Development and teratology of cardiovascular and lymphatic systems Repetition: Muscle tissue pigg7bflow Krevní oběh, srdce,cévy - 1 Beginning of the cardiovascular system development – the 3rd week: Hemangiogenesis (day 15 – 16) – blood islets (insulae sanguinae) in extraembryonic mesoderm and splanchnic mesenchyme of embryo Clusters of mesenchyme cells (angiogenic cells) differentiate into: - angioblasts ð endothelium (at the periphery of blood islets) - hemoblasts ð primitive erythrocytes (in the center of blood islets) Clusters of angiogenic cells form a "horseshoe-shaped" space between somatic and splanchnic layer of mesoderm = pericardial cavity. Two endothelial tubes arrise in splanchnic mesoderm. The ventral portion of these tubes forms the cardiogenic area with two heart tubes, while the lateral portions form the dorsal aortae. Krevní oběh, srdce,cévy - 3 embryology of chicken 36 hours Germ disc: prosencephalon eye mesencephalon rhombencephalon heart lateral mesoderm somites small blood vessels blood islands primitive streak Krevní oběh, srdce,cévy - 4 Figure 5 Initially, the cardiogenic area is located anterior to the prechordal plate and the neural plate. The growth of the central nervous system pulls the cardiogenic area and prechordal plate (buccopharyngeal membrane ventrally and caudally ( ). figurelarge4-3a Krevní oběh, srdce,cévy - 4 cardev002-2a Cardiogenic region just cranial to the prechordal plate. cardev003-1all Krevní oběh, srdce,cévy - 5 •The canalization of cardiogenic clusters in the splanchnic •mesoderm results in the formation of the paired heart tubes. S2_4_02 S2_4_02a Fusion of the heart tubes Folding of embryo and primitive gut separation from yolk sac. • a single heart tube is, temporarily attached to the dorsal side of the pericardial cavity by the dorsal mesocardium (4). The splanchnic mesoderm (5) around the heart tube (3 - future endocardium) thickens and forms the heart jelly = myoepicardial mantle (future myocardium and epicardium). S2_4_02a 3 Truncus arteriosus + aortic roots Bulbus cordis Ventricle Atrium Sinus venosus Common cardinal veins Umbilical veins Vitelline veins Cor tubulare Cor sigmoideum Cor quadricameratum Heart tube cardev015-1a cardev017 cardev018-2a Looping of the heart tube - because growth of the heart tube is faster then growth of the pericardial cavity Cor quadricameratum cardev026 Atrioventricular septum Endocardial cushions develop in the dorsal and ventral walls of the heart in the region of the atrioventricular canal. They grow towards each other and fuse, thus dividing the atrioventricular canal into right and left orifices. The lateral interventricular cushions appear on the sides of the canal. These proliferations of the mesenchymal tissue subsequently differentiate into bicuspid and tricuspid atrioventricular valves. Ventricle Septum interventriculare Grows from the heart apex cranily to the endocardial cushions (AV septum) S2_4_04a 6- membranaceous part of septum 7- IV septum Atrium a35262 Septum atriorum -septum primum with ostium primum (obliterates); ostium secundum -septum secundum with foramen ovale Atrium At the end of the 4th week, septum primum grows from the dorsocranial wall of the primitive atrium towards the endocardial cushions. The temporary opening (ostium primum - op) between the lower rim of the septum primum and the endocardial cushions gradually closes. Perforations in the upper part of the septum primum form the ostium secundum - os. Subsequently, another crest (septum secundum) grows from the right side of the septum primum and gradually covers the foramen secundum. The oval opening left by the septum secundum is called foramen ovale. Žula a35262 Septum primum Septum secundum foramen ovale op os Krevní oběh, srdce,cévy - 10 Sinus venosus Common cardinal veins Umbilical veins Vitelline veins left veins obliterate and - left portion of sinus venosus is transformed into sinus coronarius - right portion becomes to be part of right atrium Truncus arteriosus + aortic roots -cranial part of bulbus cordis divides into: -aortic roots, branched into 6 pairs of aortic arches Bulbus cordis - cranial part give rise to truncus arteriosus - middle part give rice to conus arteriosus distal part participate in formation of ventricle