Pacemaker Implants

About This Procedure

A pacemaker is a 20-50g device inserted in the chest to correct a very slow heartbeat. The pacemaker emits electrical impulses that control the heart, preventing an irregular heartbeat.

A pacemaker is comprised of a computer circuit and battery (pulse generator), so insertion of the device is a relatively straightforward procedure. Wires (pacing leads) help connect the device to the heart so impulses can travel to the heart directly. The electrical impulses travel through wires attached to the heart. As a result, the rate at which the electrical impulses travel is referred to as the pacing rate. Modern pacemakers are programmed to function according to your heart's rhythm. Therefore, signals are sent at a steady pace to help correct an irregular heartbeat. An implantable cardioverter defibrillator (ICD) is a device that works just like a pacemaker. Still, it transmits a larger electrical shock to reboot the heart and help get it pumping again, this time at a regular pace. An ICD is recommended for patients at risk of cardiac arrest. When an ICD senses the heart is beating unusually, it emits an electric shock that corrects the pace at which the heart beats. Essentially, the heart is a muscle pump whereby the function is regulated by electrical signals sent from a pacemaker or ICD or sometimes both a pacemaker and ICD.

How the Procedure Works

Dr Hassen creates a 6 - 10cm incision beneath the collarbone on the left side, where he inserts the pacemaker wires into a vein. He uses x-ray imaging to guide the pacing leads into the heart's chamber through the vein. Then, he lodges them into the heart's tissue. The ends of the wires are attached to the pacemaker that fits into a pocket between the upper portion of the chest and chest muscle. Transvenous implantation is done while you are under local anaesthetic, which is delivered via injection. The procedure can take one hour or more, depending on whether you have a biventricular pacemaker fitted. Epicardial implantation is rarely performed but is still an option for patients. For this procedure, the pacing leads are connected to the heart's surface (epicardium) via an incision through the abdomen beneath the chest. The pacemaker rests in a pocket made beneath the surface of the skin in the abdomen. Epicardial implantation is performed on paediatric patients and those who have just undergone heart surgery.

Frequently Asked Questions

Does a transvenous pacemaker procedure hurt?

No, you may feel a sudden pricking or burning sensation when a local anaesthetic is injected.

Do I need to change my pacemaker?

Most pacemakers can last for seven years until the battery needs to be replaced.

What should I avoid doing?

Avoid exercise for six weeks after the pacemaker insertion.

Important Information

All procedures are performed by experienced, fellowship-certified cardiologists using state-of-the-art equipment. Please discuss any concerns or medical conditions with Dr Hassen during your consultation.

Schedule This Procedure

Contact our team to schedule your procedure and discuss preparation requirements.

Book Consultation

Preparation Tips

Follow all pre-procedure instructions
Arrange transportation if needed
Bring your medical history
Discuss medications with your doctor

Related Conditions

Coronary Artery Disease

Coronary artery disease is plaque build-up in the coronary arteries, the arteries that supply blood to the heart and its coverings. Plaque is predominately fat from saturated products and choline - a nutrient traced in red meat, dairy and eggs.

Irregular Heartbeat (Arrhythmia)

An irregular heartbeat is what many doctors refer to as arrhythmia. Arrhythmia is inconsistent beating or fluttering of the heart muscle.

Heart Failure

Heart failure is a term to describe the heart's poor ability to pump blood efficiently. Heart failure is mainly due to the weakening of the heart muscle.

Valvular Heart Disease

Valvular heart disease arises from damage to the heart's valves. The heart consists of four valves that maintain the steady flow of blood.

Congenital Heart Disease

Congenital heart disease is an abnormality affecting the heart which is present at birth. This congenital abnormality can affect the heart's valves, walls and blood vessels.

Medical Conditions Affecting the Heart

Heart disease refers to a collection of heart-related disorders affecting the performance of the heart muscle. Coronary artery disease is the most common medical condition affecting people worldwide. A high fat and cholesterol diet contributes to the development of coronary artery disease when the coronary arteries begin to narrow and restrict the flow of blood.

Related Procedures

Coronary Angiogram

A coronary angiogram utilises x-ray imaging to view the heart's blood vessels in detail. The test is designed to check for obstructions in the coronary arteries, limiting blood flow to the heart.

Percutaneous Coronary Intervention

Percutaneous coronary intervention (PCI) is a procedure to reopen a blocked coronary artery. Fat and harmful cholesterol can get stuck in the coronary arteries and prevent smooth blood flow throughout the body.

Echocardiogram

An echocardiogram is a detailed scan used to analyse the heart and blood vessels. An ultrasound probe emits high-powered sound waves that produce echoes as the sound waves bounce against parts of the body.

Transoesophageal Echocardiogram

A transoesophageal echocardiogram is a test used to assess the heart's structure and function. Similar to a small microphone, a transducer emits high-powered ultrasound waves that penetrate the skin, bodily tissues and heart muscle.

Electrical Cardioversion

Electrical cardioversion is a quick and efficient procedure that corrects the irregular rhythm of the heart. A machine and adhesive patches (electrodes) deliver low-dose shock energy to the chest to control an abnormal heart rhythm such as atrial flutter.