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Investigation of Increased LV Wall Thickness with 2D Speckle Strain

Dr Rebecca Perry

Speckle tracking strain in left ventricular ‘hypertrophy’

One of the best uses of strain imaging is when the patient has thick left ventricular (LV) walls, or so called left ventricular hypertrophy (LVH). It is important to remember though that not all thickened LV walls are due to true hypertrophy. Infiltrative diseases, invasive tumors and hypovolumia can all cause thickening and this can be difficult to differentiate on standard 2D imaging. On this blog post I wanted to show you some cases that highlight the important uses for strain imaging to help better investigate thickened LV walls.

 

Case One

LVH_1

In this first case, you can see that the LV cavity size is increased as well as having thickened walls. You can also see that the systolic function is at the lower limits of normal with an estimated ejection fraction of ~ 50%. This may be concerning just based on this image but the addition of strain imaging allows further investigation and we can see that the strain pattern is completely normal.  All regions demonstrate normal strain.

LVH strain pattern 1

This pattern represents a case of physiological hypertrophy caused by extreme levels of exercise in a professional Australian Football (AFL) player. The thickening of the LV walls is a normal adaptation to training and is a nice example of Athlete’s heart.

 

Case Two

In the next case you can see that there is a mitral valve replacement but this is not the reason for the LV wall thickening but may help a bit with the diagnosis.

Strain_LVH_movie2This patient has normal LV ejection fraction and a normal to small left ventricular cavity.

If we have a look at the strain pattern we can see a very distinctive pattern that is typical of Fabry disease.

LVH strain pattern 2

The basal inferolateral region is reduced and this is the area where fibrosis is detected by cardiac MRI in these patients. Genetic testing confirmed that this patient has Fabry disease. Fabry disease is a rare X-linked inherited metabolic disorder, which results in a deficiency or absence of the enzyme α-galactosidase leading to the accumulation of glycosphingolipids in various cells and organs including the heart. This deposition of sphingolipids accounts for some of the wall thickening but it is thought that this process also triggers hypertrophy in the myocytes themselves. Quite often these patients also get valvular or rhythm complications so it is not uncommon to see these patients with a valve repair or replacement or a pacemaker which in some cases makes them unable to have a cardiac MRI. Fabry disease is thought to be grossly underdiagnosed in cardiac populations but if we can use strain imaging or the presence of unexplained LV wall thickening to highlight who may be at greater risk then targeted genetic testing may be undertaken. This is important because Fabry disease is treatable unlike many other infiltrative diseases that cause LV wall thickening.

 

Case Three

In the 3rd case you can see a normal LV cavity with only a mild degree of LV wall thickening. In fact the whole echo was fairly unremarkable other than the mild LV hypertrophy.

Strain_LVH_movie3

On strain imaging you can see that overall it is normal except for a very mild reduction in regional strain at the basal septal region. This is a typical pattern that we see early in hypertensive heart disease, the basal septal regions are affected first then if the hypertension remains uncontrolled the strain starts to reduce globally. It is thought that this occurs due to increased sheer stress at the site of the basal septum impacting on the sub-endocardial layer and reducing the longitudinal contraction. If the hypertension remains uncontrolled the strain becomes globally reduced, although often the most reduction is in this basal septal region.LVH strain pattern 3

 

Case Four

The next case may be a bit more obvious on the 2D image alone.

LVH-strain-movie-4

You can see that the walls are significantly thickened – perhaps a hypertrophic cardiomyopathy or an infiltrative disease? Well let’s see what the strain has to show us.

Any of you that use strain regularly will be able to give the diagnosis straight away but what we are seeing here is an apical sparing pattern where the strain in the distal regions are preserved with a reduction in the basal and mid wall. This is the pattern that we see in amyloid. It has been shown through histopathology studies of the whole heart at autopsy or post-transplant that there is more amyloid deposition in the basal and mid wall segments than in the distal and apical regions; hence the longitudinal strain is less affected here giving the apical sparing pattern that we see here.LVH strain pattern 4

 

Case Five

The last case I have to show you is also someone with a significant LV wall thickening – do you think that it might another infiltrative?

Strain_LVH_movie5

The strain pattern here is one that shows a significant reduction in the basal septal/ anteroseptal/ inferoseptal and mid inferoseptal regions which is where the wall was the thickest. This is a case of hypertrophic cardiomyopathy and this is the type of pattern that you see – a reduction in the most hypertrophied part of the LV.

LVH strain pattern 5

I hope that this has helped convince you that strain is extremely useful in these patients. If you have a new patient with increased wall thickness it is a good idea to use strain imaging on them and pay particular attention to the regional strain pattern on the bull-eye. If the patient does a significant amount of high level exercise, not just a weekend warrior and their strain is normal this can be put down to athlete’s heart. If the strain is not normal then this may be caused by steroid abuse or may actually demonstrate an abnormality like a dilated or hypertrophic cardiomyopathy. If there is arterial hypertension or valve disease such as aortic stenosis then the GLS should be taken for serial follow up and to assess subclinical dysfunction, although the pattern of strain in hypertension can give you clues about the amount of time the heart has had such an increased after-load. If there is not hypertension or aortic valve disease then the bull’s eye regional strain map should be closely analysed to see if can give you any clues about what is the underlying cause of the LV wall thickening. Reduced strain in the septal regions may indicate hypertrophic cardiomyopathy, reduced strain in the basal inferolateral region may indicate Fabry disease and apical sparing pattern may indicate cardiac amyloid. Of course strain does not make the diagnosis but it may help lead the patient down the appropriate diagnostic path.

 

Dr Rebecca Perry

Dr Rebecca Perry is a Post-Doctoral Fellow of the National Heart Foundation based at Flinders University. She has been a cardiac sonographer for 20 years and has been involved in research and advanced echocardiographic techniques for the past 15 years. She has extensive experience in advanced echocardiographic techniques such as strain and 3-D echocardiography. She completed her PhD in 2013 and has presented extensively both nationally and internationally as an abstract presenter, invited speaker and member of faculty.  She has published abstracts, manuscripts and a book chapter on topics such as dyssynchrony, coronary vasomotion, speckle tracking, strain and 3-D echocardiography.  She is a lecturer and examiner for the Cardiac Diploma of Medical Ultrasound (DMU) course run by the Australasian Society of Ultrasound in Medicine (ASUM, 2008-present) and was the previous chair of the cardiac special interest group for the Australian Sonographers Association (ASA, 2012-2015).  She has been on multiple scientific meeting organising committees including the Cardiac Society of Australia and New Zealand, the ASA and ASUM. She is passionate about education and excellence in echocardiography and advanced imaging techniques.

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2 Comments

  • Reply Lynda Hopkins March 26, 2018 at 3:04 am

    Thank you Rebecca. What a wonderful reference article. Spent many a time looking at a thickened LV wall and wondering what was going on, with no way of differentiating a diagnosis. I’m retired now but this kind of communication makes me wish I was back with a transducer in my hand. Lynda Hopkins

  • Reply Länkar v18- | Internmedicin May 18, 2018 at 7:27 pm

    […] om värdet av strain vid diff mellan olika etiologier till förtjockat myokard. Här tas athletes heart, hypertension, amyloidos och Fabrys sjukdom upp som […]

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