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Arteries Interventions

Arteries

Arterial diseases can significantly affect blood flow throughout the body, leading to pain, weakness, and potentially life-threatening complications. Image-guided arterial interventions offer a safer, minimally invasive alternative to traditional surgery, allowing precise treatment of blockages, aneurysms, and vascular narrowing using advanced catheter-based techniques.

These procedures help restore proper circulation, reduce the risk of tissue damage, and prevent serious conditions such as stroke, limb ischemia, and organ dysfunction. Using high-resolution imaging, the treatment is performed with exceptional accuracy, ensuring faster recovery and minimal discomfort for patients.

Whether addressing peripheral artery disease, arterial aneurysms, or acute blockages, image-guided arterial care focuses on improving long-term vascular health and enhancing overall quality of life. Patients benefit from reduced hospital stays, quicker mobility, and long-lasting improvement in blood flow.

Procedure Includes

Our Arteries Treatments

What are Lymphatic Malformations? 

Lymphatic malformations are another type of vascular abnormality. They are often large fluid filled spaces containing lymph instead of blood. These are called macrocystic lymphatic malformations. The other type of lymphatic maiformation is “microcystic and this type contains multiple tiny spaces.

The macrocystic malformations are commonly diagnosed in childhood and can grow to be very large. They can occasionally compress nearby structures and if these are important, e.g. the trachea (windpipe), treatment may be required soon.

They are treated in a similar fashion to venous malformations using sclerotherapy and similar risks are present. The risk of this is minimal in most cases but this will be discussed with you before the procedure.

 

What is ‘sclerotherapy’? 

Sclerotherapy treatment involves the injection of a special chemical into the venous malformation to ultimately shrink it and relieve the symptoms it is causing. It is typically carried out as a day case procedure in hospital.

Various substances can be used but most commonly the chemical used is Sodium Tetradecyl sulphate (Fibrovein). When injected into a lesion it causes an inflammatory reaction which leads to localised blood clots and the formation of a scar in place of the venous malformation, causing the malformation to shrink.

Sclerotherapy is carried out under ultrasound and X-ray control. This allows the doctor needs to make sure that the needle goes into exactly the right place and to assess the degree of communication with veins nearby.

Often a ‘course’ of multiple injections are required to adequately treat a venous malformation and it can be some time before you notice a significant difference. Not all venous malformations are successfully treated in this way but in the vast majority of cases significant results are achieved.

Sclerotherapy is not a ‘cure’ for these malformations but is aimed at controlling symptoms and reducing the size. Sclerotherapy may not treat skin discolouration associated with some: malformations.

 

Endovascular treatment of abdominal aortic aneurysms (EVAR)

What is the endovascular treatment of abdominal aortic aneurysms (EVAR)? 

The aorta is the largest vessel in your body and carries the blood from your heart to the rest of your organs. An aneurysm occurs if the arterial wall weakens and develops a bulge, meaning blood is flowing to the weakened area. Abdominal aortic aneurysms (AAA) are also known as ‘the silent killer’ because once they grow and rupture, there is an 80-90% risk of immediate death.

EVAR is a minimally invasive procedure in which an interventional radiologist places a covered stent (a metal mesh tube covered with fabric) into the area with the aneurysm so that blood can flow through the vessel. The stent is inserted through an artery in the patient’s groin, using X-rays to guide the stent to the aneurysm.

 

Why perform it? 

If you have a small AAA that has a diameter of less than 5 cm, it is unlikely to rupture, so it is recommended that the aneurysm is regularly monitored by a vascular expert. If, however, you have an aneurysm that is smaller than 5 cm but it is growing by more than 1 cm every year or it is causing symptoms such as back pain and tenderness, EVAR may be beneficial for you.

If your aneurysm is larger than 5 cm, you will need treatment to prevent the aneurysm from rupturing. EVAR is a possible treatment option.

 

How does it work? 

You will be given a combination of an epidural and a local anaesthetic for the procedure. The interventional radiologist will make a small cut at the top of each leg so that they can insert a short tube (known as a sheath), which allows the vessels in your groin to be accessed safely. Using fluoroscopy for guidance, the interventional radiologist will insert guidewires and catheters (thin flexible tubes). A contrast medium (dye) will be injected into the area being treated so the exact location of the aneurysm can be seen under imaging. The interventional radiologist will then use the guidewire to move a stent to the aneurysm.

