Density: Slightly greater than 1.0.

Water:                                                                       94-96%
Urea (CON2H4 or (NH2)2CO) (carbamide).                    4.2-5.2 %
Creatinine                                                                  0.17-.21%
Uric acid (C5H4N4O3.)                                                0.15-0.2 %
Phosphates                                                                0.13-0.15%
Carbohydrates                                                             Traces
Enzymes                                                                    Traces
Fatty acids                                                                  Traces
Hormones                                                                   Traces
Pigments,                                                                   Traces
Sodium                                                                       Traces
Potassium                                                                  Traces
Chlorides                                                                    Traces
Magnesium                                                                 Traces
Calcium                                                                      Traces
Ammonia                                                                    Traces
Sulphates                                                                   Traces
Mucins                                                                       Traces





Urine is liquid waste excreted by the kidneys and is produced by a process of filtration from blood.
This waste is eventually expelled from the body in a process known as urination
Healthy urine is a clear aqueous solution, varying in color from dark yellow to colorless, depending on dilution.
The constituents besides water are Urea, Creatinine, Uric acid and Urochrome .
Urine also contains various inorganic ions, including sodium and chloride.
Lighter urine indicates higher water consumption.
Odor of urine can become worse when the urea in urine converts to noxious ammonia gas.


  • It doesn't just mask the odor, but contains an active odor counteracting agent.
  • This is the step to an integrated approach where human excreta is contained, and recovered for use in soil systems to enhance agricultural production.
  • Deactivates the crystallized urine deposits rendering them inactive.
  • Digests the source of protein odors such as urine, feces, milk, blood, and more.
  • Breaks down the residues on which the bacteria feed off and contribute to the ongoing odor problems.
  • Stop or reverse the yellow discoloration caused by urine contamination.


  • The enzymes secreted by the microbes present in URINSOLVE breaks down the complex odorous substances into simple nutrients utilized by the microbes present in the URINSOLVE.
  • To achieve spontaneous results, enzymes are used.
  • By the time the enzymes that are present in URINSOLVE initiate the process the microbes will equip themselves to work in a sustained way and can work for almost 15 days throughout the day and night irrespective of Temperature, pH, Hardness etc, if they are not killed by use of toxic chemicals.
  • URINSOLVE will form into a BIOFILM in the ducts and pipes and tackles all the waste that come into contact.


 In the case of Waterless Urinal System and Conventional Flushing Urinals.

  • Simply spray dissolved URINSOLVE powder / tablet directly inside the bowls, behind toilet bowls, around sinks and basins and floor area underneath the urinals daily at least once and the source of the odor is neutralized within a very short time.
  • Works well in Waterless Urinal System and also Conventional Flushing Urinals.
  • Dilute 1 part URINSOLVE powder to 20 parts water in a bottle sprayer or pour direct into urinal drain pipe for slow- flowing urinals).
  • In case of URINSOLVE tablet, dissolve 1 in 200 mL water and use similarly.
  • Simply apply URINSOLVE powder (1-2 gm / bowl or 1 tablet / bowl) directly inside the bowls, behind toilet bowls, around sinks and basins and floor area underneath the urinals or pour direct into urinal drain pipe for slow-flowing urinals.
  • When used initially,  the source of the odor is neutralized within a short time. Then a few times per week.

In the case of well watered Urinal System:
Dilute 1 part URINSOLVE Powder to 20 parts water or 1 tablet in 200 mL water in a bottle sprayer and spray liberally directly inside the bowls, behind toilet bowls, around sinks and basins and floor area underneath the urinals .

Color: yellow-amber to clear
Smell: Sweet or fruity odor due to the presence of ketones in the case of a diabetic patient
Generally fresh urine has a mild smell but aged urine has a stronger odor, similar to that of ammonia.
Acidity: pH in the range 4.6 - 8, High protein diets result in more acidic urine. Vegetarian diets generally result in more alkaline

Never spray URINSOLVE directly on animals or humans.
Spray only on inanimate objects.

 We have isolated and identified nine cultures of aerobic bacteria capable of growing on an elective medium containing uric acid as the only source of carbon, nitrogen, and energy.    Four of these cultures were identified as Aerobacter aerogenes, two as Klebsiella pneumoniae, and the remainder as Serratia killiensis, Pseudomonas aeruginosa, and Bacillus species. 
Another culture identified as P. fluorescens required both glucose and uric acid for growth.

