Knowt
cardiac cycle
atrial systole
atrium contracts and blood is pushed into the ventricles (where the contents are under low pressure) by contraction of the walls of the atrium
contraction prevents backflow by blocking off the veins that brought the blood to the heart
atrial diastole
the atrium relaxes
ventricular systole
the ventricle contracts with a forceful contraction
high pressure shuts the atrioventricular valve and opens the semilunar valves, forcing blood into the aorta
a pulse is generated
ventricular diastole
ventricles relax
each contraction of cardiac muscle is followed by relaxation and elastic recoil
myogenic = originates within the muscle rather than the nervous system, and results in depolarisation
sinoatrial node
cells of the SAN depolarise and a wave of excitation spreads rapidly across the atria, causing them to contract simultaneously (atrial systole)
atrioventricular node
boundary between atria and ventricles is made of connective tissue which does not conduct these impulses
impulses stimulate AVN to pass the ventricles
bundle of His and purkyne tissue
AVN is connected to bundle of His - specially modified muscle fibres, and then impulse is passed to finer branching network of purkyne tissue to the base of the ventricles
purkyne tissue carries impulses five times faster than surrounding muscle to ensure that the base of the ventricle contracts first in ventricle systole, forcing blood in the right direction
refractory period = period of insensitivity to stimulation - longer in the heart than in most muscles, allows heart muscles to relax to allow refilling and prevents the muscle suffering from fatigue
cardiac cycle
atrial systole
atrium contracts and blood is pushed into the ventricles (where the contents are under low pressure) by contraction of the walls of the atrium
contraction prevents backflow by blocking off the veins that brought the blood to the heart
atrial diastole
the atrium relaxes
ventricular systole
the ventricle contracts with a forceful contraction
high pressure shuts the atrioventricular valve and opens the semilunar valves, forcing blood into the aorta
a pulse is generated
ventricular diastole
ventricles relax
each contraction of cardiac muscle is followed by relaxation and elastic recoil
myogenic = originates within the muscle rather than the nervous system, and results in depolarisation
sinoatrial node
cells of the SAN depolarise and a wave of excitation spreads rapidly across the atria, causing them to contract simultaneously (atrial systole)
atrioventricular node
boundary between atria and ventricles is made of connective tissue which does not conduct these impulses
impulses stimulate AVN to pass the ventricles
bundle of His and purkyne tissue
AVN is connected to bundle of His - specially modified muscle fibres, and then impulse is passed to finer branching network of purkyne tissue to the base of the ventricles
purkyne tissue carries impulses five times faster than surrounding muscle to ensure that the base of the ventricle contracts first in ventricle systole, forcing blood in the right direction
refractory period = period of insensitivity to stimulation - longer in the heart than in most muscles, allows heart muscles to relax to allow refilling and prevents the muscle suffering from fatigue