I. Introduction
If you've ever passed a kidney stone, you're not likely to forget the experience — it can be excruciatingly painful. Kidney stones (renal lithiasis) are an ancient affliction dating back to the age of the Egyptian pyramids, yet they are still a common disorder today. The incidence of kidney stones has been increasing in recent decades. Although the reasons for this are still unclear, many experts believe that diet choices and lack of fluids are important factors that have contributed to this increase.
Your kidneys are two bean-shaped organs, each about the size of your fist. They're located in back of your abdomen on each side of your spine, and their main function is to remove excess fluid, unneeded electrolytes and waste from your blood in the form of urine. The ureters carry urine from your kidneys to your bladder, where it's stored until you eliminate it from your body.
Kidney stones usually form when your urine becomes too concentrated. This causes minerals and other substances in urine to form crystals on the inner surfaces of your kidneys. Over time, these crystals may combine to form a small, hard mass, or stone.
What a rock! Yup, its a kidney stone.
A patient is not likely to have signs and symptoms unless a kidney stone is large, causes a blockage, is associated with an infection or is being passed. Then the most common symptom is an intense, colicky pain that may fluctuate in intensity over periods of five to 15 minutes. The pain usually starts in the patient’s back or side just under or below the edge of his ribs. As the stone moves down the ureter toward the patient’s bladder, the pain may radiate to his lower abdomen, groin and genital structures on that side. If the stone stops moving, the pain may stop too. Other signs and symptoms may include:
- Bloody, cloudy or foul-smelling urine
- Nausea and vomiting
- Persistent urge to urinate
- Fever and chills if an infection is present
The patient must try to catch the stone in a strainer during urination.
III. Causes
The crystals that lead to kidney stones are likely to form when the patient’s urine contains a high concentration of certain substances — especially calcium, oxalate, uric acid and rarely, cystine — or low levels of substances that help prevent crystal formation, such as citrate and magnesium. Crystals also may form if the patient’s urine becomes too concentrated or is too acidic or too alkaline.
A number of factors can cause changes in the patient’s urine, including the effects of heredity, diet, drugs, climate, lifestyle factors and certain medical conditions. Each of the four main types of kidney stones has a different cause:
- Calcium stones
Roughly four out of five kidney stones are calcium stones. These stones are usually a combination of calcium and oxalate. Oxalate is a compound that occurs naturally in some fruits and vegetables. A number of factors can cause high concentrations of these substances in urine. Excess calcium, for instance, may result from ingesting large amounts of vitamin D, from treatment with thyroid hormones or certain diuretics, and from some cancers and kidney conditions. You may also have high levels of calcium if your parathyroid glands, which regulate calcium metabolism, are overactive (hyperparathyroidism). On the other hand, certain genetic factors, intestinal bypass surgery and a diet high in oxalic acid may cause excess amounts of oxalate in your body.
- Struvite stones
Found more often in women than in men, struvite stones are almost always the result of chronic urinary tract infections caused by bacteria that produce specific enzymes. These enzymes increase the amount of ammonia in the urine, which is incorporated in the crystals of struvite stones. These stones are often large, may have a characteristic stag's-horn shape and can seriously damage the patient’s kidneys.
- Uric acid stones
These stones are formed of uric acid, a byproduct of protein metabolism. A patient is more likely to develop uric acid stones if he has undergone chemotherapy, consumes a high-protein diet or has certain genetic factors that predispose him to the condition.
- Cystine stones
These stones represent only a small percentage of kidney stones. They form in people with a hereditary disorder that causes the kidneys to excrete excessive amounts of certain amino acids (cystinuria).
Kidney stones vary in size and shape.
Golf-ball sized and round
Small and smooth
Jagged and yellow
IV. Material & Methods
Sample Preparation
Dissolve a sample as homogenously as possible of the urinary calculus to be analysed. From this solution the various components of the calculus are determined semi-quantitatively, the titrimetric method being used for calcium and a colorimetric method (ie. visual colour comparison) being used for oxalate, phosphate, magnesium, ammonium, uric acid and cysteine. The composition of the urinary calculus is obtained form the results of these determinations with the help of the test kit’s calculation aid.