When the stent is placed in the correct location, it will expand, sealing the aneurysm and restoring normal blood flow through the vessel.

After the procedure, your vital signs will be monitored and you will stay in hospital for 2-3 days. You may experience bruising and pain, though this can be treated with standard painkillers. Moving around once you are able to do so is encouraged. You will need to have the stent regularly checked using CT or ultrasound to ensure that it is in good condition and to avoid long-term problems.

What is an inferior vena cava (IVC) filter placement? 

An inferior vena cava (IVC) filter is a small device that can stop blood clots from going up into the lungs. The inferior vena cava is a large vein in the middle of your body. The device is put in local anesthesia.

Veins are the blood vessels that bring oxygen-poor blood and waste products back to the heart. A deep vein thrombosis (DVT) is a blood clot that forms in a vein deep inside the body. A clot occurs when blood thickens and clumps together. In most cases, this clot forms inside one of the deep veins of the thigh or lower leg.

The veins in your legs have tiny valves that help keep blood moving back up toward the heart. But a DVT may damage one or more of these valves. This causes them to weaken or become leaky. When this happens, blood starts to pool in your legs. This can also happen if you are immobile for a long period of time. Normally, muscles in the leg help blood move up in the veins when the muscles contract. When blood flows very slowly through the veins, this increases the risk that cells in the blood will stick together and form a clot.

DVT is a serious medical condition that can cause swelling, pain, and tenderness in your leg. In some cases, a deep clot in a leg vein can break free and stick in a vessel in the lung. This can cause a blockage in the vessel called a pulmonary embolism. Pulmonary embolism can cause severe shortness of breath and even sudden death.

An IVC filter is one method to help prevent pulmonary embolism. Your inferior vena cava (IVC) is the major vein that brings oxygen-poor blood from the lower body back to the heart. The heart then pumps the blood to the lungs to pick up oxygen. An IVC filter is a small, wiry device. When the filter is placed in your IVC, the blood flows past the filter. The filter catches blood clots and stops them from moving up to the heart and lungs. This helps to prevent a pulmonary embolism.

 

How is the procedure performed? 

The IVC filter is placed through a small incision in a vein in your groin or neck. A thin, flexible tube (catheter) is inserted into this vein. The catheter is then gently moved into your IVC. A collapsed IVC filter is sent with the catheter. The filter is left in place, and the catheter is removed. The filter then expands and attaches itself to the walls of the IVC. It may be removed after a period of time.

The filter helps to protect you from a life-threatening pulmonary embolism if you have a DVT.

Lymphangiography 

Lymphography is a medical imaging technique in which an interventional radiologist injects radiocontrast agent, and then an X-ray picture is taken to visualise structures of the lymphatic system, including lymph nodes, lymph ducts, lymphatic tissues, lymph capillaries and lymph vessels

 

How is a lymphangiogram done? 

During lymphangiography, the physician will place small needles into lymph nodes in the groin area. A small amount of a contrast agent (a safe, injectable dye) will be injected into the needles and tracked by, X-ray or fluoroscopy as it travels upward through the lymphatic system.

Lymphangiography 

Lymphography is a medical imaging technique in which an interventional radiologist injects radiocontrast agent, and then an X-ray picture is taken to visualise structures of the lymphatic system, including lymph nodes, lymph ducts, lymphatic tissues, lymph capillaries and lymph vessels

 

How is a lymphangiogram done? 

During lymphangiography, the physician will place small needles into lymph nodes in the groin area. A small amount of a contrast agent (a safe, injectable dye) will be injected into the needles and tracked by, X-ray or fluoroscopy as it travels upward through the lymphatic system.

What are venous malformations? 

Venous malformations are abnormally developed blood vessels with varying degrees of communication with normal veins. They are sometimes described as abnormal ‘vascular lakes or low flow lesions. They contain venous blood, which is very slow moving.

Supporting these vascular lakes is a solid component known asa matrix. The ratio of spaces and matrix within a vascular malformation varies considerably from patient to patient. It can differ to some extent within different malformations within the same person.

