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Urea creatinine

This document discusses urea and creatinine, which are waste products excreted by the kidneys. It describes how urea is formed from ammonia in the liver and how defects in the urea cycle can cause metabolic disorders. It outlines methods for measuring blood urea and urine urea. Creatinine is formed from creatine in muscle and increased levels can indicate muscle or kidney issues. Methods for measuring serum and urine creatinine are provided. The document concludes by noting creatinine clearance is a sensitive indicator of kidney function.

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Introduction of Tapeshwar Yadav, Lecturer with qualifications in Medical Biochemistry.

Urea is the end product of protein metabolism; produced in liver via 4 stages, crucial for detoxifying ammonia.

Causes of increased serum urea categorized into pre-renal, renal, and post-renal factors.

Diacetyl monoxime method for blood urea estimation details; normal value: 5-20 mg/dl.

Principle of urease method and hypobromite method for assessing urea levels in blood and urine.

Discusses urea clearance values in relation to renal health, with normal values and significance in kidney function.

Details on creatinine levels, its synthesis from amino acids, and its relevance as an indicator of renal function.

Factors leading to increased creatinine levels classified into pre-renal, renal, and post-renal causes.

Methods to measure creatinine in urine and blood, including Jaffe's method and its variants.

Calculation of uncorrected and corrected creatinine clearance; its importance in detecting renal impairment.

