Sandbox:Pulmonary valve stenosis
Overview
Historical Perspective
Epidemiology and Demographics
Incidence of isolated PS is 1.5-6.5 per 10,000live births and accounts for 2 to 13% of all congenital heart lesions.
Causes
Pulmonary valve stenosis is due to a structural changes resulting from thickening and fusion of the pulmonary valve. The valve pathology can be congenital or acquired. The following is the list of causes:
- Congenital causes: Account for 95% of the cases and include:
- Associated with congenital heart disease:
- Tetralogy of Fallot
- Double outlet right ventricle
- Univentricular atrio-ventricular connection
- Atrioventricular canal defect
- Bicuspid pulmonary valve: Frequently associated with Tetralogy of Fallot.
- Quadricuspid pulmonary valve: They are benign and an incidental finding.
- Isolated pulmonic stenosis: The causes include as follows:
- Acommissural pulmonary valves: Valves have a prominent systolic doming of the cusps and an eccentric orifice.
- Dysplastic pulmonary valves: Thickened and deformed cusps with no commissural fusion.
- Less common malformations include of commissural malformation include: unicommissural pulmonary valve, bicuspid valve with fused commissures.
- Associated with congenital heart disease:
- Acquired Causes: These are less frequent and account for less than 5% of the cases.
- Carcinoid Syndrome: It is the most common acquired cause of Pulmonic stenosis.
- Post infectious: Infective endocarditis
- Rheumatic heart disease
Pathophysiology
Anatomy
- Pulmonary valve is located at the distal part of the right ventricular outflow tract at the junction of the pulmonary artery.
- It is located anterior and superior to the aortic valve at the level of the third intercostal space and separated from the tricuspid valve by the infundibulum of the right ventricle.
- It is comprised of three equal sized, semilunar cusps or leaflets (right, left, anterior), nomenclature based on the corresponding aortic valve.
- The three cusps are joined by commissures and the cusps are thinner when compared to the aortic valve, due to a low pressure in the right ventricle.
- The area of the valve is related to body surface area and men usually have greater valve area when compared with women.[1]
- The normal orifice area is approximately around 3cm².[2]
- The pulmonary valve opens in the right ventricular systole allowing the deoxygenated blood to be delivered to the lungs.
- During the right ventricular diastole the pulmonary valves close completely to prevent regurgitation of blood into the right ventricle.
Pathogenesis
- Pulmonic valve stenosis can result from structural alterations resulting from congenital and acquired causes.
Genetics
Associated Conditions
| Syndrome | Genetic Defect | Cardiac features | Other features |
|---|---|---|---|
| Noonan | PTPN11, SOS1
|
|
|
| Williams Beuren |
7Q11.23 deletions Autosomal dominant trait |
|
|
| Leopard | PTPN11, RAF-1
Autosomal dominant trait |
|
|
| DiGeorge | 22Q11 deletion
Autosomal dominant trait |
Conotruncal defects such as tetralogy of Fallot,
|
Hypertelorism
|
| Allagile | AG-1 , NOTCH-2,
Dominant trait |
Peripheral pulmonary stenosis |
Facial dysmorphias (triangular face, wide nasal bridge, deep set eyes)
|
| Keutel | MGP mutations
Autosomal recessive trait |
Multiple peripheral pulmonary stenosis |
Brachytelephalangy
|
| Congenital Rubella | - | Peripheral pulmonary stenosis
|
Congenital cataract/glaucoma
|
History, Symptoms
Physical Examination
Diagnosis
Treatment
Guidelines
Medical Therapy
Surgical Therapy
Follow up
Prevention
Reflist</2> Template:WH Template:WS
- ↑ Capps SB, Elkins RC, Fronk DM (2000). "Body surface area as a predictor of aortic and pulmonary valve diameter". J Thorac Cardiovasc Surg. 119 (5): 975–82. doi:10.1016/S0022-5223(00)70092-4. PMID 10788818.
- ↑ Singh B, Mohan JC (1992). "Doppler echocardiographic determination of aortic and pulmonary valve orifice areas in normal adult subjects". Int J Cardiol. 37 (1): 73–8. PMID 1428292.