When 23 laboratory stock cultures were inoculated into the uric acid medium, A. aerogenes, B. subtilis, Mycobacterium phlei, P. aeruginosa, and S. marcescens were able to grow.   hese five cultures also grew when the uric acid was replaced with adenine, guanine, hypoxanthine, xanthine, or allantoin, but growth was poor.

In all of these media, including the uric acid medium, addition of glucose along with the nitrogenous compounds yielded good growth. Induction experiments demonstrated that the ability of A. aerogenes, K. pneumoniae, P. aeruginosa, P. fluorescens, S. kiliensis, S. marcescens, B. subtilis, and Bacillus sp. to degrade uric acid is an induced property. Of these organisms, only Bacillus sp. accumulated a small amount of intracellular uric acid. (
The enzyme urease (EC converts urea to ammonia and carbon dioxide.

The present invention relates to pharmaceutical compositions comprising a mixture of probiotics, prebiotics, and ammoniaphilic bacteria with high urease activity, and/or sorbents with specific adsorption affinities for uremic toxins such as creatinine, uric acid, phenols, indoles, middle molecular weight molecules and inorganic phosphate along with a water sorbent, for use in the alleviation of uremia.

Bacillus pasteurii and Sporosarcina ureae are closely related soil bacteria, both of which have high avidity for urea. These bacteria are non-pathogenic and safe.  Further, they grow well in high concentrations of ammonium ion and alkaline pH, which are present in the intestine, particularly in uremic conditions.
In Bacillus pasteurii and Sporosarcina ureae, no accumulation of ammonium occur and these organisms depend on passive diffusion of ammonia across the cell membrane.  Both B. pasteurii and S. ureae exhibit low affinities for ammonium, with Km values of 55.2 mM and 36.7 mM respectively.  In contrast to P. vulgaris, a pathogen which can only grow in neutral pH and low ammonium concentration of 2mM,
B. pasteurii and S. ureae require high concentrations of ammonium (40 mM) and alkaline pH (Kaltwasser, Morsdorf G. H. Arch Microbiol 1989; 152(2): 125-31).

In addition, it is known that urease of Sporosarcina ureae has a specific activity of greater than 9300 mol of urea degradation per minute at a pH of 7.5   The methods for urea, ammonia, creatinine and uric acid quantitative analysis are commercially available diagnostic kits (Sigma, St. Louis, MO. Cat Nos. 535 and 171, respectively and Advanced Diagnostics, Inc. Division of Inamco Group, South Plainfield, NJ. Cat Nos. 131 500 and CASO-50, respectively)

REFERENCES:, Hepatitis, Leyla Muedin, MS, RD, CDN, Retrieved October 10, 2010, Dr. Ronald Hoffman, 2010., Probiotics for Hepatitis C, Retrieved October 10, 2010,, 2010., Antiviral Foods, Retrieved October 10, 2010, Demand Media Inc., 2010., Superb Probiotic Substitute from Russia, James Howestine, MD, Retrieved October 10, 2010,, 2010., Beneficial effects of a probiotic VSL#3 on parameters of liver dysfunction in chronic liver diseases, Loguercio C, et al, Retrieved October 10, 2010,

Journal of Clinical Gastroenterology, July 2005.

Probiotics restore bowel flora and improve liver enzymes in human alcohol-induced liver injury: a pilot study by: I. Kirpich, N. Solovieva, S. Leikhter, N. Shidakova, O. Lebedeva, P. Sidorov, T. Bazhukova, A. Soloviev, S. Barve, C. Mcclain Alcohol, Vol. 42, No. 8. (December 2008), pp. 675-682, doi:10.1016/j., Probiotics reduce the inflammatory response induced by a high-fat diet in the liver of young rats, Esposito E, et al, Retrieved October 10, 2010, Journal of Nutrition, May 2009., Probiotics restore bowel flora and improve liver enzymes in human alcohol- induced liver injury: a pilot study, Kirpich IA, et al, Retrieved October 10, 2010, Alcohol, December 2008., Probiotics reduce the inflammatory response induced by a high-fat diet in the liver of young rats, Esposito E, et al, Retrieved October 10, 2010, Journal of Nutrition, May 2009., Hepatitis B, Retrieved October 10, 2010,, 2010., Probiotics and gut health: A special focus on liver diseases, Silvia Wilson Gratz, et al, Retrieved October 10, 2010, World Journal of Gastroenterology, January 2010.