1. 1. Finely triturate the calculus to be analysed in a motar.
2. 2. Mix the resultant powder thoroughly and using a spatula, transfer a tipful to a plastic boat.
3. 3. Add 5 drops of Sulfuric acid. Stir with spatula to ensure complete dissociation.
4. (Evolution of gas during dissolution indicates carbonate.)
5. 4. Transfer the solution into a 100ml graduate filed to one-third with distilled water.
6. 5. Make up to the 50ml mark with distilled water and mix well with the plastic boat.
7. 6. Transfer 5ml of the sample solution into each of several test tubes for other calculi composition testing, with the exception of Magnesium.
8. 7. For Magnesium testing, transfer 1 ml of the sample solution into another test tube with 4 ml DI water.
Individual calculi composition analysis
- Calcium
Reagents
Reagent 2: Sodium hydroxide solution 27%
Reagent 3: Calconcarboxylic acid tituration
Reagent 4: Titriplex III solution
Procedure
To the sample solution, add 2 drops of reagent 2 and one spatulaful of Reagent 3 and shake.
Continue shaking, and while doing so add reagent 4 drop by drop until the colour of the solution changes from red to blue. Count the drops required for the colour change to occur.
The number of drops required multiplied by 5 gives the percentage calcium content of the calculus.
- Oxalate
Reagents
Reagent 5: Borate buffer solution
Reagent 6: Iron (III) chloride solution
Reagent 7: Sulfosalicylic acid solution
Procedure
To the sample solution, add subsequently while shaking
2 drops of Reagent 5,
2 drops of Reagent 6,
3 drops of Reagent 7; allow to stand for 2 minutes.
Compare the colour of the solution with the appropriate colour scale and determine which of the reference colours most closely matches the colour of the solution, looking through the solution from the above process.
Read off the percentage oxalate content of the calculus.
- Ammonium
Reagents
Reagent 8: Potassium tetraiodomercurate (II)
Reagent 2: Sodium hydroxide solution 27%
Procedure
Add subsequently to the sample solution, while shaking,
3 drops of Reagent 8 and
3 drops of Reagent 2.
Compare the colour of the solution with the appropriate colour scale and determine which of the reference colours most closely matches the colour of the solution, looking through the solution from the above process.
Read off the percentage ammonium content of the calculus.
- Phosphate
Reagents
Reagent 9: Ammonium molybdate solution
Reagent 10: Reducing solution 4: methylaminophenol sulfayte soldium disulfite)
Procedure
Add subsequently to the sample solution, while shaking
5 drops of Reagent 9 and
5 drops of Reagent 10; Allow to stand for 5 minutes
Compare the colour of the solution with the appropriate colour scale and determine which of the reference colours most closely matches the colour of the solution, looking through the solution from the above process.
Read off the percentage phosphate content of the calculus.
- Magnesium
Reagents
Reagent 11: Buffer solution (borate buffer)
Reagent 12: Colour reagent (1-azo-2-hydroxy-3-(2, 4-dimethyl-carboxanilido)-napthalene-1’-2-hydroxylbenzene-5-sodium sulfonate) solution
Procedure
Pipette 1 ml of sample solution into a reaction vessel and make up to the calibration mark with distilled water. Add 10 drops of Reagent 11 and 10 drops of Reagent 12 while shaking.
After 1 minute, compare the colour of the solution with the appropriate colour scale and determine which of the reference colours most closely matches the colour of the solution, looking through the solution from the above process. Read off the percentage magnesium content of the calculus.
- Uric Acid
Reagents
Reagent 13: Molybdatophosphoric acid solution
Reagent 5 Borate buffer solution
Procedure
Add 3 drops of Reagent 13 to the sample solution, shake, and allow to stand for 2 minutes. Then add 2 drops of Reagent 5 and shake. Immediately compare the colour of the solution with the appropriate colour scale and determine which of the reference colours most closely matches the colour of the solution, looking through the solution from the above process. The colour comparison should be performed within 10 seconds after the addition of Reagent 5 to the sample solution because the colour is not stable and liable to change to blue.
