Dr. Raghu | Dr Raghu

Coronary-Bifurcation-Lesions.jpg

Coronary arteries are the vessels which supply blood (oxygen and nutrients) to the heart; this supply may be disrupted due to buildup of cholesterol and fatty deposits, called plaques, on the inner walls of the arteries (atherosclerosis) causing narrowing of the vessel lumen.

Coronary lesions branch out as they progress to supply various cardiac structures. A bifurcation lesion is a stenosis or abnormal narrowing of greater than 50% that occurs in a coronary artery at the origin of the side branch or adjacent to the origin of the side branch. Branching points a.k.a bifurcation points in the coronary arteries are prone to develop atherosclerosis as the shear stress is higher at the branch points.

The figure shows how a bifurcation stenosis appears schematically as well as on angiography.

bifurcation lesion

 

Why bifurcation lesions are important?

A vast majority of coronary arteries obstructions happen at the branching point. About 15-20% of patients of referrals for bypass surgery are because of the presence of coronary narrowing at bifurcation location. They are considered a tough lesion to treat by angioplasty and stent.

How are bifurcation lesions diagnosed?

Bifurcation lesions are identified on coronary angiography. Only lesions affecting side branch blood vessels more than 2.25 mm is considered important and called bifurcation lesions. The main vessel that gives branches is called main vessel and the branches that originate from it are called side branches. The point at the division of the main vessel and side branch is called a bifurcation point.

How is a bifurcation lesion unique?

Bifurcation lesions can involve the coronary artery either before or after the bifurcation point. In addition, side branches could be either diseased or free from disease. Based on the location and severity of the cholesterol plaque at the bifurcation point, sub types of bifurcation lesions have been identified.

The challenge of performing angioplasty and stent for a bifurcation stenosis lies in the ability to preserve the main vessel and the side branch. Stents being metallic tubes risk occluding the side branch when placed across the side branch. This apprehension of losing the side branch, is one of the primary reasons for patients to be sent for bypass surgery instead of angioplasty and stent.

Coronary-bifurication

Can angioplasty and stent be performed for a bifurcation lesion?

Angioplasty and stent can be eminently performed for a bifurcation stenosis. Over the last 2 decades numerous techniques in stent implantation have been developed to treat the bifurcation lesions. Some of these techniques include:

  • Provisional T stent technique
  • Tap technique
  • Double kiss crush technique
  • Culotte technique

Advent of these techniques enabled experienced operators to perform angioplasty and stent successfully with chances of repeat narrowing seen in 3-6% patients at the site of stenting. Risk of losing a side branch after stenting is reduced to 1% once the new techniques are employed.

Dr. C Raghu is an expert in bifurcation lesion angioplasty and the center where he has been trained, ICPS Paris France is considered the “Mecca” for bifurcation lesion angioplasty techniques development. 

How does a bifurcation lesion angioplasty differ from a normal angioplasty?

Bifurcation lesion angioplasty, involves utilization of novel stent techniques mentioned above. In addition, angioplasty operator experience is a major factor in determining  outcomes. Choosing the “right” stent that allows side branch access, use of specialized technologies such as fractional flow reserve (FFR), expertise in deploying 2 stents especially the process of “stent crush” and the handling of two balloons through a single catheter – kissing balloon are key points for the best results in a stent procedure.

What are the chances of side branch occlusion in a bifurcation lesion angioplasty?

Contemporary bifurcation angioplasty using Intravascular imaging employing contemporary stenting techniques in the hands of expert bifurcation angioplasty operators carries a 99% success rate with a chance of losing side branch in 1% and repeat narrowing at the end of 9 months being 3-6%. These results are comparable and if not superior to bypass surgery as angioplasty entails a short hospital stay and fast recovery.

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      Women especially at young age are experiencing an unprecedented increase in heart attacks and strokes. We attempt In this article to make the reader aware of the reasons for this.

      How are women different from men for developing heart attack?

      Women tend to develop cardiac disease 7-10 years later compared to men that is attributed to the protective effect of estrogen hormone, which is present till menopause.

      What are the traditional risk factors for developing heart disease?

