Friday, November 22, 2024
Subscribe American Journal of Medicine Free Newsletter
Diagnostic ImagesImagingNo Structural Signposts: Afterload-Dependent Mitral Regurgitation

No Structural Signposts: Afterload-Dependent Mitral Regurgitation

The patient underwent transesophageal echocardiogram. (A) A 2-chamber view showed a structurally normal mitral valve at baseline with normal coaptation of leaflets. (B) The long-axis view provided the same findings. (C) A 2-chamber view with color Doppler demonstrated mild mitral regurgitation at baseline and no mitral valve prolapse or flail leaflets. (D) The same results were obtained on a long-axis view with color Doppler.

Bad news seemed to generate alarming symptoms in a 61-year-old woman. After learning of a stressful family situation, she presented to an outside hospital with acute, severe dyspnea and mild chest discomfort. Her past medical history included paroxysmal atrial fibrillation, remote pulmonary embolism, hypertension, hypothyroidism, and questionable mitral valve prolapse.

The patient also reported that she had a similar episode of dyspnea 5 years earlier. At that time, she underwent diagnostic cardiac catheterization with left ventriculography. Her coronary arteries were found to be normal, as was her left ventricular systolic function (estimated ejection fraction, 55%). She had no mitral regurgitation. From then on, she was maintained on candesartan, amiodarone, nebivolol, etilefrine, and rivaroxaban. She did not use tobacco or drink alcohol. Her brother had suffered a myocardial infarction but she did not recall at what age this had occurred.

At the start of the patient’s new hospital admission, she received 1.5 L of intravenous normal saline for a blood pressure of 72/50 mm Hg. She became hypoxic, requiring treatment with noninvasive positive pressure mechanical ventilation. Her laboratory measurements revealed an elevated creatinine level (1.7 mg/dL) and a normal lactate measurement (1.2 mmol/L). Troponin-I was undetectable. Her electrocardiogram findings included atrial fibrillation with nonspecific T-wave changes, and a transthoracic echocardiogram demonstrated a left ventricular ejection fraction of 55%-60%, no wall-motion abnormalities, a moderately dilated left atrium with elevated left atrial pressure, moderate tricuspid regurgitation, severe pulmonary hypertension, and severe mitral regurgitation. The patient was then transferred to our hospital.

Assessment

Upon arrival, the patent’s pulse was 86 beats per minute, her blood pressure was 99/70 mm Hg, her respiratory rate was 21 breaths per minute, and her oxygen saturation was 98%, with bilevel positive airway pressure support at 15/5 cm H2O and 40% FiO2. She had no peripheral edema, and her jugular venous pressure was not elevated when lying at a 30-degree angle. Her cardiopulmonary examination findings were notable for diffuse rales bilaterally and an irregularly irregular rhythm. No murmurs were heard. Chest radiography disclosed findings consistent with pulmonary edema, and repeat laboratory measurements showed an improvement in creatinine level to 1.1 mg/dL, a lactate level of 1.7 mmol/L, and troponin-I remained imperceptible. The patient was given intravenous diuretics and weaned to nasal cannula.

When transthoracic echocardiography was repeated at our institution, it indicated that left ventricular ejection fraction (55%-60%), left ventricular function, wall motion, and wall thickness were all normal, while the right ventricular and left atrial chambers were mildly dilated. Most striking, the patient’s mitral regurgitation was mild, a significant improvement from her prior study. The mitral valve itself was structurally normal with mild diffuse sclerotic or myxomatous thickening of the leaflets. Minimal prolapse or buckling of the anterior leaflet was evident, but she did not meet criteria for mitral valve prolapse. Coronary angiography, left ventriculography, and right heart catheterization indicated that her filling pressures were normal, she had no significant coronary artery disease, and only trace mitral regurgitation was occurring.

A transesophageal echocardiogram discerned mild mitral regurgitation without uncovering any structural valvular abnormalities (Figure 1). In light of the discrepant and clinically significant differences in mitral regurgitation found on the 2 transthoracic echocardiograms, the patient underwent another while medications that affect cardiac hemodynamics were administered (TableFigure 2). At baseline, the third transthoracic echocardiogram demonstrated normal left ventricular size and function with mild-to-moderate mitral regurgitation, an estimated stroke volume of 62 mL/beat, and mild tricuspid regurgitation with an estimated right ventricular systolic pressure of 26 mm Hg.

To read this article in its entirety please visit our website.

-David Furfaro, MD, Karly Murphy, MD, Jordan Chaisson, MD, Jose Madrazo, MD, Sammy Zakaria, MD, MPH

This article originally appeared in the August 2016 issue of The American Journal of Medicine.

Latest Posts

lupus

Sarcoidosis with Lupus Pernio in an Afro-Caribbean Man

A 54-year-old man of Afro-Caribbean ancestry presented with a 2-month history of nonproductive cough, 10-day history of constant subjective fevers, and a 1-day history...
Flue Vaccine

Flu Vaccination to Prevent Cardiovascular Mortality (video)

0
"Influenza can cause a significant burden on patients with coronary artery disease," write Barbetta et al in The American Journal of Medicine. For this...
varicella zoster

Varicella Zoster Virus-Induced Complete Heart Block

0
Complete heart block is usually caused by chronic myocardial ischemia and fibrosis but can also be induced by bacterial and viral infections. The varicella...
Racial justice in healthcare

Teaching Anti-Racism in the Clinical Environment

0
"Teaching Anti-Racism in the Clinical Environment: The Five-Minute Moment for Racial Justice in Healthcare" was originally published in the April 2023 issue of The...
Invisible hand of the market

The ‘Invisible Hand’ Doesn’t Work for Prescription Drugs

0
Pharmaceutical innovation has been responsible for many “miracles of modern medicine.” Reliance on the “invisible hand” of Adam Smith to allocate resources in the...
Joseph S. Alpert, MD

New Coronary Heart Disease Risk Factors

0
"New Coronary Heart Disease Risk Factors" by AJM Editor-in Chief Joseph S. Alpert, MD was originally published in the April 2023 issue of The...
Cardiovascular risk from noncardiac activities

Cardiac Risk Related to Noncardiac & Nonsurgical Activities

0
"Assessment of Cardiovascular Risk for Noncardiac and Nonsurgical Activities" was originally published in the April 2023 issue of The American Journal of Medicine. Cardiovascular risk...