Read off the percentage uric acid content of the calculus.
- Cystine
Reagents
Reagent 14: Ammonia solution
Reagent 15: Reducing agent (sodium sulphite)
Reagent 16: Sodium nitroprusside titruation
Procedure
To the sample solution, add 10 drops of Reagent 14 and a red dosing spoonful of Reagent 15, and swirl until dissolution is obtained. 1 minute after the addition of Reagent 15, add a black dosing-spoonful of Reagent 16, and again shake until dissolution is obtained. Compare the colour of the solution in the reaction vessel with the appropriate colour scale 30 seconds after the addition of reagent 16, and determine which of the reference colours most closely matches the colour of the solution, looking through the solution from the above process.
Read off the percentage cystine content of the calculus.
Result Reporting
Record down the percentage values for each of the calculi components on a result slip.
V. Conclusion
Urinary calculi analysis may sound tedious, but its actually very fun to perform....if there isn't much samples. Its like O'Level Chemistry practical..Qualitative Analysis. Hope it rings a bell.
I'm sure u got lotsa questions to ask. Just show some mercy ok? This topic is really vast. This message goes out especially to those from my workplace. . =P
Will upload more exciting photos soon. Stay tuned!
Kent Lieow
TG 01
0503261J
19 comments:
hi...
YOu have to perform the test usign all the different components such as calcium, oxalate, magnesium, etc in order to find out the type of kidney stone formed?? is there any other test apart from this urine analysis to find out the type of kidney stone formed?
Vinodhini
TGO2
O___O
How the *** can the stone be released into the external environment? LOL. Sounds OUCHOUCHOUCH.
Anyway, what are the pspecific enzymes and bacteria that can cause the build up of ammonium, leading to the formation of struvite stones? Thanks!
Charmaine Tan
TG01
hey
haha. u mentioned alot of reagent.. but how do they react with one another ?
Jo-anne Loh
TG02
To Vinodhini
Yup, each test is specific for one type of calculi only. We must do every one of it to ensure we have analysed the stone completely. Btw, thanks for highlighting the fact that I missed one of the most important parts- urinary calculi diagnosis! As I cover the diagnosis of urinary calculi analysis, those sentences in italics will answer your question on other tests that can be done to find out the type of calculi.
Diagnosis of renal stone disease involves:
1. Medical history
2. Physical examination
3. Laboratory evaluation
4. Imaging tests.
Medical History
The physician determines if the patient has a history of kidney stones, documents past medical conditions, and evaluates present symptoms.
Physical examination
Physical examination may be difficult if the patient is experiencing severe pain and is unable to remain still. Lightly tapping on the kidney region often worsens the pain. Fever may indicate a urinary tract infection that requires antibiotics (possibly stuvite stones).
Laboratory evaluation
Laboratory tests include urinalysis to detect the presence of blood and bacteria in the urine. Other tests include blood tests for creatinine, BUN and electrolytes, calcium (if raised, check renal function), and a complete blood count (for the presence of a raised white cell count (Neutrophilia) suggestive of infection).
24 hour urine collection is done to measure total daily urinary volume, magnesium, sodium, uric acid, calcium, citrate, oxalate and phosphate (may indicate type of stone if analyte is raised).
Imaging tests
Abdominal X-ray
Used to determine the stone’s size, shape and orientation (certain stones have certain shape, e.g. struvite stones are the most common cause of staghorn calculi).
Computerized tomography (CT scan)
This test uses a scanner and a computer to create images of the urinary system. It is performed quickly but may have difficulty detecting small stones located near the bladder. CT scan can also help identify medical conditions (e.g., ruptured appendix, bowel obstruction) that cause symptoms similar to kidney stones.
Intravenous Pyelogram (IVP)
This test involves taking a series of x-rays after injecting a contrast agent (dye) into a vein. The contrast agent flows through the veins, is excreted by the kidneys, and improves the x-ray images of the kidneys and ureters. If a kidney stone is blocking a ureter, the contrast agent builds up in the affected kidney and is excreted more slowly. Most kidney stones (e.g., calcium stones) can be precisely located using this procedure.
