine therapy
• Urolagnia, an attraction to urine

References

1. Does a reservoir need emptying if someone urinates in it?. BBC Magazine. 22 June 2011. Retrieved on 2011-06-22.
2. Arthur C. Guyton; John Edward Hall (2006). "25". Textbook of medical physiology (11 ed.). Elsevier Saunders. ISBN 978-0-8089-2317-6. Retrieved 26 September 2011.
3. David F. Putnam Composition and Concentrative Properties of Human Urine. NASA Contractor Report. July 1971
4. Michael T. Madigan; Thomas D. Brock (2009). Brock biology of microorganisms. Pearson/Benjamin Cummings. ISBN 978-0-13-232460-1. Retrieved 10 September 2011.
5. "An Asbo in 14th Century Britain". BBC. 2011-04-05. The name garderobe – which translates as guarding one's robes – is thought to come from hanging your clothes in the toilet shaft, as the ammonia from the urine would kill the fleas
6. Beeturia and the biological fate of beetroot pigments. PMID 8148871
7. allergyadvisor – Beeturia Compiled by Karen du Plessis B.Sc. Diet. Food & Allergy Consulting & Testing Services. Retrieved on October 24, 2009
8. Urine therapy. Vanderbilt.edu (1992-10-16). Retrieved on 2011-04-27.
9. How to pass a drug test – producing clean urine. Neonjoint.com. Retrieved on 2011-04-27.
10. Lison M, Blondheim SH, Melmed RN. (1980). "A polymorphism of the ability to smell urinary metabolites of asparagus". Br Med J. 281 (6256): 1676. doi:10.1136/bmj.281.6256.1676. PMC 1715705. PMID 7448566. {{cite journal}}: More than one of |pages= and |page= specified (help)
11. Stefan Gates; Max La Riviere-Hedrick (15 March 2006). Gastronaut: adventures in food for the romantic, the foolhardy, and the brave. Houghton Mifflin Harcourt. pp. 87–. ISBN 9780156030977. Retrieved 27 April 2011.
12. Foods that Affect the Odor of Urine. livestrong.com. December 27, 2010.
13. Martín Hernández E, Aparicio López C, Alvarez Calatayud G, García Herrera MA (2001). "[Vesical uric acid lithiasis in a child with renal hypouricemia]". An. Esp. Pediatr. (in Spanish; Castilian). 55 (3): 273–6. PMID 11676906.
14. "Urine pH". MedlinePlus Medical Encyclopedia. Retrieved December 26, 2008.
15. Avorn, J; Monane, M; Gurwitz, JH; Glynn, RJ; Choodnovskiy, I; Lipsitz, LA (1994). "Reduction of bacteriuria and pyuria after ingestion of cranberry juice". JAMA : the journal of the American Medical Association. 271 (10): 751–4. PMID 8093138. We did not find evidence that urinary acidification was responsible for the observed effect, since the median pH of urine samples in the cranberry group (6.0) was actually higher than that in the experimental group (5.5). While cranberry juice has been advocated as a urinary acidifier to prevent urinary tract infections, not all studies have shown a reduction in urine pH with cranberry juice ingestion, even with consumption of 2000 mL per day.
16. Urine pH: MedlinePlus Medical Encyclopedia. Nlm.nih.gov (2011-03-28). Retrieved on 2011-04-27.
17. Discovery Health "Urine PH – Medical Dictionary". Healthguide.howstuffworks.com (2007-05-16). Retrieved on 2011-04-27.
18. Ibn Habib, Abdul Malik d.862CE/283AH "Kitaab Tib Al'Arab" (The Book of Arabian Medicine), Published by Dar Ibn Hazm, Beirut, Lebanon 2007(Arabic)
19. Urine Antibody Tests: New Insights into the Dynamics of HIV-1 Infection – Urnovitz et al. 45 (9): 1602 – Clinical Chemistry. Clinchem.org. Retrieved on 2011-04-27.
20. Wolgast, M (1993). "Rena vatten. Om tankar i kretslopp". Uppsala: Creamon HB. {{cite web}}: Missing or empty |url= (help)
