Tuesday, 25 November 2014

WHAT IF HEART SURGERY DIDN'T LEAVE A HUGE SCAR? : Robotic Surgery (da Vinci Surgery)

If your doctor recommends surgery to treat mitral valve prolapse, you may be a candidate for da Vinci® Mitral Valve Repair, potentially the most effective least invasive treatment option available. da Vinci Mitral Valve Repair is an alternative to conventional open heart surgery – the traditional way to treat mitral valve disease. da Vinci Mitral Valve Repair is performed using the da Vinci Surgical System, enabling your surgeon to operate with unparalleled precision and control through a few small incisions.
In addition to avoiding the pain and trauma of sternotomy and rib spreading, da Vinci Mitral Valve Repair provides most patients with the following benefits over open surgery:
o    Less risk of infection
o    Less blood loss and need for blood transfusions
o    Shorter hospital stay
o    Significantly less pain and scarring
o    Faster recovery
o    Quicker return to normal activities
o    And a potentially better clinical outcome
OLD VS. NEW
While surgery is generally the most effective way to treat disorders of the heart, lungs and esophagus, traditional open surgery has a number of inherent drawbacks caused primarily by making a large incision, splitting of the breastbone and spreading the ribs to access the thoracic space. In addition to an 8 to 10” scar down the center of your chest, splitting of the breastbone leads to a lengthy recovery time as well as a prolonged delay before you will return to normal daily activities.
The minimally invasive da Vinci® Surgical System, provides surgeons and patients with what may be the most effective, least invasive treatment alternative for even the most complex cardiothoracic procedures such as mitral valve repair.
HEART VALVES
Heart valves regulate the flow of blood through the heart's four chambers—two small, round upper chambers (atria) and two larger, cone-shaped lower chambers (ventricles). Each ventricle has a one-way inlet valve and a one-way outlet valve. In the right ventricle, the inlet valve is the tricuspid valve, which opens from the right atrium, and the outlet valve is the pulmonary (pulmonic) valve, which opens into the pulmonary arteries. In the left ventricle, the inlet valve is the mitral valve, which opens from the left atrium, and the outlet valve is the aortic valve, which opens into the aorta. Each valve consists of flaps (cusps or leaflets), which open and close like one-way swinging doors.
HEART VALVE DISORDERS
Heart valves don't always work as they should. A person can be born with an abnormal heart valve, a type of congenital heart defect.
A defective heart valve is one that fails to fully open or close. A stenotic heart valve can't open completely, so blood is pumped through a smaller-than-normal opening. A valve also may not be able to close completely. This leads to regurgitation (blood leaking back through the valve when it should be closed).

HEART VALVE TREATMENT IN INDIA

Most of the time, there are no (or few) symptoms for mitral valve conditions, and treatment is not needed. If you have severe mitral valve prolapse, you may need to stay in the hospital. Surgery to repair or replace the valve may be needed if you have severe mitral regurgitation or your symptoms get worse.


Surgery should be considered in virtually all patients with a leak that is graded as a 4 (severe) and in some patients with a leak that is graded as a 3 (moderately severe). When a patient with mitral valve regurgitation develops symptoms, a decrease in heart function, or an increase in heart size, surgery is recommended. Surgery should also be considered when a patient develops atrial fibrillation, which is an irregular heartbeat. Surgery is also recommended in many asymptomatic patients who have a severe leak.
Recently, minimally invasive approaches to Mitral Valve Repair are replacing sternotomy as the surgical method of choice. Of the minimally invasive approaches, robotic surgery (da Vinci Surgery) has many practical advantages for both the patient and the surgeon – precision, fewer complications, reduced blood loss and shorter hospital stays.