Example
Specific diagnosis for Uric Acid calculi will be based on
• X-Ray on abdomen- Pure Uric Acid calculi is radiolucent (almost invisible in x-ray photographs and under fluoroscopy.)
• Non-contrast abdominal CT
Stuvite stones will be faintly radiopaque (visible in x-ray photographs and under fluoroscopy).
To Charmaine Tan,
Yup, the doc will ask the patient to try to force it out for analysis. Passing a stone may be painless or it may be very painful. The pain can begin suddenly and may come and go. A sand-sized stone may pass with little pain. A larger stone may cause a lot of pain in the lower back, groin, or genitals as it moves down the ureters or the urethra. A small stone may pass without medical treatment. A large stone may need surgery or another type of procedure to get it out.
I don’t really know the specific enzymes but the formation of struvite stones is associated with the presence of urea-splitting bacteria in urinay tract infections, most commonly Proteus mirabilis (but also Klebsiella, Serratia, Providencia species). These organisms are capable of splitting urea into ammonia, decreasing the acidity of the urine and resulting in favorable conditions for the formation of struvite stones.
To Joanne,
Erm, u mean the test principles of the qualitative tests? I have included the reagents along with the explanation for your convenience.
1. Calcium
Principle
Titrimetric determination with Titriplex III (ethylenedinitrtrilotetraacetic acid disodium salt). A tituration of calconcarboxylic acid is used as an indicator. End point of reaction occurs when the colourless solution turns blue.
Reagents
Reagent 2: Sodium hydroxide solution 27%
Reagent 3: Calconcarboxylic acid tituration
Reagent 4: Titriplex III solution
2. Oxalate
Principle
The colour complex formed by iron (III) and sullfosalicylic acid is discharged by oxalate.
Reagents
Reagent 5: Borate buffer solution
Reagent 6: Iron (III) chloride solution
Reagent 7: Sulfosalicylic acid solution
3. Ammonium
Principle
With Nessler’s reagent (reagents 2 and 8) added, ammonium gives a yellow to brown solution
Reagents
Reagent 8: Potassium tetraiodomercurate (II)
Reagent 2: Sodium hydroxide solution 27%
4. Phosphate
Principle
The molybdaptophosphoric acid formed upon addition of ammonium molybdate is reduced to molydenum blue by means of reducing agents.
Reagents
Reagent 9: Ammonium molybdate solution
Reagent 10: Reducing solution 4: methylaminophenol sulfayte soldium disulfite)
5. Magnesium
Principle
In a buffered solution magnesium reacts with the colour reagent (reagents 11 and 12) to form a red complex.
Reagents
Reagent 11: Buffer solution (borate buffer)
Reagent 12: Colour reagent (1-azo-2-hydroxy-3-(2, 4-dimethyl-carboxanilido)-napthalene-1’-2-hydroxylbenzene-5-sodium sulfonate) solution
6. Uric Acid
Principle
In a buffered solution molybdatophosphoric acid is reduced to form molybdenum blue by uric acid.
Reagents
Reagent 13: Molybdatophosphoric acid solution
Reagent 5 Borate buffer solution
7. Cystine
Principle
Cystine is reduced to cysteine by sodium sulphite. In an alkaline environment, cysteine gives a red colour together with sodium nitroprusside.
Reagents
Reagent 14: Ammonia solution
Reagent 15: Reducing agent (sodium sulphite)
Reagent 16: Sodium nitroprusside titruation
Phew.. Hope I answered your questions!
Kent
TG01
0503261J
Yo kent
If the patient has gout, will he likely to have uric acid stones? If yes, how to prevent it? Thanks
Ci Liang
TG01
hi kent,
quite an interesting blog huh.. haha.. okie.. do you know how do the doctor cure the patient having the different stones? u mentioned that Evolution of gas during dissolution indicates carbonate, wad does it mean if there are carbonate? thanks..
Gail
0503160D
YO LIBANG!
