Skip to content
Vascular & Endovascular Programme

Vascular & Endovascular Programme

The Vascular and Endovascular Programme at CVSKL is a one stop centre for screening, diagnosis, surveillance and treatment for all vascular diseases.

What are Vascular diseases?

The vascular system or the circulatory system is made up of vessels that carry blood and lymph through the body.  Blood vessels are tubes and there are 3 types of blood vessels:

  • The arteries carry blood from the heart to the whole body, delivering oxygen and nutrients to the body tissues.

  • The veins carry the deoxygenated blood back to the heart taking with them the tissue waste matter.

  • The lymph vessels carry lymphatic fluid.

Vascular diseases are conditions that affect the arteries, veins or lymphatics.

Depending on the disease and which arteries or veins are affected, the resulting consequence will be different:

Peripheral arterial disease (PAD)
  • In conditions where the lumen of the arteries are narrowed or completely blocked, the blood flow to the affected organs or other body structures, eg the legs, may be compromised.

  • If it is the vessels to the heart (coronary arteries) the patient will have a ‘Heart attack’ and if it is blood vessels to the brain, a stroke will result.  If it is blood vessels to the legs, the patient can experience pain, ulceration and gangrene of the leg (critical limb ischemia).

  • If the arterial wall is weakened, it will result in bulging (aneurysm) and eventually rupture of the artery resulting in blood loss.

Abdominal aortic aneurysm (AAA)
  • In the veins, blockages in the blood flow results in thrombosis (deep vein thrombosis) and damages in the valves (within the veins) will lead to dilated veins (varicose veins).

There are many vascular diseases, the commoner vascular diseases are listed below:

Common Vascular Diseases:

  • Abdominal Aortic Aneurysms (AAA) Click for more information

  • Peripheral Arterial Disease (PAD)

  • Carotid Artery Disease

  • Carotid Body Tumour

  • Varicose Veins

  • Deep Vein Thrombosis (DVT)

  • Vascular Access (AV Fistula)

  • Hyperhidrosis (Sweaty palms)

Our Services


Aortic Aneurysms
Endovascular Aneurysm Repair
    - Endovascular Aneurysm Repair for AAA (EVAR)
    - Thoracic Endovascular Aneurysm Repair (TEVAR)
    - Fenestrated & Branched Stent Grafts for:
      ~ Thoracoabdominal Aneurysm
      ~ Aortic Arch Aneurysm
Open Repair

Aortic Dissection
Endovascular Repair
Open Repair

Peripheral Arterial Diseases
Bypass Procedures
Hybrid Procedures

Acute Limb Ischaemia

Carotid Artery

Carotid Endarterectomy
Carotid Angioplasty/Stenting
Excision of Carotid Body Tumour

Renal & Visceral Arteries
Open Surgery


Varicose Veins
Thermal ablation:
    - Radiofrequency
    - Endovenous Laser
Glue closure
Open surgery
Injection Sclerotherapy

Deep Vein Thrombosis
Venogram & Stenting


CVSKL has a Emergency Department to receive emergency cases:
Ruptured Aortic Aneurysms
Acute Aortic Dissection
Acute Limb Ischemia
Vascular Trauma


Vascular Access for Haemodialysis
Creation of Arteriovenous Fistula
Creation of Arteriovenous Graft
Angioplasty for Failing Arteriovenous Fistula
Solution for Multiple Access Failures

Arteriovenous Malformation

Angioplasty & Stenting of Central Vein Occlusion

Thoracoscopic Sympathectomy for Hyperhidrosis

Our Team

The Vascular & Endovascular team consists of:

  • 3 Vascular & Endovascular surgeons
  • 3 Vascular Technologists / Ultrasonographers
  • 2 Radiographers
  • 6 Vascular nurses in the Hybrid OR

The team works closely with our Anaesthesiologists, Cardiothoracic surgeons, Cardiologists and Nephrologists

Vascular & Endovascular Team

Our Facilities

Non-Invasive Vascular Laboratory (Vascular Lab)

Situated at the Outpatient Department next to our doctors’ clinics, the Vascular Lab specializes in several tests that look at the condition of arteries and veins and how well blood flows in these vessels. The tests are performed by 3 qualified ultrasonographers who work closely with our doctors.

