How your genes can increase your risk for heart-related conditions

Written in association with: Dr Jonathan Byrne
Published:
Edited by: Carlota Pano

Genes determine every aspect of our body, from our physical appearance to our internal systems. For this reason, a variation in a single gene can alter this mechanism and change the body’s processes, leading to certain health disorders that are passed from parents to children.

 

Here, Dr Jonathan Byrne, leading interventional cardiologist, provides an expert insight into the role of genes (as well as other factors) in the development of conditions related to the heart, including how the study of genomes can help to prevent the onset of future heart diseases, among other important points.

 

 

What is the prevalence of heart conditions in the UK?

 

Coronary heart disease is the second leading cause of mortality in England, according to figures from the Office for National Statistics for July 2022.

 

Regardless of the breakthrough developments for the treatment of heart diseases - aspirin, drugs that lower cholesterol such as statins, and even medical technological devices such as pacemakerscardiovascular diseases are winning the war on health, causing a higher number of deaths every year.

 

Inherited heart diseases are partly responsible, because in reality every one of us is at risk one way or another. Genes and external factors are but two pieces of a larger puzzle.

 

What is cardiovascular genomics? What can it reveal about heart-related conditions?

 

As opposed to the study of a single gene, genomics focuses on the entire genome. In relation to heart diseases, cardiovascular genomics is the study of gene interaction that leads to the onset of heart-related diseases.

 

Thanks to cardiovascular genomics, we now know that the development of cardiovascular diseases is the result of both a person’s genetic predisposition to inherit cardiac diseases and his/her susceptibility to acquired conditions (nature), in addition to external factors such as exercise, diet and exposure to detrimental agents (nurture).

 

What is the role of diet?

 

Diet has a notable influence on health. This is why, depending on our diets, our health can improve or worsen. It is such the effect of diet that depending on your personal genomics, each food or nutrient consumed can have a positive or negative effect on your body.

 

Characterised by high quantities of fat, meat, sugar and the consumption of fast food, the ‘Western-type’ diet is linked to excess weight gain and obesity. This is due to the multiple types of food included in the diet, which add to inflammation within the body. Inflammation, in turn, activates potentially-damaging genes.

 

Nevertheless, everyone can find out what diet he/she should follow with genetic testing for cardiovascular diseases, to reduce the possibility of accidentally activating these harmful genes.

 

A good diet to follow, for example, is the Mediterranean diet, which is rich in olive oil. A study has found out that the risk factors for heart diseases and strokes are greatly reduced when people only add four tablespoons of olive oil to their diets. People can discover if they are good candidates for the Mediterranean diet or a different diet that suits their genes more efficiently, with the use of cardiovascular genomics.

 

 

If you are at risk of developing cardiovascular diseases and wish to seek expert assessment and diagnosis for it, don’t hesitate to visit Dr Byrne’s Top Doctors profile today.

By Dr Jonathan Byrne
Cardiology

Dr Jonathan Byrne is a leading interventional cardiologist who specialises in the treatment of coronary artery disease. He is an expert in the treatment of patients with angina, heart failure, heart rhythm disturbances and high blood pressure. He practises at the Cleveland Clinic, King's Private, OneWelbeck and the Sloane Hospital, all located in London. He also practises at the King's College Hospital NHS Foundation Trust, where he is the Clinical Director of Cardiovascular Services.

Dr Byrne treats patients with valvular heart disease using new treatments which do not require an operation, such as TAVI (transcatheter aortic valve implantation) and MitraClip (percutaneous treatment of the mitral valve).
 
He is also highly experienced in a number of imaging tests for the heart, including transoesophageal echocardiography and cardiac CT scanning.
 
Dr Byrne completed his undergraduate medical training at the University of Bristol, receiving his MB ChB in 1995. He then continued general professional medical training in South East England and London, where he received his MRCP in 1999. He then completed his PHD at the academic department of Cardiology at King’s College Hospital, examining molecular mechanisms underlying left ventricular hypertrophy. Dr Byrne continued his training in interventional cardiology at King’s College Hospital from 2004. He went on to become a Boston Scientific sponsored Interventional Fellow on Vancouver Island, Canada.
 
Since appointment as a consultant in July 2008, Dr Byrne has also been involved in the development of the structural programme at King’s College Hospital, with the use of novel percutaneous techniques to treat aortic and mitral valve disease.
 
He is a member of the British Cardiovascular Intervention Society, the British Cardiovascular Society, the Royal Society of Medicine (Cardiology), the British Heart Valve Association and the Medical Defence Union.
 
When he is not treating patients, Dr Byrne carries out research on different cardiology treatments.

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