wall Bulbus cordis and truncus arteriosus a pair of opposing ridges appear in the walls of the bulbus cordis and truncus arteriosus. These ridges twist around each other, forming a spiral course of the aortico-pulmonary septum. This septum divides the bulbus cordis and truncus arteriosus into two channels, the aorta and the pulmonary artery. It also participates in the closure of the interventricular foramen S2_4_05 1. Aorta 2. Left pulmonary artery 3. Pulmonary trunk 4. Muscular interventricular septum 5. Right ventricle 6. Membranous interventricular septum Formation of aorticopulmonary septum S2_4_05a 1. Aorticopulmonary septum 2. Pulmonary valve 3. Pulmonary artery 4. Aortic valve 5. Aorta cardev033-2 Krevní oběh, srdce,cévy - 15 1. Internal carotid artery 2. External carotid artery 3. Common carotid artery 4. Right subclavian artery 5. Arch of aorta 6. Brachiocephalic artery 7. Ductus arteriosus 8. 7th intersegmental artery 9. Pulmonary artery 10. Carotid duct 11. Obliterated right dorsal aorta S2_4_08 File:Embryonic Circulations.jpg Primitive blood circulation (2) ch1-1-a-img4-big.jpg (30258 bytes) the primitive blood circulation in an embryo. The fetal circulation figurelarge11-46 At birth, the circulation of the fetal blood through the placenta is stopped and the lungs begin to function. The foramen ovale, ductus arteriosus, ductus venosus and umbilical vessels subsequently obliterate and transform into corresponding ligaments. S2_4_09a S2_4_09 heart\cardev042.gif 368x320 Embryo Heart - Before Birth heart\cardev042a.gif 323x279 Embryo Heart - After Birth Congenital malformations in CVS (the most frequent) •With left → right shunt (without cyanosis) atrial septum defect ventricular septum defect ductus arteriosus apertus (patens, persistens) •With right → left shunt (with cyanosis) Fallot tetralogy transposition of great vessels truncus arteriosus (common aorticopulmonal canal) tricuspid valve atresia •Without shunt coarctation of aorta aortic stenosis pulmonary stenosis dextrocardia (+situs inversus) ectopia cordis Atrial Septal Defects a group of common congenital anomalies defects occuring in a number of different forms and more often in females. heartASD patent foramen ovale left-right shunting Ventricular Septal Defect occurs in the interventricular septum, and is more frequent in males that females. heartVSD left-right shunting Patent Ductus Arteriosus occurs commonly in preterm infants, can close spontaneously (by day three in 60% of normal term neonates) the remainder are ligated simply and with little risk. heartPDA left-right shunting Tetralogy of Fallot named after Etienne-Louis Arthur Fallot (1888) who described it as "la maladie blue" and is a common developmental cardiac defect. The syndrome consists of a number of cardiac defects possibly stemming from abnormal neural crest migration. fallot consists of: 1.ventricular septal defect 2.pulmonary stenosis (valvular or infundibular) 3.results in an overriding aorta 4.right ventricular hypertrophy Transposition of Great Vessels Characterized by aorta arising from right ventricle and pulmonary artery from the left ventricle and often associated with other cardiac abnormalities (e.g. ventricular septal defect). transposition right-left shunting Tricuspid Atresia Blood is shunted through an atrial septal defect to the left atrium and through the ventricular septal defect to the pulmonary artery. The shaded arrows indicate mixing of the blood. Tricuspid_atresia right-left shunting Coarctation of Aorta (preductal or postductal) before or behind ductus arteriosus coarctation Aortic Stenosis Pulmonary Stenosis aortic_stenosis_valvular pulmonary_stenosis_valvular Hypoplastic Left Heart Characterized by hypoplasia (underdevelopment or absence) of the left ventricle obstructive valvular and vascular lesion of the left side of the heart. hypoplastic_left%20_heart Functional_hypoplastic_left_heart hypoplastic left hear functional hypoplastic left heart Double Outlet Right Ventricle De-oxygenated blood enters the aorta from the right ventricle and is returned to the body. double_outlet_right_ventricle Pulmonary Atresia Abnormal blood flow (as indicated by the shaded blue arrow) is from the right atrium and right ventricle through an atrial septal