Tests are done to examine the blood vessels throughout the body.  These tests help to diagnose and plan the treatment of  many vascular disease, including peripheral arterial disease (PAD), carotid artery disease, aneurysms, varicose veins, deep vein thrombosis (DVT) and vascular access (AV fistula).  These tests are also used for surveillance and post-operative follow-up to monitor the success of surgery or endovascular procedures.

Non-Invasive Vascular Laboratory

The Non Invasive Vascular Tests

Ankle-Brachial Index

Ankle-Brachial Index

  • The ankle-brachial index (ABI) is a test that uses inflatable pressure cuffs to assess blood flow in the legs and arms.

  • The difference between the blood pressure from the ankle and the arm form the ABI ratio.  The ABI ratio tells the doctors how the circulation in your legs is performing.

Duplex Ultrasound

The duplex ultrasound evaluates the condition and the blood flow through your arteries and veins. There are several types of ultrasound tests:

  • Carotid ultrasound – ultrasound of the carotid arteries in the neck to identify or rule out blockages that can lead to a stroke

  • Abdominal ultrasound – ultrasound of the abdominal aorta to identify and evaluate aneurysmal disease or blockages of the aorta and its branches.

  • Lower limb ultrasound – ultrasound of the arteries to the legs to evaluate blockages that may be contributing to pain in the legs, ulceration or gangrene.


Most of these tests are done at the Vascular Lab, but Duplex ultrasound is also increasingly being used in our Hybrid Operative Theatre pre-operation for planning of procedures, intraoperative and post-operative assessments.

Carotid Ultrasound
Abdominal Ultrasound Image
Duplex Ultrasound
Carotid Ultrasound Image
Lower Limb Ultrasound Image
CT angiogram image
CT angiogram image

Computed tomography Angiography (CT angiogram)

Done in our Radiology Department, a CT scan is a type of X-ray that uses a computer to make cross-sectional images of your body.  CT angiography combines a CT scan with an injection of a special dye to produce pictures of blood vessels and tissues in a part of the body. The dye injected to perform CT angiography is called a contrast material because it “lights up” blood vessels and tissues that are being studied.  These images are reconstructed to give 3D images of the arteries that are studied.  These images will help the surgeons to plan the best treatment for the patient’s condition.

CT angiography is frequently used to assess the aorta (chest and abdomen) and its branches for aneurysms and occlusions.   It may also be used to assess the carotid arteries and the arteries to the lower limbs.

Revolution Apex™ CT Scan

Hybrid Operating Theatre 

A Hybrid Operating Theatre (Hybrid OT) is a room that combines a traditional Operating Theatre with an image guided Interventional Suite. This combination allows us to do complex open surgery or advanced intervention procedures as well as a combination of both (Open surgery + Intervention procedures, also called Hybrid surgery) as a single procedure in the same patient. The Hybrid OT helps us to provide the optimal treatment and the best outcome for the patients.

Like a traditional Operating Theatre, our Hybrid OT is an aseptic room, equipped with a surgical table, operating lights and anaesthetic machine. In addition, there is a state of art imaging system. Our imaging system is highly mobile. Using laser-guided technology, it is parked at a corner of the room when not in use.  When it is needed, it will move to the required position beside the operating table to obtain the best imaging.

This state-of-art system is equipped with advanced imaging tools such as Fusion imaging and Rotational angiography.

  • Fusion imaging is a novel technique that allows for integration of highly detailed computed tomographic (CT) images with fluoroscopy.

  • Images from a previous CT scan are loaded and processed in a workstation to produce a 3D model of the vasculature which is then merged with the live fluoroscopic images.

  • Unlike conventional angiography which gives us 2D images, Rotational angiography gives us CT-like 3D images. The C-Arm rotates around the patient and acquires a series of x-ray images.  These images are then reconstructed through software algorithms into 3D images.

Hybrid OT


Play Video