      Both men and women are prone to develop cardiac problems if they have one or multiple risk factors listed below. They are called traditional because they have been in practice for the past 6 decades.

      Non-modifiable risk factors Modifiable risk factors
      ·         Age

      ·         Male gender

      ·         Family history of cardiac disease (< 60 years)

      ·         Smoking

      ·         Diabetes

      ·         Hypertension

      ·         Hyperlipidemia

      ·         Obesity

       Despite the absence of many of these risk factors, women worldwide are increasingly dying due to cardiac ailments.

      Do traditional risk factors confer a disparate risk for developing cardiac problems in women?

      Women are sensitive than men for the development of heart diseases when they have associated traditional risk factors.

      For example:

      • Diabetes: Women with diabetes have a 7-fold increase in cardiac events compared to only 3-fold increase in diabetic men.
      • Smoking and tobacco use has been shown to enhance the risk by an additional 25% in women compared to men for development of heart attacks. In fact tobacco use has been responsible for 50% of cardiac events in women and confers a 3-fold increased events. Normally women develop heart attacks 7-10 years later than men due to the protective benefits of estrogen hormone. This protective effect is lost with tobacco use and if they develop diabetes.

      Unique risk factors for cardiac problems in female gender include: 

      • Pre-eclampsia (High BP during pregnancy associated with complications)
      • Diabetes during pregnancy
      • Polycystic Ovary syndrome
      • Early menopause
      • Autoimmune diseases

      Early menopause and risk of heart attack:

       About 10% of women experience menopause naturally before the age of 45 years. This is called early menopause. Because of lack of estrogen in post menopausal women, it predisposes to cardiac events.

      Compared to women of similar age, those who attain natural or surgical menopause (removal of uterus – Hysterectomy) less than 45 years are at 50% higher risk of developing heart attack and 20% increased risk of death.  Those women who attained surgical menopause tend to have higher cardiac events compared to natural menopause. So women should be dissuaded to undergo uterus removal surgery unless there is a clear evidence that the procedure is definitely required. Hormone replacement therapy has been tried to mitigate this risk but in vain. Current guidelines are against hormone replacement therapy for early menopause.

      What can we do to prevent these cardiac events in women?

      Targeting traditional risk factors – diabetes, hypertension, lipids, sedentary life styles, inappropriate food choices and obesity form the bedrock strategy for reducing the risk of developing heart attacks.

      But for women further measures are needed to address the unique risk factors for women. The American College of Cardiology in its 2019 guidelines notified pre eclampsia, early menopause and autoimmune disease as “risk enhancers” for cardiac disease. They also added that physicians should have a low threshold to treat those patients with risk enhancers by life style measures and cholesterol lowering drugs to reduce the risk of developing heart attacks.

      Finally women should realize that they are no longer at low risk for developing cardiac ailments and need to understand there are new risk factors that put them at “enhanced risk” for developing heart attacks.


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      Mitral stenosis is the narrowing of the valve present between the left chambers of the heart (mitral valves), thereby blocking the blood flow. This condition usually develops several years after a person had a rheumatic fever. Mitral stenosis is treated with balloon valvotomy, when the medications do not reduce the symptoms. If left untreated, mitral stenosis can result in various heart complications.

      Mitral valvotomy (or valvuloplasty), also known as percutaneous balloon dilation, is a minimally invasive procedure that involves widening a mitral valve using a balloon catheter, a thin, flexible tube with a balloon at the tip. This procedure improves the overall function of the heart.

      What are the risks of mitral valvuloplasty?

      The risks associated with percutaneous balloon dilation include:

      • Blood clot formation or tears in the heart
      • Backward flow of the blood (mitral valve regurgitation) due to damaged valve
      • Restenosis of the mitral valve

      What happens before the procedure?

      Your doctor will explain the procedure in detail and provide you the opportunity to ask any questions; do not hesitate to ask any questions related to the procedure.

      Your healthcare team will give you certain instructions to prepare for the procedure:

      • You will be asked not to eat or drink anything after midnight, on the previous night of the procedure; you can drink water up to 4 hours of the procedure.
      • A blood test may be done to evaluate the time required for the blood to clot; other blood tests may also be performed.
      • You may be asked to stop taking certain medicines that may involve with the blood clotting process.