defect to the left side of the heart. Blood can reach the pulmonary arteries only through a patent ductus arteriosus. pulmonary_atresia • Heart Sinus venosus (R horn): smooth part of right atrium (sinus venarum) and the "valve" of the superior vena cava. The sino-atrial node. Sinus venosus (L horn): coronary sinus, valve of coronary sinus Valve of sinus venosus (R): border of smooth part of right atrium (crista terminalis) Valve of sinus venosus (L): part of atrial septum Common atrium: rough part of right and left atria and the auricles Embryonic pulmonary vein: large part of the left atrial wall Septum primum: left side of the atrial septum Septum secundum: right side of the atrial septum Foramen secundum: dimple in the atrial septum seen from left side (fossa ovalis, ok) Foramen ovale: fossa ovalis Endocardial cushions: parts of the atrioventricular wall, mitral, and tricuspid valves Endocardial cushions: membraneous part of ventricular septum, part of arterial trunk Bulbus cordis: trabeculated part of R ventricle and aortic vestibule of L ventricle Truncus arteriosus: ascending (ventral) aorta and pulmonary artery Common ventricle: parts of the right and left ventricle Arterial System Aortic sac (R and L sides of sac): brachiocephalic artery (right) and part of the ascending aorta (left), large parts of common carotid arteries 1st aortic arch (R and L): part of the maxillary artery and external carotid arteries 2nd aortic arch (R and L): part of the hyoid and stapedial arteries, part of external carotids 3rd aortic arch (R and L): part of common carotids and first part of the internal carotids 4th aortic arch (R): small proximal part of the right subclavian artery 4th aortic arch (L): small part of arch of the aorta just proximal to the left subclavian artery 6th aortic arch (R): proximal part of right pulmonary artery 6th aortic arch (L=ductus): proximal left pulmonary artery and and ligamentum arteriosum Ductus arteriosus: ligamentum arteriosum Dorsal aorta (R and L): part of right subclavian, descending aorta below left subclavian Unpaired ventral (or vitelline) arteries: celiac, superior mesenteric, and inferior mesenteric arteries Paired dorsal segmental arteries: intercostal arteries and vertebral arteries Umbilical arteries: internal iliac, superior vescial arteries, medial umbilical ligaments Venous System Ductus venosus: ligamentum venosum Umbilical vein (L): round ligament (ligamentum teres) Vitelline vein (R): superior mesenteric vein and the inferior vena cava Vitelline vein (L): most of the portal vein Anterior cardinal veins (R and L): internal jugular veins (left brachiocephalic vein is an anastomosis) Anterior cardinal vein (R): part of superior vena cava and right brachiocephalic vein Common cardinal vein (R): proximal part of superior vena cava Common cardinal vein (L): lateral part of coronary sinus and oblique vein of left atrium Posterior cardinal vein (R): part of azygos vein and common iliac veins Supracardinal veins: hemiazygos vein (L) and caudal part of azygos vein (R) Subcardinal vein (R): renal segment of inferior vena cava fetalcirculation Figure 1.  407221aa Mesenchymal cells form the cardiac valves from the conotruncal (CT) and atrioventricular valve (AVV) segments. A – atrium; Ao – aorta; DA – ductus arteriosus; LA – left atrium; LCC – left common carotid; LSCA – left subclavian artery; LV – left ventricle; PA – pulmonary artery; RA – right atrium; RCC – right common carotid; RSCA – right subclavian artery; RV – right ventricle; V – ventricle. Cardiogenic precursors form the linear heart tube. 585x413-images-stories-cardiovascular-anatomy-development%20of%20heart abheart3small transposition of the great vessels - the aorta exits from the right ventricle, and the pulmonary trunk exits from the left ventricle. This is only compatible with life postnatally if the ductus arteriosus remains patent, allowing communication between the otherwise closed systemic and pulmonary circulations driven by the left and right sides of the heart. abvesselssmall Lumps of modelling clay Neural tube Neural tube with foregut etc added Embryo model with some blood vessels Completed embryo model Herzm3 MM13ok berger3 sarcomere_animation 062 061 058 057 056 053 Musc14 smooth_muscle_histology02