Tricuspid atresia overview: Difference between revisions
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==Overview== | ==Overview== | ||
[[Tricuspid atresia]] is the fourth most common [[cyanotic]] [[congenital heart disease]] after [[tetralogy of Fallot]], [[ transposition of the great arteries]] (TGA), and [[hypoplastic left heart syndrome]], whether the [[nonoxygenated blood]] can not flow from [[right atrium ]]to [[right ventricle]] due to nondevelopment or total agenesia of the [[tricuspid valve]]. The [[right ventricle]] is small and the [[pulmonary artery]] in some cases is hypoplastic. [[ Atrial septal defect]] (ASD) or [[patent foramen oval]] ([[PFO]]) is necessary for passing the [[ blood]] from the [[right atrium]] to the left system and without them the [[infants]] will not survive. The majority of [[infants]] die without [[palliative surgery]]. [[Tricuspid atresia]] was first discovered by Friedrich Ludwig kreysig in 1817, a German physician who found the obstruction between the [[right atrium]] and [[right ventricle]] in the autopsy of [[cyanotic]] infants.The classic term of [[tricuspid atresia]] was used firstly by schuberg in 1861. [[Tricuspid atresia]] occurs during [[prenatal]] development. In [[tricuspid atresia]], there is no continuity between the [[right atrium]] and [[right ventricle]]. [[Inferior vena cava]] and [[superior vena cava]] collect venous [[nonoxygenated blood]] into the [[right atrium]]. Through [[atrial septal defect]] (ASD), [[ blood ]] come into the [[left atrium]], then [[left ventricle ]]and[[ aorta]].This [[blood]] is a mixture of saturated and unsaturated O2. If there is a [[ventricular septal defect ]](VSD), this mixed blood in the [[left ventricle]] flows into the [[right ventricle]], then via [[pulmonary artery]] reaches [[pulmonary bed]] and becomes [[oxygenated]], then returns back into the [[left atrium]] via [[ pulmonary veins]]. In diminished [[pulmonary blood flow]] whether the flow is dependent on [[patent ductus arteriosus]] ([[PDA]]), the mixed-blood in [[aorta]] flows from this passage into[[ pulmonary artery]] and [[pulmonary bed]]. In the presence of normal positioning of [[great arteries]], [[cyanosis]] is more prominent and is affected by the size of [[ VSD]]. [[Transposition of the great arteries]] ([[TGA]]) and [[subaortic stenosis]] are other associated anomalies. Some Genes mutation in tricuspid valvopathy includes : [[missense mutation]] in RASA1 that regulates Ras/ERK cascade, a missense mutation in NFATC1 that downregulates the Ras/ERK pathway. Familial recurrence of [[tricuspid atresia]] is rare. Few cases of an [[autosomal recessive]] pattern of inheritance are reported.Patients with [[tricuspid atresia]] should be differentiated from other [[cardiac]] causes of [[cyanosis]] and [[lung]] olygemia include: [[Tetralogy of Fallot | [[Tricuspid atresia]] is the fourth most common [[cyanotic]] [[congenital heart disease]] after [[tetralogy of Fallot]], [[ transposition of the great arteries]] (TGA), and [[hypoplastic left heart syndrome]], whether the [[nonoxygenated blood]] can not flow from [[right atrium ]]to [[right ventricle]] due to nondevelopment or total agenesia of the [[tricuspid valve]]. The [[right ventricle]] is small and the [[pulmonary artery]] in some cases is hypoplastic. [[ Atrial septal defect]] (ASD) or [[patent foramen oval]] ([[PFO]]) is necessary for passing the [[ blood]] from the [[right atrium]] to the left system and without them the [[infants]] will not survive. The majority of [[infants]] die without [[palliative surgery]]. [[Tricuspid atresia]] was first discovered by Friedrich Ludwig kreysig in 1817, a German physician who found the obstruction between the [[right atrium]] and [[right ventricle]] in the autopsy of [[cyanotic]] infants.The classic term of [[tricuspid atresia]] was used firstly by schuberg in 1861. [[Tricuspid atresia]] occurs during [[prenatal]] development. In [[tricuspid atresia]], there is no continuity between the [[right atrium]] and [[right ventricle]]. [[Inferior vena cava]] and [[superior vena cava]] collect venous [[nonoxygenated blood]] into the [[right atrium]]. Through [[atrial septal defect]] (ASD), [[ blood ]] come into the [[left atrium]], then [[left ventricle ]]and[[ aorta]].This [[blood]] is a mixture of saturated and unsaturated O2. If there is a [[ventricular septal defect ]](VSD), this mixed blood in the [[left ventricle]] flows into the [[right ventricle]], then via [[pulmonary artery]] reaches [[pulmonary bed]] and becomes [[oxygenated]], then returns back into the [[left atrium]] via [[ pulmonary veins]]. In diminished [[pulmonary blood flow]] whether the flow is dependent on [[patent ductus arteriosus]] ([[PDA]]), the mixed-blood in [[aorta]] flows from this passage into[[ pulmonary artery]] and [[pulmonary bed]]. In the presence of normal positioning of [[great arteries]], [[cyanosis]] is more prominent and is affected by the size of [[ VSD]]. [[Transposition of the great arteries]] ([[TGA]]) and [[subaortic stenosis]] are other associated anomalies. Some Genes mutation in tricuspid valvopathy includes : [[missense mutation]] in RASA1 that regulates Ras/ERK cascade, a missense mutation in NFATC1 that downregulates the Ras/ERK pathway. Familial recurrence of [[tricuspid atresia]] is rare. Few cases of an [[autosomal recessive]] pattern of inheritance are reported.Patients with [[tricuspid atresia]] should be differentiated from other [[cardiac]] causes of [[cyanosis]] and [[lung]] olygemia include: [[Tetralogy of Fallot]], [[Total anomalous pulmonary venous connection]], [[Pulmonary atresia]], [[Tricuspid stenosis]]. | ||