      Notify your doctor if you:

      • Had an allergic reaction to any contrast dye, iodine or seafood.
      • Are sensitive to any medications, tape, latex, or anaesthetic agents.
      • Have a pacemaker.
      • Have any body piercings on the abdomen or chest.
      • All the medications you are taking, including over-the-counter drugs, herbal supplements, blood thinners, etc.
      • Have heart valve disease, as antibiotic drugs may be given before this procedure.
      • Have a history of bleeding disorders
      • Are or may be pregnant

      Before the procedure, the area near the catheter insertion site (the groin area) may be shaved. Your physician may order other preparations for the procedure based on your medical condition.

      How is mitral valvuloplasty performed?

      On the day of the procedure, you should remove your jewellery and other objects that may interfere with the procedure. You will be asked to change into a hospital gown and empty your bladder before the procedure.

      An intravenous (IV) line will be attached to your arm or hand to inject medications and administer IV fluids, if needed. You may receive a sedative to help you relax.

      The following are the steps generally involved in a balloon valvuloplasty:

      • A local anaesthetic is injected at the insertion site.
      • Once the anaesthesia sets in, a sheath or an introducer (a plastic tube) will be inserted into the blood vessel.
      • A valvuloplasty catheter is inserted through the sheath into the blood vessel. The catheter is advanced through the aorta into the heart valve. The catheter may be guided by a fluoroscopy (a special x-ray).
      • Once the catheter reaches the precise location, a contrast dye is injected into the valve to get a clear image of the area.
      • The balloon is then inflated and deflated several times.
      • The catheter is then removed.
      • The catheter insertion site is closed using a sterile bandage.

      What happens after the procedure?

      After the procedure, you will be moved to the recovery room. You should remain flat on bed for several hours after the procedure. Your vital signs, and circulation and sensation in the affected arm or leg, the insertion site will be monitored regularly.

      Medicines may be given for pain or discomfort near the insertion site. You will be asked to drink water and other fluids to eliminate the contrast dye from your body. You can return to your regular diet after the procedure.

      Mostly, you may have to spend the might in the hospital, based on your medical condition and recovery.

      Your healthcare team will give you instructions to be followed after leaving the hospital:

      • Keep a check on the insertion site for unusual pain, bleeding, swelling, or discoloration.
      • Keep the insertion site clean and dry.
      • Do not participate in any strenuous activities. Your doctor will inform you when you can resume normal activities and return to work.

      Call your doctor immediately if you have any of the following:

      • Fever or chills
      • Severe pain, swelling, redness, bleeding or other leakage from the insertion site
      • Numbness, coolness or tingling sensations in the affected extremity
      • Pain or pressure in the chest, nausea or vomiting, sweating, or dizziness
      • Reduced urination
      • Swelling of the abdomen or extremities
      • Over 3 pounds weight gained in a day

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      Hemodialysis is a preferred treatment option for patients with chronic kidney disease. In this t procedure, the blood is filtered outside the body by a dialyzer or “artificial kidney”. For hemodialysis, a vascular access is created to insert the needles that connect the dialyzer, thereby allowing the blood to move out and return to the body at a high rate. An arteriovenous fistula is the preferred vascular access for hemodialysis.

      An arteriovenous (AV) fistula is created by connecting an artery to a vein, usually in the wrist or upper arm. But sometimes, the fistula can become infected, blocked or narrowed. The blocked fistula can be treated by a balloon fistuloplasty.

      arteriovenous (AV) fistula

      What is balloon fistuloplasty?

      Balloon fistuloplasty is a procedure in which any blockage or narrowing in the fistula is located by using a dye, and the blockage is relieved by stretching the blood vessels with a special balloon.

      In this procedure, a small balloon is inflated for several times at the narrowed regions of a fistula; if required a stent may also be placed. This technique widens the lumen and facilitates the process of dialysis.

      Why perform fistuloplasty?

      A fistula can age and cause problems like clotting and scarring, thereby decreasing its function and effectiveness of dialysis. Clots can decrease the rate of blood flow or block the fistula completely. If these problems are left untreated, it may lead to the failure of fistula.

