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Kidney Stone Removal using Lasers
Kidney Stone Removal using Lasers
URINARY STONE
Hardened
mineral deposits formed in the kidney are called kidney stones
(calculi). These originate as microscopic particles and over the course of time
develop into stones. Medically this condition is known as nephrolithiasis, or
renal stone disease. The kidneys filter waste products from the blood and adds
them to the urine. When waste materials in the urine do not dissolve completely
and the kidney is unable to evacuate them, crystals and kidney stones
are likely to form. Some stones may pass out of the kidney or get lodged in the
ureter (tube that carries urine from the kidney to the bladder), and cause
severe pain that starts from the lower back and radiates to the side or groin.
A lodged stone can block the flow of urine and build a backpressure in the
affected ureter and kidney. Increased pressure results in stretching and spasm,
which cause severe pain.
Kidney Stones are formed from chemicals found in
the urine (such as uric acid, calcium,
phosphorus and oxalic acid). This happens when a particular substance in the
urine exceeds its solubility. They maybe grit, sand and gravel like
obstructions.
Etiological factors for
kidney stones are as follows.
1. Dietetic factors leading to kidney stones
A deficiency of vitamin A causes a desquamation of
epithelium. The cells form a nidus around which the stone is deposited. From a
study of economic conditions in districts where urinary calculi are common, it
is evident that the inhabitants suffer from dietetic imbalances.
2. Altered urinary solutes and colloids
causing kidney stone
In hot climate the concentration of solutes
will rise.
The answer has been provided through laser technology. Using a tiny fiberoptic fibers -- 350 microns in diameter or less -- passed through the ureteroscope (as these delicate scopes are called), laser energy is used to fragment the stone. Darth Vader, meet Marcus Welby.
There are many different types of lasers used in
medicine. Different laser types and wavelengths have markedly different effects
on living tissue. Some, like the CO2 laser, work best in air, and are used to
vaporize skin lesions, such as warts, with very little deep tissue penetration
and virtually no subsequent scarring. Others provide deep thermal energy to
destroy tumors or other tissues with minimal effect on the surface. For kidney
stone work, a holmium laser in direct contact with the stone is commonly used.
The laser is fired at a very rapid repeating frequency. At the tip of the fiber, which is placed in contact with the stone, the intense light energy vaporizes the water used for irrigation, creating a rapidly-expanding plasma. An intense yet short-radius shockwave results. This has the effect of drilling into the stone, which creates areas of relative weakness and fracture. As a result, the stone breaks into increasingly smaller pieces, which can be extracted or flushed out. Because of the short energy radius, the surrounding tissues are unaffected.
The laser is fired at a very rapid repeating frequency. At the tip of the fiber, which is placed in contact with the stone, the intense light energy vaporizes the water used for irrigation, creating a rapidly-expanding plasma. An intense yet short-radius shockwave results. This has the effect of drilling into the stone, which creates areas of relative weakness and fracture. As a result, the stone breaks into increasingly smaller pieces, which can be extracted or flushed out. Because of the short energy radius, the surrounding tissues are unaffected.
WHAT IS LASER LITHOTRIPSY?
Laser
lithotripsy uses a laser that is mounted on the end of a fiber optic scope.
The scope is inserted into the patient’s body through the urethra and bladder
up to the ureter. Once the scope is advanced to the level of the stone, the
laser is turned on and the stone is pulverized.
The holmium YAG laser offer advantages over previous
types of lasers. Lasers for lithotripsy were first used in the late 1980's
but were limited in power by the diameter of the fiber used. Larger fibers
meant more power, but they were more rigid and less suited to the environment
which demanded flexibility and freedom of movement. The YAG holmium also is
capable of producing smaller stone fragments than previous laser treatments.
This method is rapidly replacing traditional lithotripsy
for the removal of kidney stones. The advantages of laser surgery over
traditional lithotripsy are that there is a higher first time rate of success
with laser surgery than with traditional lithotripsy methods and the laser is
more effective on complex stones. The patient can resume their daily routine within
one to two days of the procedure.
REMOVAL
OF KIDNEY STONE USING LASER
Kidney
stones can be a very painful condition. There are several different methods
used to eliminate the them. Among some of the more popular methods is herbal
treatments, pain medications with a combination of increasing fluids and
dietary modifications.
