Heart Conditions Diagnosed by Echo

Q: Will an echo show valve disease if I have a murmur?

Often, yes. Echo evaluates valve structure and Doppler flow, which helps identify and grade narrowing (stenosis) and leakage (regurgitation).

Q: What if my echo is normal but I still have symptoms?

A normal echo rules out many major structural problems but does not explain every symptom. Rhythm, lung conditions, anaemia, thyroid issues, deconditioning, anxiety physiology or coronary disease may need other tests depending on the pattern.

What “diagnosed by echo” actually means

An echocardiogram doesn’t just produce pictures — it produces measurable, clinically-actionable observations: chamber sizes, wall thickness, valve motion, and Doppler blood-flow patterns. Many heart conditions can be identified, graded, or strongly suggested from these findings.

Three ways an echo helps your clinician

Confirm a suspected problem (for example: a murmur is explained by valve leakage or narrowing).
Measure severity (mild/moderate/severe valve disease; ejection fraction; pressure estimates where clinically valid).
Rule out major structural issues when the scan is normal and imaging windows are adequate.

Real-world expectation: clarity, not guesswork

The most helpful reports answer: what was assessed, what was found, and what to do next. If an echo suggests something that needs deeper evaluation (for example coronary artery disease or complex congenital anatomy), the next step might be ECG monitoring, CT, MRI, or a cardiology review — depending on your situation.

Next: Echo vs ECG — which test answers which question? Next: Echo vs CT — when you need anatomy vs function

Heart conditions an echo commonly identifies

Below is a practical “what we look for” map. It’s not an exhaustive list of every cardiac diagnosis, but it covers the conditions most often clarified by transthoracic echocardiography (TTE).

Condition group	What echo can show	Common report wording you might see
Valve disease	Valve motion, narrowing (stenosis), leakage (regurgitation), and Doppler flow patterns.	“Mild/moderate/severe regurgitation”, “stenosis”, “pressure gradient”, “valve area (where measured)”.
Heart failure	Pumping function, ejection fraction (EF), chamber enlargement, and signs of raised filling pressures.	“Reduced EF”, “preserved EF”, “diastolic dysfunction”, “LV dilatation”, “raised filling pressures (context-dependent)”.
Cardiomyopathy	Wall thickness, chamber size/shape, outflow obstruction patterns, and global/segmental motion.	“Hypertrophy”, “dilated cardiomyopathy pattern”, “LVOT obstruction”, “global hypokinesis”.
Pericardial effusion	Fluid around the heart, and whether it affects filling (when clear signs are present).	“Small/moderate/large effusion”, “features concerning for tamponade (urgent)”.
Right heart strain / pressure estimates	Right ventricle size/function; Doppler-based estimates (where appropriate) that may support pulmonary hypertension assessment.	“RV dilatation”, “reduced RV function”, “TR velocity”, “estimated PASP (interpret with caution)”.
Congenital / shunts	Some septal defects or abnormal flow patterns may be visible; complex cases may need specialised imaging.	“ASD/VSD suspected”, “interatrial shunt (consider bubble study/TEE if indicated)”.
Aortic root/ascending aorta	Measurement of aortic root/ascending aorta in suitable windows (not a complete aorta test).	“Aortic root dilatation”, “ascending aorta visible to…”, “limited views”.
Masses / clots	Occasionally detects intracardiac masses or thrombus; sensitivity varies; further imaging may be recommended.	“Echogenic mass”, “LV thrombus cannot be excluded”, “consider contrast/MRI if clinically indicated”.

Symptoms that usually trigger an echo Normal ejection fraction explained

1) Valve disease (murmurs, narrowing, leakage)

If someone has told you they can hear a murmur, an echo is usually the next sensible step — because it shows the valve structure and the blood-flow pattern through the valve (Doppler).

Common valve conditions an echo assesses

Aortic stenosis: narrowing of the aortic valve (often age-related calcification). Echo evaluates valve opening and Doppler gradients.
Mitral regurgitation: leakage backwards through the mitral valve. Echo grades severity using multiple features, not one number.
Tricuspid regurgitation: common to see mild TR; echo helps interpret it in context of right heart size/function.
Valve prolapse: leaflet motion abnormality (often mitral). Echo checks structure and whether there is significant leakage.

What patients usually want to know

“Is it serious?” is a normal question. Echo results often come in grades (mild/moderate/severe), and the next step depends on symptoms, BP, ECG, and whether the valve problem is affecting heart size or function.

If you want the basics first: what is an ultrasound echo?

2) Heart failure patterns (reduced EF, preserved EF, diastolic issues)

“Heart failure” sounds dramatic, but clinically it means the heart isn’t meeting the body’s needs — either because it pumps less effectively or because it fills under higher pressure. An echo helps by measuring pumping function, chamber size, and supportive Doppler patterns.

What echo can clarify

Ejection fraction (EF): a measure of left ventricular pumping performance (interpreted in context).
Wall motion: areas moving less can suggest prior injury/ischaemia, but echo does not directly image coronary blockages.
Chamber enlargement: helps interpret breathlessness, fatigue, and fluid retention symptoms with the rest of your clinical picture.

Quick link if EF is the confusing part

People often fixate on EF as “the answer”. It’s important — but it’s not the whole story. Understanding what’s normal (and what ranges mean) reduces anxiety and prevents misinterpretation.