Venous malformations can occur anywhere in the body and are present at birth, although they may not become apparent until later in life. Other situations when they may be come apparent are following episodes of local trauma (injury), at puberty, or during pregnancy — due to hormonal changes occurring at these times.

Depending on their location venous malformations may cause pain, swelling, restriction of movement or cosmetic issues. Occasionally the blood moves so slowly that the blood can clot within the malformation. Occasionally venous malformations can bleed especially if they are in a very superficial (near to the skin) position. Treatment may be necessary because of the appearance or for associated functional problems.

 

What are the symptoms of venous malformations? 

Typically the main symptoms include pain and swelling.

Typically the main symptoms include pain and swelling. giving a bluish discolouration and swelling. This can lead to cosmetic issues, depending on the site of the lesion.

Intermittently the venous malformation can become more acutely painful, swollen and hard. This is mainly due to acutely painful, swollen and hard. This is mainly due to These blood clots typically do not move to the lungs.

 

What is ‘sclerotherapy’? 

Sclerotherapy treatment involves the injection of a special chemical into the venous malformation to ultimately shrink it and relieve the symptoms it is causing. It is typically carried out as a day case procedure in hospital.

Various substances can be used but most commonly the chemical used is Sodium Tetradecyl sulphate (Fibrovein). When injected into a lesion it causes an inflammatory reaction which leads to localised blood clots and the formation of a scar in place of the venous malformation, causing the malformation to shrink.

Sclerotherapy is carried out under ultrasound and X-ray control. This allows the doctor needs to make sure that the needle goes into exactly the right place and to assess the degree of communication with veins nearby.

Often a ‘course’ of multiple injections are required to adequately treat a venous malformation and it can be some time before you notice a significant difference. Not all venous malformations are successfully treated in this way but in the vast majority of cases significant results are achieved.

Sclerotherapy is not a ‘cure’ for these malformations but is aimed at controlling symptoms and reducing the size. Sclerotherapy may not treat skin discolouration associated with some: malformations.

 

How can venous malformations be treated? 

Treatment options are:

  • Conservative management
  • Percutaneous injections (sclerotherapy)
  • Surgery

 

or a combination of these. If there are no symptoms then there is no need for treatment.

At first it important to determine the exact symptoms and to what degree this is distressing you or how much of an impact this is having on your life. The majority of venous malformations do not need treatment, but this can be reviewed at any time, especially if symptoms worsen or change. Venous malformations are not malignant and cannot become malignant (cancerous).

At first it important to determine the exact symptoms and to what degree this is distressing you or how much of an impact this is having on your life. The majority of venous malformations do not need treatment, but this can be reviewed at any time, especially if symptoms worsen or change. Venous malformations are not malignant and cannot become malignant (cancerous).

Treatment depends on the number of vascular spaces within the lesion and the amount of more solid tissue. Lesions with more spaces (i.e. more venous lakes) are more suitable for injection therapy or ‘sclerotherapy’ than those that are mostly solid in nature. Depending on the site, size and other factors certain lesions are suitable for surgical removal.

We wil discuss treatment options with you.

Overview 

Varicose veins, or twisted and enlarged veins, can be treated with sclerotherapy. Varicose veins are usually in the legs. Spider veins, a mild form of varicose veins, can also be treated with sclerotherapy. Small varicose veins usually respond best to sclerotherapy.

Sclerotherapy involves injecting a solution into a vein with a needle. The sclerotherapy arrangement makes the vein scar. The scarring forces blood through healthier veins. The collapsed vein then fades.

Although treated veins may not disappear completely following sclerotherapy, they typically fade within a few weeks. The full results may not appear for up to a month.Some veins need more than one sclerotherapy treatment.

 

Why it's done 

Sclerotherapy in mulund is generally finished to cause the veins to appear more appealing. The system additionally can further develop side effects connected with varicose veins, including:

  • Aching.
  • Swelling.
  • Burning.
  • Cramping at night.

 

Specialists recommend holding back to have sclerotherapy done after pregnancy or breastfeeding.

 

Risks 

Sclerotherapy in mulund generally has few serious complications.

Side effects that can occur where the needle goes into the skin include:

  • Bruising.
  • Raised red areas, called hives.
  • Small skin sores.
  • Darkened skin.
  • A number of tiny red blood vessels.

