Circulation and Respiration PDF

Summary

This document provides an overview of circulation and respiration, covering topics such as the circulatory system's functions, different types of circulatory systems, blood composition, oxygen transport, blood vessels, exchange at capillaries, the vertebrate circulatory system, blood pressure, and the respiratory system's structure and functioning.

Full Transcript

“Man is the most insane species. He worships an invisible God and destroys a visible
Nature. Unaware that this Nature he’s destroying is this God he’s worshipping.”
- Hubert Reeves

"I will love you as long as my heart still beats and my brain still brains."
- Homer Simpson

Circulation and Respiration
Chapter 30
Respiratory and Circulatory Systems
 Functions of the Circulatory System
Transport: Moves oxygen, nutrients,
waste, hormones, and immune cells.

Temperature regulation: Maintains
optimal body temperature.
Vasoconstriction and vasodilation

Protection: Fights invaders via immune
cells, platelets, and white blood cells.
 Different Circulatory Systems
Open circulatory system:
hemolymph bathes organs directly
then diffuse back into heart
through sinuses

Closed circulatory system: blood
transported through vessels into
capillaries where diffusion of gases
and nutrients occurs
 Different Circulatory Systems
Open Circulatory System Closed Circulatory System
Arthropods and mollusks Vertebrates and annelids
Less efficient More efficient
Lack of capillaries Capillaries present
Hemolymph transports Blood transports gases,
nutrients and wastes nutrients and wastes
Tissues and cells bathed in Blood delivered directly to cells
hemolymph Fast, controlled blood flow
Slow, uncontrolled blood flow
 What’s in the Blood?
Plasma (55% of blood) Platelets
Liquid portion of blood that holds blood
cells in suspension
Ions and proteins regulate osmotic and
pH balance 55%

Formed elements (45% of blood)
Red blood cells
White blood cells
45%
White blood cells
Platelets
Red blood cells
 What’s in the Blood?
Red blood cells (erythrocytes):
oxygen transport Leukocytes
Contain hemoglobin
Lack nucleus and most organelles
95% of all blood cells in the body
Platelets
White blood cells (leukocytes):
immune response to disease and
foreign invaders (pathogens) Pathogens

Platelets: cell fragments that aid in Fibrin threads
blood clotting
 Hemoglobin
Hemoglobin: oxygen-carrying protein made up of four polypeptide chains.
Each hemoglobin can transport four oxygen molecules due to iron elements
Approximately 250 million hemoglobin per red blood cell (RBC)
 Oxygen Transport
Oxygen binding controlled by the partial pressure of O2
Force of O2 molecules against the body

HIGH PARTIAL PRESSURE OF LOW PARTIAL PRESSURE OF
OXYGEN IN THE LUNGS OXYGEN IN THE TISSUES

Hemoglobin binds oxygen Hemoglobin releases
oxygen
 Blood Vessels
Blood vessel tissues: endothelium,
smooth muscle, connective tissue

Veins (venules): vessels carrying
blood back to the heart
Valves

Capillaries: thinly walled vessels
where gas, nutrient and waste
exchange occurs. Lack smooth muscle

Arteries (arterioles): vessels with
thick walls that carry blood away from
the heart
 Exchange at Capillaries
Capillaries are so small that RBCs pass through single-file
Gases, nutrients and waste move via diffusion
 Vertebrate Circulatory System
Cardiovascular system: Transports blood, nutrients,
gases, and hormones to cells.

Heart: hollow muscular organ pumps blood through
circulatory system by rhythmic contraction
Atria: chambers that receive blood entering heart
Ventricles: chambers that pump blood out of the heart

Pulmonary circuit: circuit of blood flow between the
heart and the lungs

Systemic circuit: circuit of blood flow between the heart
and the rest of body
Circulation of Blood Through the Heart
 Heart Valves
Semilunar valve: valve between ventricles and aorta or pulmonary artery
Atrioventricular valve: valve between atria and ventricles
The Sound of a Heartbeat
 Path of Blood Through The Heart
Superior and Inferior Vena Cava
Right Atria
Atrioventricular (AV) Valve
Right Ventricle
Semilunar Valve
Pulmonary Arteries
Lungs (CO2 out, O2 in)
Pulmonary Veins
Left Atria
Atrioventricular (AV) Valve Left Ventricle
Semilunar Valve
Aorta
Body (O2 out, CO2 in)
 Cardiovascular System in Humans
1. Right ventricle pumps blood through semilunar valve
2. Pulmonary arteries carries oxygen-poor blood to lungs
3. Capillary beds O2 is attached CO2 is released traveling
through the pulmonary veins
4. Left atrium receives oxygen-rich blood through the mitral
valve
5. Left ventricle blood moves through the aortic valve
6. Aorta (Artery) carries O2 rich blood to the capillaries
7. Capillaries O2 is unloaded and CO2 is loaded in venules and
veins
8. Vena cava carries CO2 blood to the heart
9. Right atrium receives CO2 from superior and inferior
Continues going through the closed system
Comparative Anatomy of Vertebrate Hearts
Vertebrate Circulatory Systems
 Cardiac Cycle
Diastole: period of heart relaxation when the heart fills with blood
Systole: period of heart contraction when blood is forced out of the
heart
 Blood Pressure
1. Cuff inflated- closes artery
flow

2. Cuff deflated- Decreased
relief causes blood flow into
arm. Systolic pressure is
measured.

3. Cuff deflated to point that
pulse can no longer be heard
or felt. Diastolic pressure is
measured.
 Blood Pressure
Patients between 18-40
years old
Systolic: 90-120 mmHg
Diastolic: 60-80 mmHg

Patients above 40 years
old
Systolic: 90-130 mmHg
Diastolic: 60-85 mmHg

Health conditions/
physical activity
 Cardiac Cycle
Heart rate: frequency of cardiac cycle
Usually expressed as beats per minute (BPM)
 Blood Pressure
Interpretation:
Blood pressure and velocity decreases in
the arterioles and capillaries
Blood flow slowest in capillaries where
exchange of gases, nutrients and waste
occurs
Blood flow (velocity) increases in venules
and veins
 Directing the Flow of Blood
Precapillary sphincters control
blood flow to specific areas.