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Tapeshwar Yadav (Lecturer) BMLT, DNHE, M.Sc. Medical Biochemistry
 Urea is the major end product of protein metabolism In humans.  Its formed in liver.  Urea biosynthesis occurs in four stages: (1) transamination, (2) oxidative deamination of glutamate, (3) ammonia transport, (4) reactions of the urea cycle
 ammonia is produced in various ways by tissues are rapidly removed from circulation by the liver and converted to urea. This is essential, since ammonia is toxic to the central nervous system.  Urea is water soluble ,conversion of ammonia to urea is a kind of detoxification.  This is the importance of urea excretion and its estimation.
 Any defect in any of the enzyme function of urea cycle can lead to various metabolic disorders.  More than 90% of urea is excreted through the kidneys(glomeruli), with losses through GIT and skin in minor fraction.  Determination of blood urea is important not only in many diseases of kidney but in a wide range of conds which r not primarily renal.
Causes of increase in serum urea  Causes r divided in pre-renal , renal and post-renal  PRE-RENAL : dehydration pyloric n intestinal obstruction with vomiting sever n prolonged diarrhea chrn intestinal obstruction without vomiting ulcerative colitis with severe chloride loss diabetic coma
RENAL :  acute glomerulonephritis  malignant hypertension  chronic pyelonephritis  hydronephrosis  congenital cystic kidney  renal tuberculosis  calcium deposition in kidney in hyperthyroidism n hypervitaminosis D.
 POST RENAL: enlargement of prostate stones in urinary tract stricture of the urethra tumors of the bladder affecting the ureter
 Cirrhosis of liver  Acute yellow atrophy of liver  Severe acidosis  Nephritis  Pregnancy
 BLOOD UREA: Diacetyl monoxime method principle when urea is heated with diacetyl(,containing two adjacent carbonyl group) under acidic condition yellow coloured compound is formed.the OD of the colour developed can be read at 420 nm.intensity of the color depends on conc of urea in serum.
additions BLANK STANDARD TEST Protein free filtrate _ _ 1ml Working standard _ 1ml _ Distilled water 1ml _ _ DAM reagent 0.4ml 0.4ml 0.4ml Acid mixture 1.6ml 1.6ml 1.6ml
OD of the test × conc of standard × 100 OD of the standard vol of the test = T/S×100 BUN(blood urea nitrigen): = blood urea level× 28/60 Normal value - 5 -20 mg/dl
Principle: urease hydrolyses urea to ammonia and CO2.the ammonia formed further reacts with a phenolic chromogen and hypo chloride to form a green colored complex. Intensity of colour is directly proportional to the amount of urea present in the sample. addition blank standard test Working reagent 1.0 ml 1.0ml 1.0ml Distilled water 0.01ml - - Urea standard - 0.01ml - sample - - 0.01ml Chorogen reagent 0.2ml 0.2ml 0.2ml
calculation: = T/S × 40 SERUM – 15 to 40mg/dl
 The hypobromite method Principle: the vol of nitrogen liberated by the action of hypobromite on the urea present in the urine is measured. the action is usually though not accurately, expressed URINE - 15 to 30mg/day.
 Urea clearance is less than GFR. Maximum urea clearance: =U × V/P U=mg of urea /ml of urine p=mg of urea/ml of plasma v=mg of urine excreted /minute normal value - 75 ml /mint Standard urea clearance: u × √v/p normal value - 54ml/mint
 Values below 75% is abnormal  Values fall progressively with increasing renal failure  Clearance values r the early indicator then plasma value  creatinine clearance is more preferred  Neither urea clearance nor blood urea r used as index of kidney function today
 Creatine constitutes about 0.5% of total muscle weight.  Its synthesized from 3 amino acids Glycine , Arginine & Methionine. glycine arginine (occurs in mitochondia of kidney n pancreas) Guanidoacetic acid ornithine SAM (in liver) SAH Creatine creatine phosphate (ck is pesent in muscle brain n liver) creatinine
CREATINE creatine kinase PHOSPHOCREATINE SPONTANEOUS SPONTANEOUS H₂O Pi CREATININE
 Stored creatine phosphate which is a high energy compound, stored in the muscle, serves as an immediate store of energy.  Inter conversion of phosphocreatine & creatine is an indicator of metabolic process of muscle contraction.  A particular proportion of muscle creatine is converted to creatinine spontaneously everyday.  So amount of creatinine produced in body is related to muscle mass .  Conc. Of creatinine in blood is mostly constant.  Diet may influence the value with high meat intake.  Its freely filtrated by glomerulus.  Its an indicator of renal function.
Increased conc of creatine  Muscular disorders  Myasthenia gravis  Different myositis  Starvation  High fever  Diabetes mellitus  Hyperthyroidism
Causes of increase in serum Creatinine  Causes are divided in pre-renal , renal and post-renal  PRE-RENAL :  Dehydration  Pyloric & intestinal obstruction with vomiting  Severe n prolonged diarrhea  Chronic intestinal obstruction without vomiting  Ulcerative colitis with severe chloride loss  Diabetic coma
RENAL :  Acute glomerulonephritis  Malignant hypertension  Chronic pyelonephritis  Hydronephrosis  Congenital cystic kidney  Renal tuberculosis  Calcium deposition in kidney in hyperthyroidism & hyper-vitaminosis D .
 POST RENAL: Enlargement of prostate Stones in urinary tract Stricture of the urethra Tumors of the bladder effecting the ureter
Increased conc of creatinine  Conditions r same as increased urea conc.  But in renal causes creatinine increases more than the pre-renal causes.
Jaffe`s method (in urine) principle: creatinine in urine reacts with picric acid in presence of NaOH to give orange colored compound.creatinine- picrate color read at 500 nm. addition BLANK STANDARD TEST Distilled water 3ml - - Working standard - 3ml - Diluted urine - - 3ml Picric acid 1ml 1ml 1ml 0.75 N NaOH 1ml 1ml 1ml
calculation: =gms of creatinine /lt =T/S×0.03/1000×1000/0.03 =T/S gm/lt Normal value – 1 - 1.5gm/lt
Modified jaffe`s reaction: principle: cretinine reacts with alkaline picrate to produce a reddish color. Absorbance of the color is directly proportional to creatinine conc in plasma n its measured in 500-520nm. addition blank standard sample Working reagent - 1000ùl 1000ùl Standard - 100ùl - serum - - 100ùl
Calculation: =T/S ×conc of standard(mg/lt)(2mg/dl) normal value – 0.7 -1.4mg/dl (male) 0.6 – 1.2 mg/dl (female)
Uncorrected clearance =(u/p)× v U=urinary creatinine conc. p=plasma creatinine conc v=urine flow in ml/min Corrected clearance =u×v×1.73 p×A
Normal value: 85-125 ml/min (male) 80-115 ml/min (female) Clinical importance  decreased creatinine clearance is an sensitive indicator of GFR.  UPTO 75% is nornal.  Early detection of renal impairment  Long term monitoring of renal patients  Creatinine clearance is altered by body muscle mass ,drugs,age,sex

