Deciphering the Rosetta Stone - Trans-Mitral Doppler Patterns for a Simpliﬁ ed Study of Left Ventricular Systolic Dysfunction

There is a renewed interest in heart failure treatments. With this, there is an increasing interest in heart failure with preserved ejection fraction. Trans-mitral Doppler is commonly used in the assessment of ‘diastolic’ function. It is fashionable to discuss diastolic dysfunction and diastology with the result that the more important systolic dysfunction has become passé . The current literature equates trans-mitral Doppler patterns to diastolic function when actually it is more relevant in systolic dysfunction. This article is an attempt to correct this ﬂ awed perception of trans-mitral Doppler


Introduction
There is a renewed interest in heart failure treatments [1].Newer therapeutic options are popping up with increased frequency.The concept of "backward failure" was introduced in 1947 [2].Later this was described as "diastolic heart failure".The same is now called heart failure with preserved ejection fraction (HFpEF).With this "diastology" has become more fashionable and heart failure with reduced ejection fraction (HFrEF) is being relegated to the background [3,4].However, the heart being a pump, the evaluation of systolic function is crucial.There are several complicated methods to evaluate systolic dysfunction [5].In such a scenario it is of utmost importance to have a simple assessment of the systolic function.The study of trans-mitral low is an easy way to assess systolic function too.It can be undertaken using the simplest machines without using sophisticated techniques and calculations.A detailed methodology of a simpli ied study of trans-mitral Doppler patterns has been described earlier [6].

Just what do you mean by diastolic dysfunction?
Diastole and systole are two sides of the same coin and are not mutually exclusive (Figure 1).Abnormalities that occur during the diastolic part of the cardiac cycle would be diastolic dysfunction.Thus, 'diastolic dysfunction' will cover the universal set of all diastolic abnormalities in the heart.This will include components like left ventricular, right ventricular, left atrial, right atrial, mitral valve, tricuspid valve, aortic valve, pulmonary valve, aortic root, pulmonary artery, pericardial, and rhythm-related diastolic abnormalities.Most commonly we address left ventricular diastolic dysfunction.In current literature, diastolic dysfunction usually means left ventricular diastolic dysfunction and its attendant pressure and Doppler abnormalities.

Trans-mitral Doppler for the assessment of cardiac function
Doppler should be seen as a tool to assess global cardiac function -both diastolic and systolic.Trans-mitral Doppler is to study left ventricular function.It is important to note that this is a 'dual use' tool -like a measuring tape which can measure chest expansion or abdominal girth depending on where it is applied.Here the term to be used is Doppler Filling Patterns (DFP) instead of Doppler diastolic patterns so as to include the study of systolic function.The term Doppler diastolic patterns gives the impression that trans-mitral Doppler is exclusively used to study diastolic function [11].
Thus trans-mitral Doppler can be used to assess systolic and diastolic functions depending on the clinical situation.It is like measuring the abdominal girth for metabolic syndrome.Metabolic syndrome is a common entity.In a female, the implication of the abdominal girth depends on whether the patient is pregnant.Thus the same girth measurement would mean say 'severe metabolic syndrome' or 'advanced pregnancy'.In this case, the implication of 'advanced pregnancy' is clinically more relevant.Thus 'severe diastolic dysfunction in systolic dysfunction' is an oxymoron.It is like labeling a case of advanced pregnancy as 'severe metabolic syndrome in pregnancy'.So in the case of Doppler patterns, these should be analyzed in the context of systolic function.If the systolic function is impaired, it is an assessment of the severity of systolic dysfunction.

Trans-mitral Doppler for systolic function
Traditionally trans-mitral Doppler is equated with diastolic function [12].However diastolic indices are used for systolic function.Classical cardiology tells us that end-diastolic pressure, end-diastolic volume, etc. re lect systolic function.Left ventricular end-diastolic pressure (LVEDP) is the gold standard for systolic function.Other diastolic indices indicating systolic function are E-point septal separation and B-bump [13] Diastole is a distinct and important physiological entity.But systole is an important clinical entity.Since diastolic indices re lect systolic properties, the illing patterns that occur in diastole are more relevant for systolic function.
Which brings us to the most important question.What signi icant information do trans-mitral Doppler patterns provide?Does it tell us more about diastolic function or systolic function?
As mentioned earlier, diastolic dysfunction is a vague entity.It is a reality but pursuing it in clinical practice with Doppler is fraught with problems.The heart is a pump, and the systolic function is critical.It is important to detect systolic dysfunction at any cost.Transmitral Doppler shows a good relation with systolic dysfunction [14].The progression or regression of patterns is consistent with improvement or deterioration.So these 'diastolic' patterns are more relevant for systolic dysfunction.
Doppler echocardiography has made it easy to evaluate "diastolic function" by the analysis of trans-mitral low.In the process, we have given undue importance to "diastology" in general and "diastolic dysfunction" in particular [7,8].But what do you mean by diastolic dysfunction?
The earliest changes in cardiac dysfunction occur at the molecular, cellular, and structural levels [9].Doppler abnormalities set in later.When we say diastolic dysfunction do we mean molecular/cellular abnormalities, abnormal chamber properties, abnormal pressures, abnormal Doppler patterns, or diastolic heart failure?Most literature equates abnormal Doppler patterns with diastolic dysfunction [9,10].
Diastole is a sensitive part of the cardiac cycle.The earliest abnormality in any cardiac pathology is diastolic dysfunction.So it is but natural that any cardiac disease can cause LV diastolic dysfunction to variable extents.Doppler can only detect 'diastolic dysfunction' at later stages.Abnormal Doppler Filling Patterns (DFP) are only a part of the total diastolic dysfunction set.So being a ubiquitous entity, the absence of abnormal DFP need not mean the absence of diastolic dysfunction.LV diastolic dysfunction can occur in very mild forms and regional forms, which may not be evident on Doppler assessment.Similarly, the mere presence of abnormal DFP need not mean the presence of HFpEF.So using the vague term 'diastolic dysfunction' is meaningless.
The problems with the present approach to trans-mitral Doppler are: 1. Abnormal trans-mitral Doppler patterns are considered to indicate diastolic dysfunction exclusively.
2. There is no differentiation between Doppler patterns of normal and impaired systolic function.
3. The progression of "diastolic dysfunction" (from mild to severe) is assumed to occur in all situations.
The practical issues with the above problems are: If E-A reversal (Grade 1) is mild, pseudonormal (Grade 2) is moderate and restrictive (Grade 3) is severe diastolic dysfunction, 1.Does it mean that restrictive cardiomyopathy is severe diastolic dysfunction?
2. Does hypertension with initial E-A reversal become restrictive cardiomyopathy as the disease progresses?
3. In systolic dysfunction does the restrictive pattern indicate severe diastolic dysfunction?
Many such oddities are possible with the current approach.This means that there is a need to approach transmitral Doppler patterns in a more realistic and rational manner.https://doi.org/10.29328/journal.ijcar.1001023

