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Sunday, July 15, 2018

The Complexities of Interpreting Reversible Elevated Serum ...
src: dmd.aspetjournals.org

Creatinine ( or ; from Greek: ?????, translit. kreas, lit. 'flesh') is a breakdown product of creatine phosphate in muscle, and is usually produced at a fairly constant rate by the body (depending on muscle mass).


Video Creatinine



Biological relevance

Serum creatinine (a blood measurement) is an important indicator of renal health because it is an easily measured byproduct of muscle metabolism that is excreted unchanged by the kidneys. Creatinine itself is produced via a biological system involving creatine, phosphocreatine (also known as creatine phosphate), and adenosine triphosphate (ATP, the body's immediate energy supply).

Creatine is synthesized primarily in the liver from the methylation of glycocyamine (guanidino acetate, synthesized in the kidney from the amino acids arginine and glycine) by S-adenosyl methionine. It is then transported through blood to the other organs, muscle, and brain, where, through phosphorylation, it becomes the high-energy compound phosphocreatine. Creatine conversion to phosphocreatine is catalyzed by creatine kinase; spontaneous formation of creatinine occurs during the reaction.

Creatinine is removed from the blood chiefly by the kidneys, primarily by glomerular filtration, but also by proximal tubular secretion. Little or no tubular reabsorption of creatinine occurs. If the filtration in the kidney is deficient, creatinine blood levels rise. Therefore, creatinine levels in blood and urine may be used to calculate the creatinine clearance (CrCl), which correlates approximately with the glomerular filtration rate (GFR). Blood creatinine levels may also be used alone to calculate the estimated GFR (eGFR).

The GFR is clinically important because it is a measurement of renal function. However, in cases of severe renal dysfunction, the CrCl rate will overestimate the GFR because hypersecretion of creatinine by the proximal tubules will account for a larger fraction of the total creatinine cleared. Ketoacids, cimetidine, and trimethoprim reduce creatinine tubular secretion and, therefore, increase the accuracy of the GFR estimate, in particular in severe renal dysfunction. (In the absence of secretion, creatinine behaves like inulin.)

An alternate estimation of renal function can be made when interpreting the blood (plasma) concentration of creatinine along with that of urea. BUN-to-creatinine ratio (the ratio of blood urea nitrogen to creatinine) can indicate other problems besides those intrinsic to the kidney; for example, a urea level raised out of proportion to the creatinine may indicate a prerenal problem such as volume depletion.

Each day, 1-2% of muscle creatine is converted to creatinine. The conversion is nonenzymatic and irreversible. Men tend to have higher levels of creatinine than women because, in general, they have a greater mass of skeletal muscle. Increased dietary intake of creatine or eating a lot of protein (like meat) can increase daily creatinine excretion.

Antibacterial and potential immunosuppressive properties

Studies indicate creatinine can be effective at killing bacteria of many species in both the Gram positive and Gram negative as well as diverse antibiotic resistant bacterial strains. Creatinine appears not to affect growth of fungi and yeast; this can be used to isolate slower growing fungi free from the normal bacterial populations found in most environmental samples. The mechanism by which creatinine kills bacteria is not presently known. A recent report also suggests that creatinine may have immunosuppressive properties.


Maps Creatinine



Diagnostic use

Serum creatinine is the most commonly used indicator (but not direct measure) of renal function. Elevated creatinine is not always representative of a true reduction in GFR. A high reading may be due to increased production of creatinine not due to decreased kidney function, to interference with the assay, or to decreased tubular secretion of creatinine. An increase in serum creatinine can be due to increased ingestion of cooked meat (which contains creatinine converted from creatine by the heat from cooking) or excessive intake of protein and creatine supplements, taken to enhance athletic performance. Intense exercise can increase creatinine by increasing muscle breakdown. Dehydration secondary to an inflammatory process with fever may cause a false increase in creatinine levels not related to an actual kidney injury, as in some cases with cholecystitis. Several medications and chromogens can interfere with the assay. Creatinine secretion by the tubules can be blocked by some medications, again increasing measured creatinine.

Serum creatinine

Measuring serum creatinine is a simple test, and it is the most commonly used indicator of renal function.

A rise in blood creatinine level is a late marker, observed only with marked damage to functioning nephrons. Therefore, this test is unsuitable for detecting early-stage kidney disease. A better estimation of kidney function is given by calculating the estimated glomerular filtration rate (eGFR). eGFR can be accurately calculated without a 24-hour urine collection using serum creatinine concentration and some or all of the following variables: sex, age, weight, and race, as suggested by the American Diabetes Association. Many laboratories will automatically calculate eGFR when a creatinine test is requested. Algorithms to estimate GFR from creatinine level and other parameters are discussed in the renal function article.