      Thus, it is important to treat the narrowing or blockage at an early stage, so that the fistula works well, and dialysis occurs without any complications.

      What are the risks of dialysis fistuloplasty?

      Fistuloplasty is usually a safe procedure, but some complications may occur rarely. The common risks and complications associated with fistuloplasty include:

      • Bruising around the site of insertion of the needle, which may become large and uncomfortable (rarely).
      • Infection of large bruises, which may need antibiotic treatment or surgical intervention.
      • Allergic reaction to the dye, which may present as a skin rash
      • Circulatory problems due to the damage to the artery or fistula caused by catheter or balloon
      • Treatment failure, which will require surgical intervention

      How to prepare for the procedure?

      Your healthcare provider will give you instructions to prepare for the procedure, which may include:

      • You may be asked not to eat or drink anything for six hours before the procedure; you can drink water up to two hours before.
      • Some blood tests may be performed before the procedure to evaluate the risk of bleeding.
      • If you are diabetic, ask your doctor to alter the treatment regimen.
      • Ask your doctor which medicines you can continue to take, and which ones you should stop.
      • If you are taking any antiplatelets or anticoagulants, you may have to stop taking these medicines a few days before.
      • Ensure that you have an adult to drive you home and accompany you overnight.

      Inform your healthcare provider if you:

      • Are allergic to iodine, or have any other allergies
      • Have a history of reaction to the dye used for CT scan or X-rays
      • May be or are pregnant
      • Are a diabetic

      What happens during the procedure?

      The following are the steps usually performed in a fistuloplasty:

      • You will be asked to lie on your back on an x-ray table. Some monitoring equipment will be attached to measure your heart rate and blood pressure.
      • The interventional radiologist will observe the fistula by using an ultrasound, which provides a clear picture of the fistula.
      • A small needle is inserted in the fistula, and a contrast dye is injected. This provides an image of the blood vessels, which helps to locate the narrowing or blockage.
      • A catheter (a small, flexible tube) with a balloon at the tip is then inserted in the blood vessel to reach the precise location.
      • Once the catheter reaches the site of the blockage or narrowing, the balloon is inflated and deflated several times from outside the body.
      • Sometimes, if the balloon does not improve the fistula, a permanent stent may be used to widen the narrowing.
      • Then the catheter is removed from the blood vessel, and the puncture site is stitched to prevent bleeding.

      Usually, fistuloplasty takes about one hour, but the duration may vary in different patients.

      What happens after the procedure?

      You will have to stay in the hospital after the procedure for three to four hours for observation. Your pulse, blood pressure and oxygen levels in the body will be monitored regularly. You may return to your normal diet. The fistula is ready to use immediately after the procedure.

      Your nurse will tell you when you can go home. You will need a friend or a family member to drive you home; using public transport is not recommended.

      Your fistula should be ready for use immediately after the procedure.

      What measures do I take after going home?

      The following measures will help you recover better after a fistuloplasty:

      • Rest well on the day of the procedure and the next day. Then, you can return to your normal activities.
      • You can follow your normal diet.
      • Take the pain killers as prescribed r instructed.
      • Continue to take you regular medicines, as prescribed.
      • Do not take metformin until two days after the procedure.
      • You can have a bath or shower the next day.

      Call your doctor immediately

      if you have any of the following symptoms:

      • A lot of swelling and bruising
      • Severe pain at the puncture site that does not get better with painkillers
      • Bleeding at the puncture site
      • Change in the colour of your arm
      • Fever or chills
      • A lump, pus or discharge at the puncture site
      • Difficulty breathing or chest pain

      diagnosis-procedure-cardiac_catheterization.jpg

      Cardiac catheterization is a minimally invasive procedure used to detect and treat cardiovascular diseases. This procedure involves the insertion of a catheter (a thin hollow tube) into the large arteries or veins present in the neck, arm or groin, which is then guided to the heart using a special X-ray.


      cci-cardiac_catheterization.jpg

      Peripheral arteries are the blood vessels that deliver blood to the lower limbs. When the cholesterol accumulates in these blood vessels, the blood flow to the lower limbs gets blocked. Peripheral angioplasty is a minimally invasive procedure. It is done to restore the blood flow by opening the blocked peripheral arteries.

      peripheral angioplasty

      When is peripheral angioplasty performed?