21. Ganrot, Zsofia (2005). Ph.D. Thesis: Urine processing for efficient nutrient recovery and reuse in agriculture (PDF). Goteborg, Sweden: Goteborg University. p. 170.
22. Steinfeld, Carol (2004). Liquid Gold: The Lore and Logic of Using Urine to Grow Plants. Ecowaters Books. ISBN 978-0966678314.
23. Morgan, Peter (2004). "10. The Usefulness of urine". An Ecological Approach to Sanitation in Africa: A Compilation of Experiences (CD release ed.). Aquamor, Harare, Zimbabwe. Retrieved 6 December 2011.
24. M. Johansson (2001). "Urine Separation – Closing the Nitrogen Cycle" (PDF). Stockholm Water Company. {{cite web}}: Unknown parameter |coauthors= ignored (|author= suggested) (help)
25. Håkan Jönsson (2001-10-01). "Urine Separation — Swedish Experiences". EcoEng Newsletter 1.
26. South African city looks to turn urine into fertilizer, UN Office for the Coordination of Humanitarian Affairs, November 2010. Sanitationfinance.org (2010-11-13). Retrieved on 2011-12-07.
27. water- and sanitation-related activities of GTZ – focus on ecosan projects. (PDF) . Retrieved on 2011-12-07.
28. UDD-Toilets and urine management. (PDF). ecosanservices.org. Retrieved on 2011-12-07.
29. Mara Grunbaum Shown to be an effective agricultural fertilizer, Scientific American, July 2010. Retrieved on 2011-12-07.
30. Joseph LeConte (1862). Instructions for the Manufacture of Saltpeter. Columbia, S.C.: South Carolina Military Department. p. 14. Retrieved 2007-10-19. {{cite book}}: Unknown parameter |printer= ignored (help)
31. Find Water. Simple Survival. Retrieved on 2011-04-27.
32. Tracker Trail, Mother Earth News – Issue #72
33. EQUIPPED TO SURVIVE (tm) – A Survival Primer. Equipped.com (2001-01-31). Retrieved on 2011-04-27.
34. Five Basic Survival Skills in the Wilderness. Adventuresportsonline.com. Retrieved on 2011-04-27.
35. Sea Survival – The Open Sea. Wilderness Survival. Retrieved on 2011-04-27.
36. Water Procurement, US Army Field Manual
37. Old Wives' Tale? Urine as Jellyfish Sting Remedy. ABC News (2006-08-08). Retrieved on 2011-04-27.
38. Fact or Fiction?: Urinating on a Jellyfish Sting is an Effective Treatment. Scientific American. 4 January 2007. Retrieved on 2011-04-27.
39. Jellyfish Sting Treatment – How to Treat a Jellyfish Sting. Firstaid.about.com. 22 August 2010. Retrieved on 2011-04-27.
40. Mentioned by an interviewee in Lomax the Songhunter, a 2004 documentary film.
41. Hydrogen from urine
42. "Hygiene in Ancient Rome". Retrieved 2010-02-09.

Further reading

• Definition of oliguria and anuria
• Hermogenes on urine
• “Urine.” Oxford English Dictionary. October 29, 2008 OED.com
• Geoffrey Chaucer, Department of English. Dept. home page. October 3, 2006. Harvard University October 27, 2008 Harvard.edu

External links

• Urine formation, excretion and osmoregulation.
• Urinanalysis page
• BBC News Online – US army food... just add urine
• Kelly, John F. "The Urine Cure and Other Curious Medical Treatments" Hippocrates Magazine. (May/June 1988)
• Punch and Us "A Golden Shower A Day, Keeps The Doctors Away" (Humor)
• Urine Chemistry (www.drugs.com)
• Removing urine odor
• Using Biochar for tapping the nitrogen from urine Biochar + Urine +++ for soil amendments for improving the fertility of soils and enhanced agriculture production.
• Urine

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