Tuesday, 11 November 2014

Major Facts about Coarctation of the Aorta : Best Heart Surgery Hospital in India

Coarctation of the aorta is a birth defect in which a part of the aorta is narrower than usual.If the narrowing is severe enough and if it is not diagnosed, the baby may have serious problems and may need surgery or other procedures soon after birth. For this reason, coarctation of the aorta is often considered a critical congenital heart defect. The defect occurs when a baby’s aorta does not form correctly as the baby grows and develops during pregnancy. The narrowing of the aorta usually happens in the part of the blood vessel just after the arteries branch off to take blood to the head and arms, near the ductus arteriosus, although sometimes the narrowing occurs before or after the ductus arteriosus. In some babies with coarctation, it is thought that some tissue from the wall of ductus arteriosus blends into the tissue of the aorta. When the tissue tightens and allows the ductus arteriosus to close normally after birth, this extra tissue may also tighten and narrow the aorta.
The narrowing, or coarctation, blocks normal blood flow to the body. This can back up flow into the left ventricle of the heart, making the muscles in this ventricle work harder to get blood out of the heart. Since the narrowing of the aorta is usually located after arteries branch to the upper body, coarctation in this region can lead to normal or high blood pressure and pulsing of blood in the head and arms and low blood pressure and weak pulses in the legs and lower body.
If the condition is very severe, enough blood may not be able to get through to the lower body. The extra work on the heart can cause the walls of the heart to become thicker in order to pump harder. This eventually weakens the heart muscle. If the aorta is not widened, the heart may weaken enough that it leads to heart failure. Coarctation of the aorta often occurs with other congenital heart defects.
In a recent study in Atlanta, CDC has estimated that about 4 out of every 10,000 babies born have coarctation of the aorta 1.

Causes and Risk Factors

The causes of heart defects, including coarctation of the aorta, among most babies are unknown. Some babies have heart defects because of changes in their genes or chromosomes. Heart defects, like coarctation of the aorta, are also thought to be caused by a combination of genes and other risk factors, such as things the mother comes in contact with in the environment, what the mother eats or drinks, or medicines the mother uses.
Coarctation of the aorta is usually diagnosed after the baby is born. How early in life the defect is diagnosed usually depends on how mild or severe the symptoms are.  Those with severe narrowing will have symptoms early in life, while babies with mild narrowing may never have problems, or signs may not be detected until later in life.
In babies with a more serious condition, early signs usually include:
  • pale skin
  • irritability
  • heavy sweating
  • difficulty breathing
Detection of the defect is often made during a physical exam. In infants and older individuals, the pulse will be noticeably weaker in the legs or groin than it is in the arms or neck, and a heart murmur—an abnormal whooshing sound caused by disrupted blood flow—may be heard through a doctor’s stethoscope. Older children and adults with coarctation of the aorta often have high blood pressure in the arms.
Once suspected, an echocardiogram is the most commonly used test to confirm the diagnosis. An echocardiogram is an ultrasound of the heart that can show problems with the structure of the heart and the blood flow through it, and how well the heart is working. It will show the location and severity of the coarctation and whether any other heart defects are present. Other tests to measure the function of the heart may be used including chest x-ray,electrocardiogram (EKG)magnetic resonance imaging (MRI), and cardiac catheterization.
Coarctation of the aorta is often considered a critical congenital heart defect (CCHD) because if the narrowing is severe enough and it is not diagnosed, the baby may have serious problems soon after birth. CCHDs also can be detected with newborn pulse oximetry screening. Pulse oximetry is a simple bedside test to determine the amount of oxygen in a baby’s blood. Low levels of oxygen in the blood can be a sign of a CCHD. Newborn screening using pulse oximetry can identify some infants with a CCHD, like coarctation of the aorta, before they show any symptoms.