      • Peripheral angioplasty is mostly indicated in the treatment of Peripheral Vascular Disease (the circulatory disorder caused by the blocked or narrowed blood vessels outside the heart).
      • Peripheral artery disease is the common condition, in which peripheral angioplasty is recommended.

      Are there any risks with peripheral angioplasty?

      Peripheral angioplasty is associated with the following risks:

      • Breathing problems
      • Bleeding
      • Blood clots
      • Infection
      • Kidney damage
      • Damage to the blood vessel

      How to prepare for the procedure?

      Before initiating the procedure, a physical examination and imaging tests are done to determine the overall health condition. Additionally, the following steps would help in a successful procedure and quicker recovery:

      • Inform the use of current medications, vitamin or mineral supplements.
      • Tell the doctor about any underlying disease condition.
      • Take the prescribed medicines.
      • Notify the doctor if you have any allergies.
      • Six to eight hours before the surgery do not eat or drink anything.

      What happens during the procedure?

      Local anaesthesia is administered in the upper thigh region. Once the anaesthesia sets, an incision is made on the upper thigh to insert the catheter. By using a high-resolution fluoroscopic, the catheter is guided to the blocked artery. When the catheter reaches the obstructed artery, the balloon is inflated to widen the blood vessel. Once the blood flow is restored, a stent is placed to prevent the risk of further blockage. Finally, the incision is closed and covered with a sterilized bandage.

      What to expect after the procedure?

      You will be placed in a recovery room and the vital parameters would be checked. For at least 3-6 hours, you need to remain still, to prevent bleeding from the incision site. Depending on the patient’s condition, the doctor will decide whether the person requires a hospital stay or not.
      Before discharge, you will receive the following instructions:

      • Keep the wound clean and dry.
      • Do not lift heavyweights.
      • Avoid strenuous exercises for at least 24 hours after the procedure.
      • Drink plenty of fluids to help flush out the contrast dye from the body.

      Care after peripheral angioplasty:

      Although peripheral angioplasty clears the blockage, it does not treat the underlying cause of the blockage. So, to prevent the further risk of blockage, the following steps should be taken:

      • Maintain a healthy body weight.
      • Quit smoking.
      • Exercise regularly.
      • Take the prescribed medicines to prevent re-narrowing of the blood vessels.
      • Manage stress.
      • Avoid fatty-foods.
      • Have a low-salt and low-fat diet to prevent the risk of fluid retention.

      Seek medical attention:

      The following symptoms are the warning signs that require immediate medical attention:

      • Swelling in limbs
      • Chest pain
      • Shortness of breath
      • Fever associated with chills (over 101oF)
      • Weakness
      • Dizziness

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      Critical limb ischemia (CLI) refers to severe compromise of blood flow to alimb (hands or legs) which causes severe limb pain at rest or even loss of limb. It is the most advanced form of peripheral artery disease.

      CLI numbers:

      • Prevalent in 2% patient over 70 years of age.
      • Within 1 year of diagnosis, 40-50% patientshave an amputation and 25% die.

      How CLI leads to amputation?

      Amputation occurs when there is marked ischemia of the limb owing to reduction of blood flow and increase demand in the limb.

      Factors that reduce blood supply:

      • Diabetes mellitus
      • Severe Renal or Heart failure
      • Vasospastic diseases
      • Smoking

      Factors that increase demand for blood flow:

      • Infection (cellulitis)
      • Skin breakdown
      • Trauma
      • Osteomyelitis

       Diagnosis of CLI:

      Characteristic Duplex Ultrasound Digital – Subtraction Angiography Magnetic Resonance Angiography (MRA) Computed Tomographic Angiography (CTA)
      Advantages
      • Noninvasive
      • Can Visualize & Quantitate severity
      • Gold Standard
      • High Resolution
      • Can guide intervention
      • Noninvasive
      • No radiation
      • No contrast
      • 3 D
      • Noninvasive
      • Higher Resolution than MRA
      • 3 D
      Disadvantages
      • Operator dependent
      • Limited by
        dense calcification
      • Invasive
      • Radiation
      • Contrast
      • 2Dimensional
      • Lower Resolution than CTA
      • Claustrophobia
      • Contrast Image artifact if stent present
      • Radiation (25% of dose with DSA)
      • Contrast
      • Limited by calcification

      Management plan for critical limb ischemia:

      Critical Limb Ischemia Non-Healing Ulcer Rest Pain

      MRA, CTA or invasive argiography shows lesion treatable by endovascular approach

      • Endovascular revascularization ->Wound care and atherosclerosis risk factor modification
      • Lesion treatable by open sugery at acceptable operative risk
        • Surgical revascularization ->Wound care and atherosclerosis risk factor modification
        • Consider primary amputation ->Wound care and atherosclerosis risk factor modification


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      Carotid arteries are the major blood vessels on each side of the neck that supply blood to the brain, face and neck. These arteries extend from the aorta in the chest to the base of the skull.

      Over time, the arteries can harden and cause a build-up of plaque (calcium, cholesterol, and fibrous tissue deposits) on the walls of the arteries. This plaque build-up can narrow and stiffen the arteries. The progressive plaque build-up can reduce the blood flow through the arteries or cause the formation of blood clots. Such narrowed carotid arteries can be treated by using stents.

      Carotid artery stenting (CAS) involves the insertion of a metal-mesh tube, called a stent, at the site of clogged arteries, to expand the lumen of the arteries and increase the blood flow to the brain.

      What are the indications and contraindications for CAS?

      The indications for CAS include:

      • High risk of stroke
      • Carotid artery blockage of 70 percent or more
      • Intolerance to general anaesthesia for carotid endarterectomy (an open surgery to remove the plaques in carotid arteries and to reduce the risk of stroke)
      • Damage to the contralateral vocal cord caused by previous carotid endarterectomy or neck surgery
      • Narrowing of carotid artery after previous CEA
      • Neck irradiation

      The contraindications for CAS are:

      • Allergic reaction to intravenous (IV) contrast dye in the past
      • Unstable carotid or aortic arch plaque
      • A recent stroke in less than 14 days
      • Total thrombotic occlusion of carotid artery

      What are the complications of CAS?

      Here are some complications that may occur during or after CAS:

      • An embolism, blockage due to a clot or debris in an artery in the brain, a serious complication which can cause a stroke.
      • Formation of a blood clot along the stent or a tear in the artery wall (dissection).
      • Restenosis, the blockage of the carotid artery after the procedure.
      • Kidney damage, particularly in individuals with kidney problems, caused by the dye used for angiogram.
      • Bleeding from the incision site in the arm or groin artery, known as false aneurysm or hematoma (an unusual complication).
      • Mild tenderness and bruising at the puncture site, which usually resolves over time.

      The factors that increase the chance of complications during CAS include:

      • Age > 80 years
      • High blood pressure
      • Allergy to contrast material
      • Sharp bends or other structural abnormalities in the carotid arteries
      • Significant atherosclerosis or plaque build-up in or near the carotid artery
      • Widespread blockages in the arteries in the legs and arms
      • Poor kidney function

      How to prepare for CAS?

      When planning for the procedure, inform your doctor about:

      • All the medicines that you take, including over-the-counter medicines, blood thinners, herbs, supplements, etc.
      • Habits like smoking; your doctor may help you quit smoking
      • Any changes in your health, like a fever
      • Are or may be pregnant
      • Allergies to medicines such as iodine, anaesthesia, or contrast dyes
      • Any pacemakers that you have
      • Any other medical condition that you have

      Some tests may be performed before the procedure, including:

      • Blood tests, to check for infection and anaemia
      • A chest X-ray, to view the heart and lungs
      • An electrocardiogram (ECG), to assess the heart rhythm
      • Ultrasound of the neck, to assess the carotid artery
      • Computed Tomography (CT) angiogram of the blood vessels in the neck and head

      Your healthcare team may give you some instructions to prepare for the procedure, which may include:

      • You may be asked to stop some medicines, such as blood thinners, a few days before the procedure
      • Ask your doctor which medicines you can take on the day of the procedure, and which medicines you should stop taking.
      • Do not eat or drink after midnight, the night before CAS.
      • Make sure you have an adult to drive you home on the day of the procedure

      What happens during CAS?