Normal ejection fraction explained

Clinician discussing echocardiogram context and results in a clinic setting

3) Cardiomyopathy (thickened or weakened heart muscle)

Cardiomyopathy is a broad term. Echo helps by describing shape, thickness, and function. In many pathways, echo is the first imaging step — and then MRI is used if the question is “what is the tissue doing?”

Patterns an echo can suggest

Dilated cardiomyopathy pattern: enlarged chambers with reduced pump function.
Hypertrophic cardiomyopathy pattern: increased wall thickness; sometimes outflow obstruction patterns can be seen.
Restrictive/diastolic patterns: supportive findings that may prompt specialist review and advanced imaging.

Why a “pattern” matters

Echo often gives the first structured map. That map helps your clinician choose the next most efficient test: rhythm monitoring, blood tests, CT, MRI, or referral — instead of ordering everything at once.

Echo vs CT (function vs anatomy)

4) Fluid around the heart (pericardial effusion)

Echo is the main test for detecting pericardial effusion (fluid around the heart). It can also show whether the fluid is affecting cardiac filling — which is the key safety question.

What tends to be reported

Size: small / moderate / large effusion.
Distribution: where the fluid sits around the heart.
Haemodynamic effect: whether there are signs concerning for tamponade (urgent).

Safety boundary

If there is concern for tamponade, that is an emergency pathway. If you have severe breathlessness, collapse, or you feel dangerously unwell, seek urgent care.

Echo safety and risks (plain English)

5) Right heart strain and pulmonary pressure estimates

Echo can assess right-ventricle size and function and, in some cases, provide Doppler-based estimates that support pulmonary hypertension assessment. These numbers are useful when they are interpreted alongside symptoms, oxygen levels, lung history, and other tests.

What an echo may highlight

RV size/function: the right ventricle can enlarge or weaken under chronic pressure load.
TR Doppler signal: used in some pathways to estimate pulmonary pressures (where technically valid).
Indirect clues: septal motion and chamber proportions can support the overall interpretation.

Honest limitation

Pressure “estimates” are not the same as direct measurement. Image quality and Doppler alignment matter. This is one reason structured reporting and experienced operators are important.

Limitations of echocardiography (what can affect accuracy)

What an echo cannot diagnose on its own

This is where people get caught out. Echo is excellent for structure and function — but it does not answer every cardiac question. Knowing the boundary saves time, money, and worry.

Common misconceptions

“Does echo show blocked arteries?” Not directly. Echo can show consequences (like regional wall motion changes), but coronary imaging usually needs CT coronary angiography or other pathways.
“Is a normal echo a guarantee?” It rules out many major structural problems, but it can’t explain every symptom (especially if the cause is rhythm, lungs, anaemia, or coronary disease).
“One number tells the whole story.” EF matters, but so do valves, chamber size, wall thickness, and clinical context.

If you’re unsure which test fits your question

Start with your “job to be done”: chest pain vs palpitations vs breathlessness vs a murmur vs a follow-up. Then choose the test that answers that specific job.

Echo vs ECG Echo vs CT

Related echo guides

Use these to move from “what might it be?” to “what should I book?” without bouncing between unrelated pages.

Echocardiogram consultation and explanation

Quality node

What is an Ultrasound Echo?

Start here if you want the basics: what it shows, how it works, TTE vs TEE, and what to expect.

Read guide

Transthoracic echocardiogram in progress

Patient journey

Symptoms That Require an Echo

Breathlessness, palpitations, murmurs, fatigue — which symptoms usually justify an echo (and which don’t).

Explore symptoms

Clinician speaking with patient in a clinic

Comparison

Echo vs ECG

ECG measures electrical rhythm. Echo images structure and function. This page helps you choose the right test.

Compare tests

Results

Normal Ejection Fraction Explained

EF is one of the most misunderstood echo numbers. Learn what “normal” means and why context matters.

Understand EF

FAQs about conditions diagnosed by echo

Quick answers to the most common “will an echo show…?” questions.

Can an echo diagnose blocked coronary arteries?

Echo does not directly image coronary artery blockages reliably. It can show how well the heart muscle is moving and pumping, and sometimes suggests prior injury or strain, but coronary assessment usually needs a different pathway (often ECG/bloods ± CT coronary angiography depending on scenario).

Will an echo show valve disease if I have a murmur?

In many cases, yes. Echo is the main imaging test used to evaluate valve narrowing (stenosis), valve leakage (regurgitation), leaflet motion, and the Doppler flow patterns that help grade severity.

Can an echo detect heart failure?

Echo helps identify heart failure patterns by measuring pumping function (including EF where measurable), chamber sizes, and supportive Doppler findings. Final diagnosis still depends on symptoms, exam findings, and other tests.

What if my echo is “normal” but I still have symptoms?

That happens. A normal echo rules out many major structural problems, but symptoms can come from rhythm issues, lung conditions, anaemia, thyroid problems, deconditioning, anxiety physiology, or coronary disease. The best next step depends on your symptom pattern and clinical history.

Is an echocardiogram safe?

A standard transthoracic echo (TTE) uses ultrasound (sound waves), not radiation, and is generally very well tolerated. Read the safety guide.

Ready for clear answers about your heart? Book a private echocardiogram (ultrasound echo) at Sonoworld, Marylebone (W1G). Self-referral and insurance routes are available. You’ll receive a structured report designed to share with your GP or specialist.

Book echocardiogram About the echocardiogram service Explore cardiovascular scans

Prefer to talk first? Call 020 3633 4902. Clinic address: 29 Weymouth Street, Marylebone, London W1G 7DB.

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