I nearly fell asleep after reading this fairytale. Hahaha. Anyway, where do cysteine from cysteine stones come from? Just from hereditary kidney problems? And WHAT IF the stones/rocks are just TOO LARGE to be excreted out, even forcefully, what needs to be done then?
Thanks.
-Alex Tg02
To Ci Liang,
Gout can cause kidney stones made of uric acid, but it’s just a risk factor. The patient may not necessarily develop uric acid stones. Most cases of gout are caused by poor elimination of uric acid by the kidneys, but it can be hard to know why this is happening. The specific problem with the kidney is usually never found.
Usually, if the patient has high uric acid levels but no symptoms (e.g. uric acid stones), he will not need treatment. In special cases (for example, if the patient has a strong family history of gouty arthritis or kidney stones), he may be treated for gout even though he does not have any symptoms.
If the patient has symptoms of gout, treatment/ prevention will be to:
• Stop the pain of gouty arthritis or kidney stones (using painkillers and/ or anti-inflammatory drugs)
• Try to prevent the recurrence of these problems by controlling the uric acid levels. (Using drugs e.g. Probenecid , that increase the kidney excretion of uric acid or other medicines e.g. Allopurinol, that decrease the body's production of uric acid from the purine in foods.)
Home remedies which can alleviate the symptoms of acute gout include resting and elevating the inflamed joint. Ice pack applications can be helpful to reduce pain and decrease inflammation.
To Gail and Alex
Cure/ Treatment for Kidney Stones
Stones that can't be treated with more-conservative measures — either because they're too large to pass on their own or because they cause bleeding, kidney damage or ongoing urinary tract infection — may need professional treatment. Procedures include:
• Extracorporeal shock wave lithotripsy (ESWL). This is a commonly used procedure for treating kidney stones. It uses shock waves to break the stones into tiny pieces that are then passed in the patient’s urine. The doctor will likely use X-rays or ultrasound to help determine the position of the stone as well as to monitor its status during treatment.
• Percutaneous nephrolithotomy. When ESWL isn't effective, or the stone is very large, the surgeon may remove the patient’s kidney stone through a small incision in his back using an instrument called a nephroscope.
• Ureteroscopic stone removal. This procedure may be used to remove a stone lodged in a ureter. The stone is snared with a small instrument (ureteroscope) that's passed into the ureter through the patient’s bladder. Ultrasound or laser energy can also be directed through the scope to shatter the stone. These methods work especially well on stones in the lower part of the ureter.
• Parathyroid surgery. Some calcium stones are caused by overactive parathyroid glands. When these glands produce too much parathyroid hormone, the patient’s body's level of calcium can become too high, resulting in excessive excretion of calcium in his urine.
Additionally,
Evolution of gas during dissolution indicates that the stone contains carbonate. If the stone contains carbonate, it is probably a calcite (calcium carbonate) stone, which is quite rare.
A patient with cystine stones has an abnormal kidney (inherited genetic disorder) which secretes excessive amounts of certain amino acids. E.g. cystine (an amino acid). These excess secretory cystine crystallize into cystine stones in the urinary tract.
Thanks for taking the time to read thru my post.
Kent
TG01
0503261J
hey kent
may i know how patient's urine can be affected by climate and hereditary effect?
doreen (tg 01)
To Doreen,
For the climate part, excess calcium may result from increased amounts of vitamin D, caused by over-ingesting or by possibly by increased exposure to sunlight due to climatic changes. Also the climate influences people’s diet by altering the oxalate or calcium content in certain fruits and vegetables e.g. spinach, beans, blackberries and even chocolate. (Calcium combines with oxalate in the intestines. This reduces calcium's ability to be absorbed. When there is not enough calcium or increased oxalate in the intestines, too much oxalate goes to the kidneys to be excreted. This leads to the formation of oxalate or calcium oxalate stones).
If the climate changes too drastically, some of these fruits or vegetables can’t even grow at all. The person may develop stones containing calcium. Cystine stones form in people with a hereditary disorder that causes the kidneys to excrete excessive amounts of certain cystine, or other amino acids. Also, certain genetic factors may cause excess amounts of oxalate in your body.
Kent Lieow
TG01
0503261J
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