      Although the exact steps of the procedure may vary, a typical CAS may go like this:

      • An intravenous (IV) line will be put in the arm before the procedure. Sedation will be given through this IV line to help you relax and sleep.
      • Local anaesthesia is injected near the groin region.
      • A small incision is made in the blood vessel in the groin region.
      • A thin, flexible tube called catheter, with a balloon at its tip is inserted into this incision.
      • The catheter is threaded through the blood vessel into the carotid artery.
      • X-ray images may be used to guide the catheter to reach the blocked region in the carotid artery.
      • The balloon is inflated and deflated several times inside the narrow part of the carotid artery.
      • A compressed stent is then inserted using the catheter to reach the affected area.
      • Once the stent is at the precise location, it is released. The stent expands to fit the artery.
      • The balloon catheter may be used to expand the stent further.
      • The balloon is deflated, and the catheter is removed.

      What happens after the procedure?

      After the procedure, you will be moved to the recovery room. Your vitals, like your breathing and heart rate, will be monitored. Pain medicines will be given if needed. You may have to lie down, without bending your legs for few hours to prevent bleeding from the incision site.

      You can go home on the same day of the procedure, but some patients may have to stay in the hospital for the night. You should ask a family member or a friend to drive you home.

      After leaving the hospital, you may have some pain or a bruise near the incision site. You may be given certain over-the-counter pain medicines, drugs to prevent blood clot formation or spasm of the blood vessels; your healthcare provider will instruct you the dose and when you should take these medicines. Rest well and avoid strenuous exercise for the next 24 hours at least.

      Call your doctor immediately if you have:

      • Severe pain or swelling at the incision site that is progressing
      • Blood or fluid leakages from the incision site
      • Fever
      • Redness or warmth at the incision site
      • Chest pain

      What measures do I take to stay healthy after CAS?

      CAS opens the artery and ensures good blood supply to the brain. But this procedure does not stop building-up of plaque in the arteries. Therefore, to preventing hardening of the arteries, plaque formation and clogging of the arteries, take the following measures:

      • Eat foods containing low calories, cholesterol, and saturated fat.
      • Exercise regularly, particularly aerobic exercises like walking.
      • Maintain an ideal body weight.
      • Quit smoking.

      cci-radiofrequency_ablation.jpg

      Varicose vein is one of the most common venous disease in the legs, affecting 1 out of every 5 adults.

      Varicose veins are twisted, swollen veins, which usually appear in the lower legs, but can affect any part of the body. This condition occurs when the valves that direct the blood flow in the veins are weak or damaged, resulting in the decreased blood flow to the heart, and subsequent backing up of blood within the veins, leading to the enlargement of the veins.

      How are varicose veins presented in patients?

      Varicose veins may be painful for some individuals; they are usually presented as:

      • Dark purple or blue coloured veins
      • Twisted, bulged, cord-like veins
      • Heaviness or aching in the legs
      • Muscle cramping, burning, swelling or throbbing in the legs
      • Pain gets worse after sitting or standing for a long time
      • Itchiness around the veins
      • Discoloration of the skin around the veins

      How to diagnose Varicose Veins?

      Following a physical examination, the doctor may prescribe the following tests to diagnose varicose veins:

      • An ultrasound is a non-invasive test, which is performed to check the flow of the blood.
      • venogram involves releasing a special dye into the veins and then taking an X-ray, which provides an overview of the blood flow.

      What are the treatment options for varicose veins?

      Varicose veins can be treated by certain medications, lifestyle changes and surgical procedures.

      The lifestyle changes include:

      • Maintaining a healthy body weight
      • Exercising regularly to improve blood circulation
      • Avoiding standing for prolonged periods of time
      • Elevating or raising the legs while sleeping

      Using compression socks or stockings can also help treat varicose veins.