Muscle contractions and valves help
return blood to the heart.
 The Respiratory System
Nasal Cavity

Pharynx

Larynx

Trachea

Bronchi

Bronchioles

Diaphragm: sheet of skeletal muscle that
extends along the bottom of the rib cage
Expands and contracts to force air into and
out of lungs
 Structure of the Alveoli

Carbon dioxide diffuses from the
blood into the alveoli and out of
the body as exhalation occurs.

Inhaled oxygen diffuses from
the alveoli into the blood.
Respiratory Cycle
Breathing Control
Occurs in medulla oblongata and pons

Monitors blood pH
Exercise = more O2 needed and more CO2
produced
Lower pH signals for increase in depth and rate
of breathing

Hyperventilation: when ventilation of
CO2 exceeds body’s production of CO2
 Respiratory Medical Condition
Top four respiratory medical conditions:
- Asthma
- Chronic Obstructive Pulmonary Disease (COPD)
- Pneumonia
- Lung Cancer
 Respiratory Medical Condition
Asthma
Chronic condition causing
inflammation and narrowing of
the airway
Annual death rate: 3,500
 Respiratory Medical Condition
Chronic Obstructive
Pulmonary Disease (COPD)
Long-term diseases, including
emphysema and chronic bronchitis
Annual death rate: 150,000
 Respiratory Medical Condition
Pneumonia
Infection inflaming air sacs, caused by
bacteria, viruses, or fungi
Annual death rate: 50,000
 Respiratory Medical Condition
Lung Cancer
Cancer beginning in the lungs,
interfering with normal breathing
functions
Annual death rate: 130,000
 Cardiovascular Medical Conditions
Top four cardiovascular medical conditions:
- Peripheral Artery Disease (PAD)
- Cardiomyopathy
- Arrhythmias
- Coronary Artery Disease (CAD)
 Cardiovascular Medical Conditions
Peripheral Artery Disease (PAD)
PAD arteries in legs & other parts
become narrowed with reduced
blood flow leading to complications
such as pain and ulcers.
Annual Death Rate: Around 10,000
deaths in the U.S.
 Cardiovascular Medical Conditions
Cardiomyopathy
Condition where the heart muscle
becomes weakened, thickened, or
stiffened, often leading to heart
failure.
Annual Death Rate: Estimated 15,000
deaths in the U.S. each year.
 Cardiovascular Medical Conditions
Arrhythmias
Irregular heartbeats either too fast,
too slow, or irregular.
Severe arrhythmias could lead to
stroke or heart failure.
◻ Annual Death Rate: Less than 300,000
deaths in the U.S.
 Cardiovascular Medical Conditions
Heart Failure- (Coronary Artery
Disease (CAD)
Heart failure when heart is unable to
pump blood effectively leading to
fluid buildup and other issues in the
body.
Annual Death Rate: Around 350,000
deaths in the U.S.
 Cardiovascular Medical Conditions
Kills more than 750,000 people in U.S annually
Hypertension: high blood pressure
Heart attack: damage or death of cardiac muscle due to blockage of coronary
artery
Stroke: death of nervous tissue due to lack of O2
Atherosclerosis: hardening of arteries by accumulation of fatty deposits (plaque)
Low-density lipoproteins (LDL)
High-density lipoproteins (HDL) Plaque
 Cardiovascular Medical Conditions
Kills more than 750,000 people in U.S annually
Hypertension: high blood pressure
Heart attack: damage or death of cardiac muscle due to blockage of coronary
artery
Stroke: death of nervous tissue due to lack of O2
Atherosclerosis: hardening of arteries by accumulation of fatty deposits (plaque)
Low-density lipoproteins (LDL)
High-density lipoproteins (HDL) Plaque
 Heart Attack
Coronary arteries: arteries that supply the heart with blood
Low-density lipoproteins (LDLs): carry cholesterol from the liver and
small intestine to outlying tissues
“Good” and “Bad” Cholesterol
Treatments for Cardiovascular Disease
Angiogram
Angioplasty
Stents
Treatments for Cardiovascular Disease
 Cardiovascular Surgery
Bypass Surgery
Uses artery from leg to
Coronary artery
bypass blockage of
coronary artery
Coronary artery: artery
supplying blood to the
heart
 Check Your Understanding
True or False: An open circulatory system delivers blood to
tissue through capillaries

True or False: Veins always carry deoxygenated blood, while
arteries always carry oxygenated blood

True or False:Your breathing rate is controlled by the pH level in
your blood
 Check Your Understanding
Which of the following is false concerning a closed circulatory
system?

a. Capillaries present
b. More efficient than open circulatory system
c. Blood transfers gases, nutrients and wastes
d. Slow blood flow
 Check Your Understanding
Oxygenated blood from the lungs empties into which chamber
of the heart?

a. Left ventricle
b. Right atrium
c. Right ventricle
d. Left atrium
e. Aorta
 Check Your Understanding
Describe how breathing rate is controlled. Why do you breathe into a
paper bag when hyperventilating?
 Check Your Understanding
Draw the direction of blood flow through the heart, and name all the heart chambers and major vessels
entering and leaving the heart.