A concern as of late 2010 relates to the adoption of a new analytical methodology, and a possible impact this may have in clinical medicine. Most clinical laboratories now align their creatinine measurements against a new standardized isotope dilution mass spectrometry (IDMS) method to measure serum creatinine. IDMS appears to give lower values than older methods when the serum creatinine values are relatively low, for example 0.7 mg/dL. The IDMS method would result in a comparative overestimation of the corresponding calculated GFR in some patients with normal renal function. A few medicines are dosed even in normal renal function on that derived GFR. The dose, unless further modified, could now be higher than desired, potentially causing increased drug-related toxicity. To counter the effect of changing to IDMS, new FDA guidelines have suggested limiting doses to specified maxima with carboplatin, a chemotherapy drug.

A 2009 Japanese study found a lower serum creatinine level to be associated with an increased risk for the development of type 2 diabetes in Japanese men.

Urine creatinine

Males produce approximately 150 - 200 micromols of creatinine per kilogram of body weight per 24 hours while females produce approximately 100 -150 mcmols/kg/24h. In normal circumstances, all this daily creatinine production is excreted in the urine.

Creatinine concentration is checked during standard urine drug tests. An expected creatinine level indicates the test sample is undiluted, whereas low amounts of creatinine in the urine indicate either a manipulated test or low initial baseline creatinine levels. Test samples considered manipulated due to low creatinine are not tested, and the test is sometimes considered failed.


What causes elevated creatinine ? - YouTube
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Interpretation

In the United States and in most European countries creatinine is usually reported in mg/dL, whereas in Canada, Australia, and a few European countries, ?mol/L is the usual unit. One mg/dL of creatinine is 88.4 ?mol/L.

The typical human reference ranges for serum creatinine are 0.5 to 1.0 mg/dL (about 45-90 ?mol/L) for women and 0.7 to 1.2 mg/dL (60-110 ?mol/L) for men. The significance of a single creatinine value must be interpreted in light of the patient's muscle mass. A patient with a greater muscle mass will have a higher creatinine level. While a baseline serum creatinine of 2.0 mg/dL (177 ?mol/L) may indicate normal kidney function in a male body builder, a serum creatinine of 1.6 mg/dL (110 ?mol/L) can indicate significant renal disease in an elderly female.

The trend of serum creatinine levels over time is more important than absolute creatinine level.

Serum creatinine levels may increase when an ACE inhibitor (ACEI) is taken for heart failure and renal insufficiency. ACE inhibitors provided survival benefits for patients with heart failure and slow the disease progression in patients with renal insufficiency. An increase not exceeding 30% is to be expected with ACEI use. Therefore, usage of ACEI should not be stopped unless an increase of serum creatinine exceeded 30% or hyperkalemia develops.


The Complexities of Interpreting Reversible Elevated Serum ...
src: dmd.aspetjournals.org


Chemistry

In chemical terms, creatinine is a spontaneously formed cyclic derivative of creatine. Several tautomers of creatinine exist; ordered by contribution, they are:

  • 2-Amino-1-methyl-1H-imidazol-4-ol (or 2-amino-yhjf1-methylimidazol-4-ol)
  • 2-Amino-1-methyl-4,5-dihydro-1H-imidazol-4-one
  • 2-Imino-1-methyl-2,3-dihydro-1H-imidazol-4-ol (or 2-imino-1-methyl-3H-imidazol-4-ol)
  • 2-Imino-1-methylimidazolidin-4-one
  • 2-Imino-1-methyl-2,5-dihydro-1H-imidazol-4-ol (or 2-imino-1-methyl-5H-imidazol-4-ol)

Creatinine starts to decompose around 300 °C.


BUN and Creatinine - YouTube
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See also

  • Cystatin C - novel marker of kidney function
  • Jaffe reaction - an example of creatinine assay methodology
  • Rhabdomyolysis - may be diagnosed using creatinine levels
  • Nephrotic syndrome

Protein:Creatinine Ratio in Random Urine Samples Is a Reliable ...
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References


Home Remedies to Reduce High Creatinine Levels | Reduce High ...
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External links

  • Creatinine at Lab Tests Online
  • Creatinine: analyte monograph - The Association for Clinical Biochemistry and Laboratory Medicine

Source of article : Wikipedia