Cardiorespiratory presentation

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Biology 12 Cardiovascular and Respiratory System Presentation

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Cardiovascular and
Respiratory Systems

What are the parts of your circulatory system?

What are the functions of the parts?

What are the parts of your respiratory system?

What are the functions of the parts?

Did we miss anything?

The Brain!

These systems are all linked.

Circulation Functions
1.Transport nutrients to working tissue.
2.Deliver waste products !om metabolic processes to urinary
and respiratory systems.
3.Transport components of the endocrine system to target tissue.
(Hormones)

Respiratory Functions
1.Oxygenation of blood.

Heart
1.Sma$ upper chambers (Le% and Right Atrium)
2.Large lower chambers
A.Right Ventricle - blood to lungs
B.Le% Ventricle - blood to body
3.Valves control ﬂuid travel between chambers and between vessels.

Heartbeat
1.Initiation - impulse !om the SA node (Right Atrium) causes atria to contract
2.Electrical impulse is conveyed by the AV node (Central Heart) to the ventricles
3.Atrioventricular bundle relays signal through Purkinje ﬁbres to the rest of the
ventricles
4.Delay in signal at the AV node a$ows for ventricular ﬁ$ing.

Electrocardiogram (ECG)
1.Measures electrical activity in the heart.
2.Normal sinus rhythm vs atrial ﬁbri$ation
3.AED - automated electrical deﬁbri$ator

Electrocardiogram

Pulmonary Circuit
1.Blood travels !om the heart (Right Ventricle) to the lungs via the pulmonary
arteries
2.This blood is said to be deoxygenated
3.Gas exchange occurs in the lungs
4.Blood travels back to the heart (Le% Atrium) via the pulmonary veins.

Inspiration and Expiration
1.Air is drawn into the lungs as a result of decreased pressure in the thoracic
cavity.
2.We expand our thoracic cavity to decrease pressure by swinging our rib cage up
and out and ﬂattening our diaphragm.
3.Inspiration is an active process - muscles contract to perform this task
4.Expiration is the opposite activity and is passive - muscles relax

External Gas Exchange
1.O2 and CO2 gas exchange between the air and the blood.
2.Occurs as a result of partial pressure (P) diﬀerences.
3.The lungs (alveoli) have a PO2 of 100mmHg (shown as P AO2)
4.The blood entering the lungs has a PO2 of 20-40mmHg
5.The lungs (alveoli) have a PCO2 of 35mmHg
6.The blood entering the lungs has a PCO2 of 40mmHg

Internal Gas Exchange
1.O2 and CO2 gas exchange between the blood and tissue.
2.The arterioles (blood) have a PO2 of 95mmHg
3.The interstitial ﬂuid has a PO2 of 40mmHg
4.The arterioles (blood) have a PCO2 of 40mmHg
5.The interstitial ﬂuid has a PCO2 of 45mmHg

Gas Transport in Blood
1.Oxygen is transported in the blood attached to RBC Hemoglobin
2.Carbon Dioxide is transported in three ways:
1.Attached to Hemoblogin as Carbaminohemoglobin (sma$ amount)
2.Dissolved in the blood (sma$ amount)
3.As bicarbonate ions (H+ and HCO3- Ions) - Majority

Hemoglobin Saturation
1.Deﬁnition - The percentage of hemoglobin molecules that are bound to oxygen,
written as %SO2.
2.Normal range !om 95-100%
3.<90% is said to be hypoxic.
4.We measure this using a pulse oximeter.
5.pH and temperature can inﬂuence hemoglobin saturation.

Oxyhemoglobin
Dissociation
Curve

Regulation of HR and RR

Control of Heart Rate
1.Rate is ﬁxed at 85 bpm without external controls (SA node)
2.Cardiac control centre in the Medu$a Oblongata controls rate.
1.Sympathetic NS - increases HR
2.Parasympathetic NS - decreases HR
3.Hormonal Control - Epinephrine and Norepinephrine release increase HR

Control of Respiratory Rate
1.Resting rate is typica$y between 12-20 breaths per minute
2.Respiratory control centre in the Medu$a Oblongata controls rate.
3.Nerve bundles (carotid and aortic bodies) stimulate the brain when CO2 levels
in the blood are elevated.

Blood Flow

Systemic Blood Circuit
1.Blood travels !om the heart (Le% Ventricle) to the working tissue of the body.
2.This blood brings nutrients to ce$s.
3.Major arteries lead to minor arteries, arterioles and capi$aries.
4.Venules, minor veins, then major veins return blood to the heart.

Blood Pressure
1.Created by the heart.
2.Systolic blood pressure - pressure on blood vessels while ventricles contract
3.Diastolic BP - pressure while the heart is relaxed
4.Blood ﬂow (velocity) and pressure decrease as you move farther away !om the
heart.

Mean Arterial Pressure (MAP)
1.Organs require at least 60mmHg MAP to sustain function.
2.Determining MAP in post-operative patients is important as blood pressure
may drop causing organ damage.
3.The body can regulate BP a number of ways to compensate:
1.Decrease urine production to maintain blood volume.
2.Constriction of blood vessels to decrease vessel volume.

Spirometry

Spirometry Values
1.Tidal Volume (V T) - normal ﬂow at rest (500mL)
2.Inspiratory Reserve Volume - volume of forced inhalation
3.Expiratory Reserve Volume - volume of forced exhalation
4.Vital Capacity - Addition of 1, 2, and 3
5.Residual Volume - volume le% in lungs a%er forced exhalation.

Exercise

Respiratory Values
1.VT
2.Respiratory Rate (RR) - number of breaths in one minute
3.Minute Ventilation (V E) - total volume of gas entering the lungs in one minute.
Calculated as the RR x VT

Adaptation to Exercise
1.The metabolic requirements during exercise aﬀects the respiratory and circulatory system.
2.These adaptations can be acute (short term) as we$ as long term adaptations.
Respiratory Circulatory
Short Term Inc. RR, small inc. VT Inc. HR
Long Term
Vascularization around
Alveoli
Inc. Stroke Volume
Increase RBC

VO2
1.Deﬁnition: The amount of oxygen consumed by the body.
2.VO2max is a measurement of the maximum amount of oxygen consumption.
3.Measurement is done using a metabolic cart and sampling of inspired and expired air.
4.Tests are done at maximal exertion.
5.Submaximal estimated tests can be performed, but are less accurate.

Cardiorespiratory Diseases

Respiratory Disease - COPD
1.Chronic Obstructive Pulmonary Disease
2.Diagnosed using Spirometry
3.FEV1 - Forced expiratory volume in one second
4.FVC - forced vital capacity
5.FEV1/FVC ration and FEV1 values provide information regarding
respiratory health

Cardiovascular Diseases
1.Atherosclerosis
1.Build-up of plaque on the wa$s of blood vessels.
2.Can cause thrombosis to form (Blood clot)
2.Myocardial Infarction
1.Loss of perfusion to heart muscle tissue leading to death of tissue

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