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Urea creatinine

  • 1.
  • 2.
     Urea isthe major end product of protein metabolism In humans.  Its formed in liver.  Urea biosynthesis occurs in four stages: (1) transamination, (2) oxidative deamination of glutamate, (3) ammonia transport, (4) reactions of the urea cycle
  • 4.
     ammonia isproduced in various ways by tissues are rapidly removed from circulation by the liver and converted to urea. This is essential, since ammonia is toxic to the central nervous system.  Urea is water soluble ,conversion of ammonia to urea is a kind of detoxification.  This is the importance of urea excretion and its estimation.
  • 5.
     Any defectin any of the enzyme function of urea cycle can lead to various metabolic disorders.  More than 90% of urea is excreted through the kidneys(glomeruli), with losses through GIT and skin in minor fraction.  Determination of blood urea is important not only in many diseases of kidney but in a wide range of conds which r not primarily renal.
  • 6.
    Causes of increasein serum urea  Causes r divided in pre-renal , renal and post-renal  PRE-RENAL : dehydration pyloric n intestinal obstruction with vomiting sever n prolonged diarrhea chrn intestinal obstruction without vomiting ulcerative colitis with severe chloride loss diabetic coma
  • 7.
    RENAL :  acuteglomerulonephritis  malignant hypertension  chronic pyelonephritis  hydronephrosis  congenital cystic kidney  renal tuberculosis  calcium deposition in kidney in hyperthyroidism n hypervitaminosis D.
  • 8.
     POST RENAL: enlargementof prostate stones in urinary tract stricture of the urethra tumors of the bladder affecting the ureter
  • 9.
     Cirrhosis ofliver  Acute yellow atrophy of liver  Severe acidosis  Nephritis  Pregnancy
  • 10.
     BLOOD UREA: Diacetylmonoxime method principle when urea is heated with diacetyl(,containing two adjacent carbonyl group) under acidic condition yellow coloured compound is formed.the OD of the colour developed can be read at 420 nm.intensity of the color depends on conc of urea in serum.
  • 11.
    additions BLANK STANDARDTEST Protein free filtrate _ _ 1ml Working standard _ 1ml _ Distilled water 1ml _ _ DAM reagent 0.4ml 0.4ml 0.4ml Acid mixture 1.6ml 1.6ml 1.6ml
  • 12.
    OD of thetest × conc of standard × 100 OD of the standard vol of the test = T/S×100 BUN(blood urea nitrigen): = blood urea level× 28/60 Normal value - 5 -20 mg/dl
  • 13.
    Principle: urease hydrolyses ureato ammonia and CO2.the ammonia formed further reacts with a phenolic chromogen and hypo chloride to form a green colored complex. Intensity of colour is directly proportional to the amount of urea present in the sample. addition blank standard test Working reagent 1.0 ml 1.0ml 1.0ml Distilled water 0.01ml - - Urea standard - 0.01ml - sample - - 0.01ml Chorogen reagent 0.2ml 0.2ml 0.2ml
  • 14.
    calculation: = T/S ×40 SERUM – 15 to 40mg/dl
  • 15.
     The hypobromitemethod Principle: the vol of nitrogen liberated by the action of hypobromite on the urea present in the urine is measured. the action is usually though not accurately, expressed URINE - 15 to 30mg/day.
  • 16.
     Urea clearanceis less than GFR. Maximum urea clearance: =U × V/P U=mg of urea /ml of urine p=mg of urea/ml of plasma v=mg of urine excreted /minute normal value - 75 ml /mint Standard urea clearance: u × √v/p normal value - 54ml/mint
  • 17.