Treatment

No matter what age the defect is diagnosed, the narrow aorta will need to be widened once symptoms are present. This can be done with surgery or a procedure called balloon angioplasty. A balloon angioplasty is a procedure that uses a thin, flexible tube, called a catheter, which is inserted into a blood vessel and directed to the aorta. When the catheter reaches the narrow area of the aorta, a balloon at the tip is inflated to expand the blood vessel. Sometimes a mesh-covered tube (stent) is inserted to keep the vessel open. The stent is used more often to initially widen the aorta or re-widen it if the aorta narrows again after surgery has been performed. During surgery to correct a coarctation, the narrow portion is removed and the aorta is reconstructed or patched to allow blood to flow normally through the aorta.
Even after surgery, children with a coarctation of the aorta often have high blood pressure that is treated with medicine. It is important for children and adults with coarctation of the aorta to follow up regularly with a cardiologist (a heart doctor) to monitor their progress and check for other health conditions that might develop as they get older.

Friday, 7 November 2014

What can I expect after Angioplasty and Stenting? : Best Heart Hospital in India

You may be a candidate for angioplasty and stenting if you have moderate to severe narrowing or blockage in one or more of your blood vessels. Usually, you will also have symptoms of artery disease, such as pain or ulceration, in one of your limbs.
If you have extremely hard plaque deposits, blockages that contain blood clots or a large amount of calcium, extensive or particularly long blockages, blood vessel spasms that don't go away, or complete blockages that cannot be crossed with the catheter, you probably are not a good candidate for angioplasty.

Am I at risk for complications during Angioplasty and Stenting?
Complications to angioplasty and stenting may include reactions to the contrast dye, weakening of the artery wall, bleeding at the access puncture site in the vessel or the angioplasty site, re-blocking of the treated artery, and kidney problems. Additionally, blockages can develop in the arteries downstream from the plaque if plaque particles break free during the angioplasty procedure. If severe, these can lead to worsening of the blood flow.
If you have diabetes or kidney disease, you may have a higher risk of complications from the contrast dye, such as kidney failure. In the case of kidney disease, sometimes pre-treatment with medications or fluids may decrease the impact on your kidneys.
People with blood clotting disorders also may have a higher risk of complications from the procedure. If the plaque deposits in your arteries are especially long, you may have a greater chance of your artery closing up again after angioplasty and stenting.

Your physician will usually insert the angioplasty catheter through a small puncture point over an artery in your groin, your wrist, or your elbow. Before the insertion, he or she will clean your skin and shave any hair in the immediate area. This is done to reduce your risk of infection. Your physician numbs your skin and then makes a small cut or puncture to reach the artery below. Although you may be given some mild sedation, your vascular surgeon will usually want you to stay reasonably alert to follow instructions and describe your sensations during the procedure.
Your vascular surgeon then inserts a guide wire or a guide catheter into your artery. Using a type of x ray that projects moving pictures on a screen, your physician guides the catheter through your blood vessels. Because you have no nerve endings in your arteries, you will not feel the catheters as they move through your body.
Next, your vascular surgeon will insert a balloon catheter over the guide wire or through the guide catheter. The balloon catheter carries a deflated and folded balloon on its tip. Your vascular surgeon guides the balloon catheter to the narrowed section of your artery. He or she partially inflates the balloon by sending fluid through the balloon catheter.
Your vascular surgeon watches the x ray screen for signs of a pinch in the balloon. Then, your vascular surgeon will inflate the balloon more, until the pinch caused by your artery flattens out. When the balloon is full, your vascular surgeon may deflate and re-inflate it repeatedly to press the plaque against your artery walls. Usually, this process takes a few minutes. Sometimes, if you have a severe blockage, your physician may need to inflate and deflate the balloon longer.
Your artery may stretch and your blood flow through the artery stops when the balloon is pushing your artery open. This may cause pain. However, the pain should go away when your vascular surgeon deflates the balloon and normal blood flow resumes. Make sure to tell your physician if you experience any symptoms during angioplasty.
There is a risk that your artery will re-narrow or become blocked again at the site where the balloon was inflated. This can happen soon after the procedure, or months to years later. Re-narrowing of your artery is called restenosis, and if your artery suddenly becomes blocked again it is called re-occlusion. Restenosis can happen when scar tissue builds up inside your arteries where the balloon compressed your plaque deposits.
After angioplasty, your vascular surgeon will sometimes need to use a stent to brace the artery open to prevent re-occlusion. A stent is a tiny mesh tube that looks like a small spring, and comes in a variety of sizes. To place a stent, your physician removes the angioplasty balloon catheter and inserts a new catheter. On this catheter, a closed stent surrounds a deflated balloon. Your vascular surgeon guides the stent through your blood vessels to the place where the angioplasty balloon widened your artery. Your physician inflates the balloon inside of the stent. This expands the stent. Your physician then deflates and removes the balloon. The stent remains in place to support the walls of your artery. Your artery walls grow over the stent, preventing it from moving. Although stents help prop open your arteries, scar tissue sometimes can eventually form around stents and cause restenosis.
A new type of stent is coated with drugs. These drugs may help prevent scar tissue from forming inside a stent. Studies have shown that these new stents may be more likely to prevent restenosis than ordinary, non-coated stents. In the United States, physicians currently use drug-coated stents in coronary arteries (the arteries supplying the heart). Experts are still testing drug-coated stents for use in other arteries.
Once your vascular surgeon finishes angioplasty and stenting, he or she removes all of the catheters from your body. If blood-thinning medications have been used, your physician may leave a short tube, called a sheath, in your artery for a short time until the medications have worn off sufficiently to allow the puncture site to seal over when the sheath is removed.
Eventually, your physician removes the sheath and presses on the puncture area for 15 to 30 minutes to prevent bleeding. Sometimes, instead of pressing, your physician may close the area with a device that functions like a tiny cork, or he or she may use stitches.
Angioplasty and stenting usually takes between 45 minutes and 3 hours, but sometimes longer depending upon the particular circumstances.