 

These side effects usually go away within days to weeks. Some side effects may take months or longer to go away completely

Less-common side effects of sclerotherapy that might need treatment include:

Inflammation. This is normally gentle however may cause enlarging, warmth and inconvenience around the site where the needle went into the skin. It’s possible that taking a non-prescription painkiller will help. Ibuprofen and aspirin (Advil, Motrin IB, and others) are two examples.

clot of blood It may be necessary to drain a treated vein if a lump of clotted blood forms there. A condition known as deep vein thrombosis occurs when a blood clot can occasionally travel to a deeper vein in the leg.

A blood clot that travels from the leg to the lungs and blocks a vital artery is a risk of deep vein thrombosis. A pulmonary embolism is the medical term for this. Sclerotherapy in mulund related complications are extremely uncommon and require immediate medical attention. The side effects incorporate difficulty breathing, chest torment or tipsiness, or hacking up blood.

Bubbles of air. Minuscule air pockets can ascend in the blood. This may not result in symptoms. However, symptoms may include fainting, nausea, seeing light flashes, and headaches.

These side effects generally disappear. However, if you experience pain or difficulty moving your arms or legs following the procedure, contact your doctor.

Reaction to an allergen A hypersensitive response to the arrangement utilized for treatment is conceivable, however exceptional.

 

How you prepare 

A physical examination is done by a healthcare provider prior to the procedure. The doctor looks at your veins and looks for problems with your blood vessels.

The provider asks questions about your medical history. Information needed about your medical history includes:

Recent illnesses or medical conditions, such as a heart condition or a history of blood clots.

Allergies.

The outcomes of any other treatments you’ve had for varicose veins.
You take medications or supplements, particularly aspirin, ibuprofen (such as Advil, Motrin IB, and others), naproxen sodium (such as Aleve, Anaprox DS), blood thinners, iron supplements, or herbal supplements.

What you can expect

Sclerotherapy in mulund is commonly finished in a medical care supplier’s office. It for the most part requires an hour or less to finish.

Results

Sclerotherapy in mulund for spider veins or small varicose veins typically produces results within three to six weeks. Bigger veins could require 3 to 4 months. However, you may require more than one treatment to achieve your goals.

Veins that answer treatment for the most part don’t return. However, new veins may emerge.

What is thoracic endovascular aortic repair (TEVAR)? 

The aorta is the largest vessel in your body and carries the blood away from your heart to the rest of your organs. A thoracic aneurysm occurs if the arterial wall below your rib cage weakens and develops a bulge, meaning blood is flowing into the weakened area.

The TEVAR procedure involves the placement of a covered stent (a metal mesh tube with a layer of fabric) into the weakened area of the artery. This provides a route for the blood to flow without pooling in the bulge.

 

Why perform it? 

If you have an aneurysm, it should be monitored by your doctor. It is recommended that you undergo treatment for the aneurysm if it has a diameter of over 5.5 cm or if it has expanded by over 0.5 mm within a six-month period, to prevent the aneurysm from rupturing, causing death. If the aneurysm is causing symptoms such as high blood pressure, pain and abnormal bleeding, you may require treatment.

If the thoracic aneurysm was caused by trauma, such as if the patient was in an accident, TEVAR is a way to rapidly cover the injured area, controlling bleeding and preventing death.

Although surgical treatments for thoracic aortic aneurysms are available, surgery has a significantly higher risk of serious complications and death.

 

How does it work? 

In most cases, the patient is given an epidural and a local anaesthetic for the procedure, although in some cases the patient is given a general anaesthetic.

The interventional radiologist will make a small cut in an artery at the top of your legs and will insert a sheath (a short tube to maintain safe access to the vessels). Then, the interventional radiologist will insert guidewires and catheters (thin flexible tubes) and direct them to the affected area under fluoroscopy. A contrast medium (dye) will be injected into the thoracic aorta so that the area clearly shows up under imaging for maximum accuracy. To place the stent, the interventional radiologist will insert it over a guidewire and move it to the correct location, where it will expand to seal the aneurysm or cover any leaks in the wall of the vessel.

After the procedure, your vital signs will be monitored and you will stay in hospital for 2-3 days. You may experience bruising and pain, though this can be treated with standard painkillers. Moving around once you are able to do so is encouraged. You will need to have the stent regularly checked using CT or ultrasound to ensure that the stent is in good condition and to avoid long-term problems.

