What is the diagnosis for a patient with a tricuspid valve (TV) showing trivial regurgitation, normal structure, and a tricuspid regurgitation (TR) velocity of 1.2 meters per second (m/s)?

From the Guidelines

The tricuspid valve function appears normal with only physiologic (trivial) regurgitation, and no intervention is required as these findings represent normal cardiac hemodynamics. The tricuspid valve assessment shows normal structure with trivial regurgitation and no stenosis. The inferior vena cava (IVC) caliber is 1.3 cm, which is within normal limits, suggesting normal right atrial pressure. This is confirmed by the measured right atrial pressure of 3 mmHg, which is also normal 1. The tricuspid regurgitation velocity is 1.2 m/s, indicating a low pressure gradient across the valve. According to the 2014 AHA/ACC guideline for the management of patients with valvular heart disease, trivial tricuspid regurgitation is classified as Stage A, where the patient is at risk of TR but has no or trace TR, and normal valve hemodynamics 1.

Key Findings

• Normal tricuspid valve structure
• Trivial regurgitation
• No stenosis
• Normal IVC caliber (1.3 cm)
• Normal right atrial pressure (3 mmHg)
• Low tricuspid regurgitation velocity (1.2 m/s)

Clinical Implications

The normal IVC size and low right atrial pressure suggest adequate right heart function without evidence of right ventricular failure or pulmonary hypertension. The low TR velocity further confirms the absence of elevated right ventricular systolic pressure. These parameters should be monitored during routine cardiac follow-up, but currently do not indicate any pathology requiring treatment 1.

From the Research

Tricuspid Valve Structure and Function

• The tricuspid valve is a complex structure that can be affected by various diseases, including tricuspid regurgitation and stenosis 2.
• Tricuspid regurgitation is frequently encountered and is most often secondary in nature, caused by annular dilatation and leaflet tethering from adverse right ventricular remodelling 2.
• The assessment of tricuspid valve disease requires a comprehensive evaluation, including non-invasive imaging techniques such as echocardiography, MRI, and CT 2, 3.

Tricuspid Regurgitation

• Tricuspid regurgitation is an independent predictor of death, and its severity can be quantified using echocardiography 4.
• The mechanism of tricuspid regurgitation can be defined using 3D echocardiography, which provides a detailed visualization of the tricuspid valve anatomy 4.
• Transcatheter tricuspid valve intervention (TTVI) is a emerging therapy for tricuspid regurgitation, and multimodality imaging plays a crucial role in patient selection, procedure planning, and guiding the procedure 3.

Imaging Techniques

• 3D echocardiography is a cost-effective imaging modality that can be used to visualize the tricuspid valve anatomy, define the mechanism of tricuspid regurgitation, and measure the size and geometry of the tricuspid annulus 4.
• Transesophageal echocardiography and fluoroscopy imaging are key for guiding TTVI procedures, and fusion between these two modalities may further enhance the quality of procedure guiding 3.
• Echocardiographic evaluation is essential for assessing valve function after transcatheter tricuspid valve-in-valve replacement (TVIV) 5.

Treatment Options

• Tricuspid valve surgery is indicated for patients with severe tricuspid regurgitation, and the threshold for restrictive ring annuloplasty repair of secondary tricuspid regurgitation has decreased over time 2.
• Novel transcatheter therapies have begun to emerge for the treatment of tricuspid regurgitation in patients who are deemed at high or prohibitive surgical risk 2, 3.
• TTVI can be categorized into different types, including direct or indirect tricuspid restrictive annuloplasty, direct or indirect restoration of leaflet coaptation, heterotopic tricuspid valve implantation, and transcatheter tricuspid valve replacement 3.