==Historical Perspective== | ==Historical Perspective== |
Revision as of 15:51, 8 November 2020
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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]Associate Editor-In-Chief: Sara Zand, M.D.[2]Keri Shafer, M.D. [3] Priyamvada Singh, MBBS [4]; Assistant Editor-In-Chief: Kristin Feeney, B.S. [5]
Overview
Tricuspid atresia is the fourth most common cyanotic congenital heart disease after tetralogy of Fallot, transposition of the great arteries (TGA), and hypoplastic left heart syndrome, whether the nonoxygenated blood can not flow from right atrium to right ventricle due to nondevelopment or total agenesia of the tricuspid valve. The right ventricle is small and the pulmonary artery in some cases is hypoplastic. Atrial septal defect (ASD) or patent foramen oval (PFO) is necessary for passing the blood from the right atrium to the left system and without them the infants will not survive. The majority of infants die without palliative surgery. Tricuspid atresia was first discovered by Friedrich Ludwig kreysig in 1817, a German physician who found the obstruction between the right atrium and right ventricle in the autopsy of cyanotic infants.The classic term of tricuspid atresia was used firstly by schuberg in 1861. Tricuspid atresia occurs during prenatal development. In tricuspid atresia, there is no continuity between the right atrium and right ventricle. Inferior vena cava and superior vena cava collect venous nonoxygenated blood into the right atrium. Through atrial septal defect (ASD), blood come into the left atrium, then left ventricle andaorta.This blood is a mixture of saturated and unsaturated O2. If there is a ventricular septal defect (VSD), this mixed blood in the left ventricle flows into the right ventricle, then via pulmonary artery reaches pulmonary bed and becomes oxygenated, then returns back into the left atrium via pulmonary veins. In diminished pulmonary blood flow whether the flow is dependent on patent ductus arteriosus (PDA), the mixed-blood in aorta flows from this passage intopulmonary artery and pulmonary bed. In the presence of normal positioning of great arteries, cyanosis is more prominent and is affected by the size of VSD. Transposition of the great arteries (TGA) and subaortic stenosis are other associated anomalies. Some Genes mutation in tricuspid valvopathy includes : missense mutation in RASA1 that regulates Ras/ERK cascade, a missense mutation in NFATC1 that downregulates the Ras/ERK pathway. Familial recurrence of tricuspid atresia is rare. Few cases of an autosomal recessive pattern of inheritance are reported.Patients with tricuspid atresia should be differentiated from other cardiac causes of cyanosis and lung olygemia include: Tetralogy of Fallot, Total anomalous pulmonary venous connection, Pulmonary atresia, Tricuspid stenosis.
Historical Perspective
Tricuspid atresia was first discovered by Friedrich Ludwig kreysig in 1817, a German physician who found the obstruction between the right atrium and right ventricle in the autopsy of cyanotic infants. The classic term of tricuspid atresia was used firstly by schuberg in 1861.
Classification
Pathophysiology
Tricuspid atresia occurs during prenatal development. In tricuspid atresia, there is no continuity between the right atrium and right ventricle. Inferior vena cava and superior vena cava collect venous nonoxygenated blood into the right atrium. Through atrial septal defect (ASD), blood come into the left atrium, then left ventricle andaorta.This blood is a mixture of saturated and unsaturated O2. If there is a ventricular septal defect (VSD), this mixed blood in the left ventricle flows into the right ventricle, then via pulmonary artery reaches pulmonary bed and becomes oxygenated, then returns back into the left atrium viapulmonary veins. In diminished pulmonary blood flow whether the flow is dependent on patent ductus arteriosus (PDA), the mixed-blood in aorta flows from this passage into pulmonary artery and pulmonary bed. In the presence of normal positioning of great arteries, cyanosis is more prominent and is affected by the size of VSD. Transpositioning great arteries (TGA) and subaortic stenosis are other associated anomalies.
Causes
Some Genes mutation in tricuspid valvopathy includes : missense mutation in RASA1 that regulates Ras/ERK cascade, a missense mutation in NFATC1 that downregulates the Ras/ERK pathway. Familial recurrence of tricuspid atresia is rare. Few cases of an autosomal recessive pattern of inheritance are reported.
Differentiating tricuspid atresia from Other Diseases
Patients with tricuspid atresia should be differentiated from other cardiac causes of cyanosis and lung olygemia include: Tetralogy of Fallot, Truncus arteriosus, Total anomalous pulmonary venous connection, Pulmonary atresia, Tricuspid stenosis.