     Values below75% is abnormal  Values fall progressively with increasing renal failure  Clearance values r the early indicator then plasma value  creatinine clearance is more preferred  Neither urea clearance nor blood urea r used as index of kidney function today
  • 18.
     Creatine constitutesabout 0.5% of total muscle weight.  Its synthesized from 3 amino acids Glycine , Arginine & Methionine. glycine arginine (occurs in mitochondia of kidney n pancreas) Guanidoacetic acid ornithine SAM (in liver) SAH Creatine creatine phosphate (ck is pesent in muscle brain n liver) creatinine
  • 19.
    CREATINE creatine kinasePHOSPHOCREATINE SPONTANEOUS SPONTANEOUS H₂O Pi CREATININE
  • 20.
     Stored creatinephosphate which is a high energy compound, stored in the muscle, serves as an immediate store of energy.  Inter conversion of phosphocreatine & creatine is an indicator of metabolic process of muscle contraction.  A particular proportion of muscle creatine is converted to creatinine spontaneously everyday.  So amount of creatinine produced in body is related to muscle mass .  Conc. Of creatinine in blood is mostly constant.  Diet may influence the value with high meat intake.  Its freely filtrated by glomerulus.  Its an indicator of renal function.
  • 21.
    Increased conc ofcreatine  Muscular disorders  Myasthenia gravis  Different myositis  Starvation  High fever  Diabetes mellitus  Hyperthyroidism
  • 22.
    Causes of increasein serum Creatinine  Causes are divided in pre-renal , renal and post-renal  PRE-RENAL :  Dehydration  Pyloric & intestinal obstruction with vomiting  Severe n prolonged diarrhea  Chronic intestinal obstruction without vomiting  Ulcerative colitis with severe chloride loss  Diabetic coma
  • 23.
    RENAL :  Acuteglomerulonephritis  Malignant hypertension  Chronic pyelonephritis  Hydronephrosis  Congenital cystic kidney  Renal tuberculosis  Calcium deposition in kidney in hyperthyroidism & hyper-vitaminosis D .
  • 24.
     POST RENAL: Enlargementof prostate Stones in urinary tract Stricture of the urethra Tumors of the bladder effecting the ureter
  • 25.
    Increased conc ofcreatinine  Conditions r same as increased urea conc.  But in renal causes creatinine increases more than the pre-renal causes.
  • 26.
    Jaffe`s method (inurine) principle: creatinine in urine reacts with picric acid in presence of NaOH to give orange colored compound.creatinine- picrate color read at 500 nm. addition BLANK STANDARD TEST Distilled water 3ml - - Working standard - 3ml - Diluted urine - - 3ml Picric acid 1ml 1ml 1ml 0.75 N NaOH 1ml 1ml 1ml
  • 27.
    calculation: =gms of creatinine/lt =T/S×0.03/1000×1000/0.03 =T/S gm/lt Normal value – 1 - 1.5gm/lt
  • 28.
    Modified jaffe`s reaction: principle: cretininereacts with alkaline picrate to produce a reddish color. Absorbance of the color is directly proportional to creatinine conc in plasma n its measured in 500-520nm. addition blank standard sample Working reagent - 1000ùl 1000ùl Standard - 100ùl - serum - - 100ùl
  • 29.
    Calculation: =T/S ×conc ofstandard(mg/lt)(2mg/dl) normal value – 0.7 -1.4mg/dl (male) 0.6 – 1.2 mg/dl (female)
  • 30.
    Uncorrected clearance =(u/p)× v U=urinarycreatinine conc. p=plasma creatinine conc v=urine flow in ml/min Corrected clearance =u×v×1.73 p×A
  • 31.
    Normal value: 85-125 ml/min(male) 80-115 ml/min (female) Clinical importance  decreased creatinine clearance is an sensitive indicator of GFR.  UPTO 75% is nornal.  Early detection of renal impairment  Long term monitoring of renal patients  Creatinine clearance is altered by body muscle mass ,drugs,age,sex