      Surgical procedures:

      Surgery is opted when lifestyle changes are not effective in managing the symptoms of varicose veins. Most surgical procedures, including vein ligation and vein stripping, involve cutting and removing the affected part of the veins.

      The other procedures performed to treat Varicose Veins include:

      Endovenous ablation therapy, in which radiofrequency or heat radiation is used to block off the vein.

      Sclerotherapy, wherein a chemical foam or liquid is injected into the vein that blocks the larger vein.

      Microsclerotherapy, wherein a chemical foam or liquid is injected into the block of the smaller veins.

      Laser therapy, in which Light Frequency Radiation is used to unblock the blocked vein.

      Endoscopic Vein Surgery, in which a small lighted scope is inserted into the vein to block the vein, through a small incision.

      What happens before the procedure?

      Inform your healthcare provider about:

      • Onset and severity of pain and numbness (if any)
      • If you have any medical conditions
      • Any allergies or intolerances to certain medicines
      • Whether you are pregnant or think you may be pregnant
      • If you are breastfeeding
      • Medicines or supplements that you are taking including, blood thinners, over-the-counter medicines (aspirin or ibuprofen), herbs or vitamins
      • If you smoke or drink alcohol on a regular basis

      Ask the doctor about:

      • What procedure would be best for your case
      • The possible outcomes of the treatment

      Your healthcare team may give you guidelines for when to stop eating and drinking before the procedure. You may be asked to stop taking aspirin or other blood thinning agents at least one week before the procedure.

      What happens during radiofrequency ablation?

      Radiofrequency ablation is a procedure which uses radio waves to create heat and block the damaged vein.

      The following are the steps involved in radiofrequency ablation procedure:

      • You will be asked to lie down on a hospital bed.
      • Imaging techniques like ultrasound will be used to guide the procedure.
      • The leg to be treated will be injected with a numbing medicine.
      • Once the leg is numb, a small hole is made in the vein using a needle.
      • The catheter is inserted into the vein.
      • When the catheter reaches the right position, it is slowly pulled backwards.
      • The catheter emits radio waves, and the vein is closed due to the heat generated.
      • Also, the other side branches may be removed or tied.
      • Then the catheter is removed, and pressure is applied to the insertion site to stop the bleeding.

      The procedure takes about 45 to 60 minutes. You can go home on the same day.

      What happens after the procedure?

      You may experience pain, swelling, bruising, soreness and change in the colour of the treated area. Individuals treated for vein ligation and stripping may experience severe pain, infection, scarring and blood clots after the procedure. Seek immediate medical attention/care if the condition worsens.

      After the procedure:

      • Take oral anti-coagulants for 3 months
      • Wear grade 2 elastic leg stockings for 3 months
      • Reduce weight

      Long-term measures:

      • Use compression stockings throughout the day to squeeze the leg, thereby easing the blood flow through the veins and the muscles of the leg.
      • Elevate the feet while sleeping, which ensures a free back flow of the blood to the heart.

      Call your healthcare provider if:

      • Fever of 100.4°F (38°C) or higher
      • Trouble breathing or chest pain
      • Signs of infection at the catheter insertion site, including redness, warmth, inflammation, increasing pain, bad-smelling discharge or bleeding
      • Numbness or tingling in the leg
      • Severe pain or inflammation

      How to prevent the recurrence of varicose veins?

      Individuals above fifty years of age are at an increased risk of recurrence of varicose veins within five years of having surgery. However, following a low-salt diet helps to prevent swelling and water retention in the limbs.

      After the procedure, you may be asked to restrict doing strenuous activities. But prolonged inactivity may cause the formation of clots and pain. Therefore, following a regular exercise plan, as suggested by your doctor, helps to regain normalcy in the limbs and prevent recurrence of the varicose veins.



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      Call us now if you are in a medical emergency need, we will reply swiftly and provide you with a medical aid.





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      Dr. Raghu | Heart Specialist in Hyderabad
      Yashoda Hospitals, Sardar Patel Rd, behind Hari Hara Kala Bhavan, Kummari Guda, Shivaji Nagar, Secunderabad, Telangana 500003

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