What can I expect after Angioplasty and Stenting?
Usually, you will stay in bed for six hours after your angioplasty. During this time, your vascular surgeon and the hospital staff closely monitor you for any complications. If your physician inserted the catheters through an artery in your groin, you may have to hold your leg straight for several hours. Similarly, if your arm was used, then you will need to hold it still to minimize the risk of bleeding.
If you notice any unusual symptoms after your procedure, you should tell your vascular surgeon immediately. These symptoms include leg pain that lingers or gets worse, a fever, shortness of breath, an arm or a leg that turns blue or feels cold, and problems around your access site, such as bleeding, swelling, pain, or numbness.
After you return home, your vascular surgeon will give you instructions about everyday tasks. For example, you should not lift more than about 10 pounds for the first few days after your procedure. You should drink plenty of water for 2 days to help flush the contrast dye out of your body. You can usually shower 24 hours after your procedure, but you should avoid baths for a few days.
Your physician may prescribe aspirin or other medications that thin your blood. These medications will help prevent clots from forming on your stent. Your physician may also ask you to follow an easy exercise program, like walking.
You will be asked to schedule a time to see your physician after the procedure. At this appointment, your physician may check your blood to make sure your medications are at the right dosage. He or she may also use tests to see how blood is flowing through your treated artery.

Serious complications are unusual following angioplasty and stenting but, nevertheless, can occur.
Less serious complications include bleeding or bruising where your vascular surgeon inserted the catheters. Sometimes, the hole created by the catheter does not completely close. This can create a false channel of blood flow. Rarely, an abnormal connection can form between an artery and a vein at the place where the catheter was inserted. These problems usually go away. However, if you have any serious symptoms, your vascular surgeon can treat you.
You may have an increased risk for blood clots forming along your stent, especially in the first month after your procedure. To reduce this risk, your physician may prescribe medications that thin your blood.

As more time passes after your angioplasty and stenting, restenosis becomes more likely. Stents, especially drug-coated stents, may reduce this risk. However, in some cases, you may need a repeat angioplasty or a bypass surgery if a restenosis develops.