The heart Flashcards
Describe the principal functions of a circulatory system and appreciate how the various components of such a system are structured to fulfil these functions
Transport
Nutrient
Waste
O2 and CO2
Heat
Hormones
Protective – carries WBC and Ig
Homeostasis – pH, ions, fluid volume
Pressure
Outline the pulmonary circuit of the dual pump
Deoxy blood leaves the right ventricle into the pulmonary artery
Travels through arterioles and then the capillaries
Oxy blood from the capillaries is then taken back to the left atrium
Outline the systemic circuit of the dual pump
Oxy blood leaves the left ventricle through the aorta
Travels through the arteries then the arterioles and then the capillaries
The deoxy blood is taken to the systemic veins (inc vena cava) by the venules into the right atrium
Outline the blood supply to the liver
Blood first travels through the digestive tract then to the liver through the hepatic portal vein
Outline the blood supply to the kidneys
Afferent arterioles bring blood to glomerulus and then efferent articles leave the glomerulus. After leaving the nephron these efferent arterioles condense to eventually fomr the renal vein
Describe the necessity for a dual circulatory system in the adult mammal
Blood taken to the lungs requires less pressure so that Haemoglobin able to bind to sufficient O2 molecules.
In order to supply sufficient blood to the rest of the body the blood from the LHS has a higher pressure
Describe the anatomical landmarks of the heart
Ventral border of the lungs
Cardiac notch (L>R)
Lungs laterally
Phrenic nerve runs along the heart
Thymus cranially
In young animals
Diaphragm caudally
Describe the postion of the heart
Lies in mediastinum
Divides L and R pleural cavities
60% is to L of median plane
Lateral projection is ribs 3 – 6
Base is dorsal
Apex sits in sternum - costochondral junction 6
Right ventricle is CRANIAL to left ventricle!
Define the functional role of the heart in the mammalian circulatory system
Define the major anatomical features of mammalian heart
Atria form base
Blind appendages attached to atria which are called auricles
Coronary groove
Identifies junction between atria and ventricles where the main trunks of coronary vessels run (supply to the heart)
Ventricles
Paraconal groove cranially
Subspinous groove caudally
Surface markers of the interventricular septum
Describe how the right atrium ensures optimisation of the role it plays in the circulatory system
Cranial and caudal vena cava
Intervenous tubercule (roof of vena cava) - Which guides blood returning in the vena cava down to the RA
Sino-atrial node (pacemaker of heart)
Coronary sinus (termination of coronary vein delivering deoxy blood from cardiac supply to RA)
Azygous vein – R or L
Fossa ovalis (foramen ovale)
the scar from the hole between L and R A which allowed blood to flow through both atria
Describe how the left atrium ensures optimisation of the role it plays in the circulatory system
Dorsal and caudal
Under tracheal bifurcation
Pulmonary veins enter
In groups into 2 or 3 sites
In septal wall is scar of valve of f.ovale
Describe how the right ventricle ensures optimisation of the role it plays in the circulatory system
Crescentic in section
Wraps round LV cranial and to the right
Pulmonary artery is cranial and L of aorta!
Trabecula septomarginalis (strip of muscle which runs across right ventricle)
connects septum – outer wall
Describe how the left ventricle ensures optimisation of the role it plays in the circulatory system
Circular in section
Occupies all of apex
Prominent papillary muscles – muscle to which valves are attached
Aorta is central
Describe the structure and function of the cardiac skeleton
Fibrous cardiac skeleton separates atria and ventricles and provides support to the heart valves.
It insulates the ventricles from the atria so the only way electrical signals can pass is though av node
In some species such as cow you can find bony structures known as the ossa cordis