 

Thoracic Duct Embolization 

Thoracic duct embolization (TDE) is a percutaneous, image-guided occlusion of the TD. This technique was devised by one of the pioneers of Interventional Radiology, Dr Constantine Copez. Originally envisioned as a minimally invasive alternative to TD ligation, it is a 3-step process consisting of lymphangiography followed by percutaneous transabdominal catheterization of the CC and embolization of the TD proximal to the leak or occlusion. Embolization is most commonly a combination of coils and n-butyl cyanoacrylate (n-BCA) Lymphangiography historically was a time-consuming and technically challenging pedal cut down. There has been an update to the procedure with inguinal intranodal lymphangiography. This recent adaptation has made the procedure considerably shorter.In patients in whom percutaneous CC cannulation fails, the TD may be accessed from a retrograde approach from the subclavian vein.

What is a venogram? 

A venogram is a test that lets your healthcare provider see the veins in your body, especially in your legs. A special dye is injected that can be seen on an special X-ray in cath-lab . The dye lets your healthcare provider see your veins and how healthy they are.

A venogram is used to diagnose deep vein thrombosis (DVT) or other abnormalities of your veins. This test can also help your healthcare provider diagnose other health problems.

 

A venogram can be done in several ways: 

  • Ascending venography: This looks for a DVT and finds out where it is in your vein.
  • Descending venography: This looks at how well your deep vein valves are working.
  • Descending venography: This looks at how well your deep vein valves are working.
  • Venacavography: This looks at your inferior or superior vena cava. The vena cava is the vein that brings blood to your heart. The healthcare provider looks for blockages or other problems.

What is venous recanalization and stenting? 

Venous recanalization is performed by a specially trained interventional radiologist. By placing small tubes in the vein and using specialized equipment for image guided procedures, the closed off SVC can be reopened with a balloon. When necessary a special metal stent can be placed to keep the vein open.

What Are Vericose veins? 

There are two sets of veins in the legs: Deep Veins and Superficial Veins. Veins have valves which allow the blood to flow against gravity towards the heart. When these valves weaken & don’t function properly, they cause reflux and pooling of the blood into the leg veins because of gravity (especially on standing or sitting). These enlarged, swollen veins are known as Varicose Veins.
 

The problem relate to varicose veins are- 

  • leg pain, heaviness, fatigue, cramps or leg swelling (especially after standing / walking and in the evening)
  • discolouration of skin (blackening, thickening , dryness, loss of hairs)
  • Ulcers in leg
  • Bleeding
 

Causes: 

  • Jobs involving long periods of standing and sedentary lifestyle.
  • Pregnancy causes increase in hormone levels and blood volume, which in turn causes veins to enlarge.
  • Obesity
  • Ageing (due to loss of vein elasticity).
  • Heredity is an important contributing factor.
 

Prevention: 

  • Avoid standing still for long periods of time.
  • Exercise regularly, such as walking.
  • Maintain a healthy weight.
  • Wear properly fitted compression stockings to prevent further deterioration of existing varicose veins.
 

What is EVLT- 

Endo venouslaser treatment is a minimally invasive technique. It is done under local anaesthesia and doesn’t require general anaesthesia or cut. A thin fiber is inserted into the vein percutaneously. Laser energy is delivered to the targeted veins, which absorbs the laser, causing the vein to close and seal shut.
 

Why EVLT? 

  • Outpatient procedure
  • Quick and easy to perform
  • Minimally invasive and less traumatic
  • No scarring
  • Excellent clinical and aesthetic results
  • Better result than surgery
  • Reduced procedure costs
 

Is there any follow-up to the procedure? 

Within the subsequent few weeks the patients usually have their legs re-examined. Patients have to wear elastic compression stockings for 6 to 8 weeks to allow the vein to heal.

 

How quickly can I return to normal activities? 

You can return to normal activities immediately after the procedure, including walking, driving, etc.

phlebectomy in mulund is a minimally invasive procedure for removing varicose veins that lie just beneath the surface of the skin.

