Comparative anatomy of heart structure
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Sep 27, 2018
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About This Presentation
This slide describes about the comparative structure of heart among vertebrates.
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Comparative anatomy of heart structure By Mrs. P.K.Gun ashree Assistant Professor SAASC ,Trichy-5
All chordates have a circulatory or vascular system comprising a system of vessels and channels through which 2 kinds of fluids travel in separate, yet interconnected vessels. The fluids are the blood and the lymph Circulatory System
The blood vascular system is a closed system in vertebrates. It has a contractile heart and continuous tube called vessels. Blood vascular system
Heart is a hollow muscular pumping organ, It is conica l in shape. Heart is always ventral to the gut, lying in a specialized coelomic compartment, the pericardium. HEART
Vertebrates have a pulsating heart It receives blood from various parts of the body at the posterior end by means of veins and pumps it into arteries at the anterior end , which carry the blood to various organs including the breathing organs. Vertebrate heart
Location of Heart
The heart of shark has only two chambers , namely an auricle and a ventricle. On the dorsal side of the auricle there is a sac-like sinous which receives blood from all parts of the body. This opens into the auricle by an aperture. Auricle communicate with the ventricle. Ventricle is continued ventrally and forward by another swollen part called conus arteriosus . Conus extend forward as ventral aorta Heart of shark deals with only deoxygenated blood. Pisces- Scoliodon (dogfish)
Fish-Heart
The heart of frog has 2 auricles and one ventricle. 2 auricles are seperted by an interauricular septum. Sinus venosus on the dorsal side, opens into the right auricle through sinu -auricular aperature . Left auricle- oxygenated blood. The 2 auricles open into the ventricle by a common aperature which is guarded by the auriculo -ventricular valve. Amphibia Rana (Frog)
The heart of reptiles show improvement over the amphibians. Sinus venosus merged with the right auricle. Right and left auricles are completely seperated by interauricular septum. The ventricle is also divided imperfectly into two halves. Conus split upto the base into 2 vessels namely, pulmnory artery and aorta, that cross each other . Reptilia-Calotes (Lizard)
The first land vertebrates to have achieved complete separation of pulmnory and systemic circulation. Heart- large and 4 –chambered, Sinus venosus and conus are absent. RA- deoxygenated blood, 2 postcaval and 1 precaval vein LA- oxygenated blood, pulmnory vein. RA opens into RV by monocuspid valve. LA opene into LV by bicuspid valve. Aves- Columba (Pigeon)
Heart- 4 chambered , completely divided auricle and ventricle. RA opens into RV by tricuspid valve. LA opens into LV by bicuspid valve. Wall of heart supplied by coronary arteries. Mammals- Oryctolagus (Rabbit)
Thus, the well defined circulatory system helps in complete separation pulmnory and systemic circulation and the complex nature of the heart anatomy, overt the course of evolution shows better division of labour . conclusion
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