Hypertrophic CardioMyopathy (HCM) is a condition that affects around 1 in 500 people.
It causes the muscular walls of the heart to become thicker than normal, affecting how well the heart can pump blood around the body.
It is a leading cause of heart failure and sudden cardiac death.
Two cutting-edge heart scanning techniques: cardiac diffusion tensor imaging (cDTI), a type of MRI scan that shows how individual heart muscle cells are organised and packed together (the heart's microstructure), and cardiac MRI perfusion (perfusion CMR), which detects problems with the small blood vessels supplying the heart muscle (microvascular disease).
The scans showed that people with overt signs of HCM have very abnormal organisation of their heart muscle cells, and a high rate and severity of microvascular disease compared to healthy volunteers.
The first drug to slow HCM progression -- mavacamten -- has recently been approved for use in Europe and will allow doctors to reduce the severity of the disease once symptoms and muscle thickening have appeared. Genetic therapies are also in development which could prevent symptoms entirely by intercepting HCM development at an early stage.
Perfusion CMR is already being used in some clinics to help differentiate people with HCM from other causes of muscle thickening.
The researchers think that these revolutionary new therapies, combined with cDTI and perfusion CMR scans, give doctors the best ever chance of treating people at risk of HCM early enough that the condition never develops.
Dr George Joy, who led the research with Professor James Moon and Dr Luis Lopes (all UCL Institute of Cardiovascular Science), said:
"The ability to detect early signs of HCM could be crucial in trials testing treatments aimed at preventing early disease from progressing or correcting genetic mutations.
The scans could also enable treatment to start earlier than we previously thought possible.
"We now want to see if we can use the scans to identify which patients without symptoms or heart muscle thickening are most at risk of developing severe HCM and its life-changing complications.
The information provided from scans could therefore help doctors make better decisions on how best to care for each patient."
Dr Luis Lopes (UCL Institute of Cardiovascular Science), senior author of the study, said: "By linking advanced imaging to our cohort of HCM patients (and relatives) with extensive genetic testing, this study detected microstructural abnormalities in vivo in mutation carriers for the first time and was the first to compare these parameters in HCM patients with and without a causal mutation.
"The findings allow us to understand more about the early subclinical manifestations of this serious condition but also provide additional clinical tools for screening, monitoring and hopefully in the near future for therapeutic decision-making."
Source: University College London.
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