Systology
If the study of diastolic function is 'diastology', then the study of systolic function is 'systology'.Systolic dysfunction is usually associated with increased LV end-diastolic pressure and left atrial pressure.This can be studied by LV DFP.Basic echocardiography tells us that a brisk and wellopening mitral valve signi ies good systolic function.Thus diastolic phenomena are indicators of systolic function.Patients with progressively more abnormal diastolic patterns have greater structural abnormalities with larger left atrial and LV size and lower LV ejection fractions [15].So, in cases with impaired systolic function, LV DFP can be used to assess the severity of impairment and prognosis.In such cases, trans-mitral Doppler shows continuous pattern changes (hierarchy of patterns) depending on the severity of systolic dysfunction.By impaired systolic function, we could also include cases with wall motion abnormalities with apparently normal ejection fraction and apparently normal overall LV contractility.If Pattern 0 is normal, Pattern 1 showing a small E wave and a large A wave could indicate mild systolic dysfunction.Pattern 2, showing a 'pseudonormalization' pattern denoted by an apparently normal E and A wave could indicate moderate impairment.Finally, pattern 3 with a very prominent E wave and a minuscule A wave could indicate severe hemodynamic impairment and is associated with the worst prognosis.In cases of systolic dysfunction, the LV DFP is a continuous variable re lecting the increasing left atrial pressures which proceed to atrial failure in pattern 3.As a rule of thumb patterns 0 -1 signi ies a pressure of about 12 -15 mmHg, patterns 1 -2 about 15 -18 mmHg, patterns 2 -3 about 18 -20 mmHg, and pattern 3+ greater than 20 mmHg.These pressure values are only indicative.The pattern recognition and its changes are best in the same patient with a reasonably maintained heart rate.With this approach the absolute velocity values become irrelevant.The relative E and A magnitudes will allow pattern recognition.The increasing left atrial pressure could be con irmed by the pulmonary venous low abnormalities in ideal conditions.As a corollary, in cases with resting or stressinduced wall motion abnormalities and apparently normal ejection fraction, a pattern to the right of 0 could indicate a mild systolic dysfunction.In serial studies of chronic cases, a shift to the right could indicate worsening systolic function while a shift to the left could indicate improvement.
Trans-mitral Doppler should not be interpreted in isolation.It is important to know the systolic function.There are several methodologies and indices for evaluating systolic function but ejection fraction is the most commonly used parameter.As there are many pitfalls in echocardiographic ejection fraction estimation, we rely on eyeball estimation in this simpli ied methodology [16,17].However good experience is needed for reliable eyeball evaluation of systolic function.Arti icial Intelligence may be helpful in such situations [18].
Here the algorithm runs like this: Ask the following questions: Is the systolic function impaired?The answer could be Yes, No, or Doubtful.When in doubt, consider the systolic function as mildly impaired.Next, are there regional wall motion abnormalities?The answer could be Yes, No, or Doubtful.If yes, is it compensated by the other segments?When in doubt consider wall motion abnormality as present depending on the clinical circumstances.Usually, a wall motion abnormality indicates impaired systolic function.However, the global systolic function could be compensated by the other segments.Global hypokinesia is also easily detectable by eyeball examination.

Conclusion
Thus instead of invoking diastolic dysfunction for all abnormal trans-mitral Doppler patterns, we must identify them as severity of systolic dysfunction if the systolic function is impaired.However, if the systolic function is normal it would point to pure diastolic dysfunction [19].With such an approach, many of the cases of diastolic heart failure will turn out to be systolic failure.By following this schema we can unravel some of the mysteries of the Rosetta Stone of Doppler's "diastology" by factoring in systolic dysfunction [20,21].

Figure 1 :
Figure 1: Schematic diagram of cardiac dysfunction.Cardiac dysfunction starts with diastolic dysfunction.The clear area shows cardiac dysfunction without Doppler abnormalities.Doppler evidence is shown as the vertical hatched area.This also includes systolic dysfunction shown as the horizontal hatched area.This overlaps the vertical hatched area.Thus Doppler evaluation is more specifi c for systolic dysfunction.