However,
sometimes it is necessary to use more invasive procedures to eliminate the
kidney stone in the event it is unable to be passed through other methods.
Laser kidney stone removal is one of the more extreme means for assisting in
the removal.
For many,
just the thought of having any type of surgical procedure done causes them to
cringe. However, you might not realize it, but the laser kidney removal process
is definitely a lot less painful than dealing with the stomes themselves. The
Uteroscopic stone removal is a fairly simple procedure that is going to require
you to go under a general anesthetic.
The
procedure consists of a surgeon using a uteroscop (small fiber optic utensil)
that is inserted through the urethra into the bladder and finally it is
inserted into the ureter. Usually in a fairly minimal amount of time the kidney
stone is found. Once it is found there will be a shock wave that destroys the
kidney stone so it can be either eliminated or passed through urine or removed
by another tool during the procedure.
Typically,
after the procedure has been completed a portion of the tube that was inserted
is left behind. The stent it left so it can induce the body to begin the healing
process. Generally, when the stent is left in the body it is because the kidney
stone was likely in either the lower or middle portion of the ureter.
Laser
removal is virtually painless as the small medical instrument is gently
inserted. The procedure begins with the urethra and makes it way into the
ureter, which is where the stone should be. You can expect to be given a local
anesthetic for this procedure.
Recovery
time is minimal, although you will not be able to drive after the procedure due
to the anesthesia. The kidney stone is then targeted with the laser and is
removed through urine after the procedure. It will either disintegrate upon
contact from the laser or it will break down into smaller pieces where it will
be passed in the urine.
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KIDNEY
STONE REMOVAL USING HOLMIUM LASER
Kidney stone removal with the Holmium laser is used to blast apart the larger kidney stones that get stuck in the ureter. During this procedure you will be given anesthesia and brought to the operating room. Initially the kidney stone is viewed with the x-ray as you are lying on the bed which shows where it is in your urinary system. Then the ureteroscope is slid into and past the urethra and bladder into the ureter; our urologists can see with either the eyepiece of the ureteroscope or up on a monitor which is provided by a camera attached to the ureteroscope. During the procedure the fluoroscopy (x-ray) is showing the movement of the instruments and the stone. Once the urologist determines that the stone cannot be removed with a basket a thin laser is slide up the ureteroscope and placed directly in front of the kidney stone and a pedal is pressed which fires the Holmium laser directly into the stone. After each blast of the laser our urologists adjust the laser and fire it again until the kidney stone is fully broken apart. A thin tube called a stent is then placed from the kidney to the bladder which allows the urine to flow out easily for the next week to a month, at which time the stent is pulled out in an office visit.
Kidney
stone removal with the Holmium laser is also an out patient procedure; you will
go home that day. Again you may have some “blood in urine” for a few days after
the Holmium laser surgery.
Kidney
stone removal that is performed when the stone is up in the kidney and cannot
be broken apart with the ESWL procedure, or when the kidney stone has many
branches that jut out into many parts of the kidney, such as a staghorn
calculi, are removed with either the percutaneous nephrolithotomy or
nephrolithotripsy. The surgeon makes a small incision in the back to the kidney
which is held open with a tube. If the stone can be pulled out of the kidney it
is called a nephrolithotomy. When the stone does not come out, then it needs to
be broken up and then removed, this is called a nephrolithotripsy. Both of
these procedures include an over night stay.
POTENTIAL COMPLICATIONS
The holmium laser melts up to 100% of kidney stones and
is useful on all kidney stone types and compositions.The laser has an excellent
safety record.
Lithotripsy laser surgery is not without complications;
the patient may experience bleeding for a few days after the procedure.
Complication rates for any type of Intracorporeal surgery for kidney stones is
approximately 3%. The incidence of major complications is approximately 1%.
Other complications from the procedure can include infection, tissue scarring,
and fluid overload (most common in patients with heart disease or the very
young).
With its high safety rating, low rate of complications
and quicker recovery time, the laser lithotripsy procedure is viewed by many as
the most effective way to remove kidney stones that cannot be passed from the
body.
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