Previously, surgical removal (known as “vein stripping”) was the only effective method of treating varicose veins. The procedure involved significant discomfort and recovery time. Fortunately, a phlebectomy is a less invasive method of treating varicose veins, along with the pain that may be associated with the condition.

Varicose veins that are just below the surface of the skin can be removed with a minimally invasive procedure known as a phlebectomy.

The only effective treatment for varicose veins in the past was surgical removal, or “vein stripping.” The procedure was painful, and it took some time to recover. Fortunately, a phlebectomy in mulund is a less invasive treatment for varicose veins and the possible pain they cause.

 

What is Phlebectomy? 

phlebectomy in mulund is a procedure that removes varicose veins just below the surface of the skin with a small scalpel or needle. It is minimally invasive. The system is additionally called Wandering Phlebectomy, Microphlebectomy, and Cut Separation.

The varicose vein is removed piece by piece through a series of tiny cuts in the skin, which are also known as “stab incisions.” Most of the time, the incisions are so small that no stitches are needed.

A local anesthetic is used during the procedure, which is carried out at the Mulund pain clinic. Varicose veins of any size can be safely and effectively treated with a phlebectomy in mulund.

There is little discomfort and no downtime during the procedure; As a result, the patient is able to stand up and walk after the procedure. Ordinarily, a patient can continue a normal everyday schedule the following day.

In order to speed up the healing process, the doctor may order the patient to wear a compression stocking or bandage for at least a week. Additionally, the procedure may result in brief bruising and swelling.

Following treatment, the majority of patients will not require any prescription pain medication. Ice packs and prescription painkillers are sufficient for most conditions. The majority of patients return to work and normal activities the following day, so downtime is also minimal.

Frequently, a phlebectomy in mulund is utilized related to other normal vein evacuation methodology like endovenous laser treatment (EVLT) and sclerotherapy to address distinctively measured veins and to yield the best superficial outcomes.

 

The Phlebectomy Procedure 

Local anesthesia is administered along the vein after the veins that need to be removed have been identified. After that, the doctor makes a few small cuts to separate the vein into sections. A little snare tenderly eliminates the segments of the vein. Eliminating the vein in segments limits the event of blood clusters and empowers quicker recuperating.

After the procedure is finished, the incisions are covered with a dressing, and the leg is wrapped in a compression wrap that is snug but comfortable. To reduce the likelihood of a blood clot, the patient is asked to walk around for 10 to 15 minutes before leaving the office. Gradual compression stockings are also required for patients, which aid in healing.

 

Advantages of a Phlebectomy 

The long-term success rate of a phlebectomy is 90%. Varicose veins diminish noticeably after the initial bruising subsides. In comparison to other procedures, a phlebectomy in mulund has the following additional advantages:

  • It is minimally invasive.
  • The procedure only requires local anesthesia.
  • It may be used in combination with other procedures like endovenous laser therapy (EVLT) and sclerotherapy.
  • Recovery time is quick, with an almost immediate return to normal daily activities.
  • About 95% of phlebectomy patients experience significant relief of pain.
 

Phlebectomy Recovery Time 

The incisions (cuts) may cause some mild pain on the day of surgery. If you have any pain, take nonsteroidal anti-inflammatory drugs (NSAIDs) that you can buy over the counter. Converse with your supplier about some other prescriptions you take and adhere to their directions on any progressions to your medicine.

The specialist will put Pro wraps and dressing on your leg after medical procedure. They will likewise give you pressure stockings to bring back home. The day after surgery, you can remove the bandages, but you will need to wear compression stockings for two to three weeks while your leg heals.

 

Signs of Healing after Surgery 

For one to two weeks after surgery, you may experience:

  • slight bleeding through your bandages,
  • pain,
  • soreness
  • a tingling sensation in your leg.

 

Use NSAID pain medication and an ice pack to relieve pain and soreness. You can also elevate your leg above your heart for further pain relief and to reduce bleeding.

 

Phlebectomy Risks 

Phlebectomy in mulund procedures are safe, but they do come with some risks, such as:

  • infection at the incision site,
  • permanent changes in skin color where your varicose veins were removed,
  • bleeding,
  • extensive bruising or blood that collects under your skin (hematoma)
  • numbness and tingling that lasts longer than a couple of days.
  • If you are concerned about any of these symptoms, contact our office right away.