circulatory/cardiovascular system 2 Flashcards
Myogenic
The heart is myogenic which means it can generate its own contractions.
Sinoatrial (SA) node
The sinoatrial (SA) node in the right atrium initiates each heartbeat. The SA node sends electrical signals at regular intervals which causes the heart to beat.
Process of propagation of the signal in heart contraction
The SA node sends out electrical signals to reach the AV node. From the AV node, the signal is relayed via the bundle of His and spreads to the ventricles via the Purkinje fibers.
Cardiac accelerator nerve versus vagus nerve
The cardiac accelerator nerve stimulates the heart to beat faster. The vagus nerve stimulates the heart to beat slower.
How and why does exercise increase heart rate?
Increased activity means more respiration, causing a greater need for oxygen and increased production of CO2. Increased CO2 in the blood will decrease its pH. When this happens, impulses are sent along the cardiac accelerator nerve to the SA node which increases heart rate.
Epinephrine (adrenalin)
Epinephrine (adrenalin) increases heart rate to prepare for vigorous physical activity in 2 ways. The first way is by stimulating the SA node to emit electrical signals at a faster rate. The second way is by increasing the amount of impulses generated by the SA and AV nodes.
Atheromas
Atheromas are fatty deposits caused by high blood concentrations of cholesterol and fats in the arteries. These deposits build up over time and eventually block arteries which leads to cardiovascular issues.
Thrombosis
Thrombosis is the clotting within a blood vessel that blocks the blood vessel entirely. If a coronary artery is blocked, the cells in that part of the heart die and a heart attack occurs.
Pharynx versus larynx
The pharynx is a membrane-lined cavity found behind the nose and mouth that connects to the esophagus and trachea. The larynx is a muscular tube that connects our mouth to our lungs.
Trachea
The trachea is a tube that connects to the larynx and bronchial tubes. It is reinforced by cartilage which allows it to flex during breathing.
Bronchi versus bronchioles
The bronchi are airways that conduct air into the lungs. The bronchioles are branches from the bronchi; they are lined by smooth muscle that can dilate and constrict.
Alveoli
The alveoli are tiny air sacs of lungs that convert oxygen into carbon dioxide.
Diaphragm
The diaphragm is a muscle that contracts rhythmically and continuously which allows us to breathe.
Ventilation, gas exchange, and respiration
Ventilation removes lower oxygenated air within the alveoli and replaces it with higher oxygenated air. Gas exchange ensures oxygen is always diffusing into the blood from the alveoli, while at the same time ensuring that CO2 diffuses out of the blood into the alveoli. Respiration facilitates inhalation and exhalation of the lungs.
Type 1 and type 2 pneumocytes
Type 1 pneumocytes are thin, flattened cells that increase the amount of surface area available for diffusion to occur. Type 2 pneumocytes are rounded cells that create a moist surface inside the alveoli to prevent the sides from sticking to each other. Both pneumocyte types speed up the process of gas exchange.
