Airway: the tubes through which air flows between atmosphere and alveoli. Upper airway. Lower airway
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1 Respiration Yu Yanqin ( 虞燕琴 ), PhD Dept. of fph Physiology Zhejiang University, School of Medicine
2 Respiration Definition: the bodily processes involved in exchange of oxygen (O 2 ) and carbon dioxide (CO 2 ) between an organism and the environment Consist of Inspiration: the inhalation of air into the lung Expiration: breathing out
3 Respiratory system Airway: the tubes through which air flows between atmosphere and alveoli. Upper airway Lower airway
4 The relaxation/contraction of circular smooth muscle lining these airways determines how easily airflow can occur. Most gas exchange occurs in the alveolar sacs.
5 The goals of respiration to provide oxygen to the tissues to remove carbon to remove carbon dioxide.
6 Process of Fig respiration:
7 Four major functional events of respiration 1.Pulmonary ventilation 2.Gas exchange Lung Tissue 3.Gas transport in blood 4.Cellular respiration
8 Respiratory process 1. External respiration 2. Gas transport 3. Internal respiration
9 Pulmonary ventilation Definition: The process of moving air into and out of the lungs Is the basis of the whole process of respiration
10 Structures of pulmonary ventilation 1. Respiratory muscle Primary muscles of respiration (inspiration): external intercostals & diaphragm Primary expiratory muscles: internal intercostal muscles as well as abdominal muscle
11 2. Thorax The thorax is a closed compartment that is bounded at the neck by muscles and connective tissue and completely separated from the abdomen by the diaphragm. The wall of the thorax is composed of the spinal column, the ribs, the sternum, and intercostal muscles that run between the ribs.
12 3. Alveoli Each of the clustered alveoli includes an abundance of pulmonary capillaries, thereby allowing efficient and thorough gas exchange between the air and the blood.
13 1. Extensive branching of alveoli produces lots of surface area for exchange between air and blood. 2. Alveolar and capillary walls are thin, permitting rapid diffusion of gases.
14 Breathing is an active process To inhale Contraction of external intercostal muscles elevation of ribs & sternum increased front- to-back dimension of thoracic cavity lowers air pressure in lungs air moves into lungs Contraction of diaphragm diaphragm moves downward increases vertical dimension i of thoracic cavity lowers air pressure in lungs air moves into lungs
15 Breathing is an active process To exhale Relaxation of external intercostal muscles & diaphragm return of diaphragm, ribs, & sternum to resting position restores thoracic cavity to preinspiratory volume increases pressure in lungs air is exhaled
16
17 Patterns of respiration Eupnea: inspiration is active, expiration is passive. Abdominal breathing Thoracic breathing Forced breathing: respiratory movement is greatly enhanced during physical exercise
18 Principles of pulmonary ventilation Direct force of breathing Pressure gradient between atmosphere and lung Original force of breathing Respiratory movement
19 Intrapulmonary pressure = Alveolar pressure =The pressure of air inside the lung alveoli
20
21 Airflow (F) is a function of the pressure differences between the alveoli (P alv ) and the atmosphere (P atm ) dividedid d by airflow ifl resistance (R). Air enters the lungs when P alv <P atm Air exits the lungs when P alv >P atm Direction of air flow is determined by the interaction of the force causing air flow and the resistance preventing air flow.
22 Intrapleural pressure Intrapleural pressure is the pressure within pleural cavity.
23 Intrapleural pressure Pleural cavity Pleural cavity is the closed space between parietal pleura & lungs covered with visceral pleura
24 Measurement of intrapleural pressure Direct method (mercury manometer )
25 Measurement of intrapleural pressure Indirect method: Measurement of the pressure inside the esophagus
26
27 Formation of intrapleural pressure Fetus lung
28 Formation of intrapleural pressure Air in lungs after delivery Because the elastic recoil causes the lungs to try to collapse, a negative force is always needed to the outside of the lungs to keep the lungs expanded. This force is provided by negative pressure in the normal pleural space.
29 Intrapleural pressure Pressures involved Intrapulmonary pressure =Atmospheric (760 mmhg) pressure Elastic recoil Intrapleural pressure
30 Intrapleural pressure Intrapleural pressure = Intrapulmonary pressure the recoil pressure of the lung Intrapleural pressure = the recoil pressure of the lung
31 Physiological significance of intrapleural negative pressure Allow expansion of the lungs Facilitate the venous & lymphatic return
32 Pneumothorax Air escapes from the lungs or leaks through the chest wall and enters the pleural cavity--- Pneumothorax
33 Unilateral Bilateral
34 the goal of therapy for spontaneous pneumothorax is to eliminate air from the goal of therapy for spontaneous pneumothorax is to eliminate air from the pleural space and to terminate an air leak
35
36 Resistances to Ventilation Elastic resistance: The ability of an elastic structure to resist stretching or distortion. 70% Non-elastic resistance: 30%
37 Compliance of the lungs Compliance: the expand ability of elastic tissues when acted on by foreign forces or the extent to which the lungs expand for each unit increase in pressure. C=ΔV/ΔP (L/cmH 2 O) O) (the magnitude of the change in lung volume produced by a given change in the transpulmonary pressure) Elastic Resistance (R) C=1/R
38 Lung compliance is a measure of the lung s stretchability stretchability. When compliance is abnormally high h (as in emphysema), the lungs might fail to hold themselves open, and are prone to collapse. When compliance is abnormally low (lung is stiffer), the work of breathing is increased.
39 The sources of elastic resistance of the lung Elastic resistance of the lungs 1/3 Elastic forces of the lung tissue itself 2/3 Elastic forces caused by surface tension of the fluid that lines the inside walls of the alveoli
40 The sources of elastic resistance of the lung Expansion of the lungs requires energy not only to strech the connective tissue of the lung but also to overcome the surface tension of the water-layer lining of the alveoli
41 Surface tension Tension of a liquid's surface. Due to the forces of attraction between molecules
42 Surface tension Normally, the surface of the alveoli is moist, which can be described as the air- filled sacs lined with water.
43 The surface tension at the air-water interfaces within the alveoli. Surface tension At an air-water interface, the attractive forces between the water molecules (surface tension) make the alveoli like stretched balloons that constantly try to shrink and resist further stretching.
44 Pierre Simon Laplace ( ) Laplace s law:p=2t/r
45 Alveoli will tend to collapse if they are lined with pure water because of the great surface tension of pure water Laplace s law:p=2t/r In the absence of surfactant, the attraction between water molecules l can cause alveolar l collapse.
46 Alveolar surfactant Secreted by type II alveolar epithelial cells Surfactant is a complex mixture of Several phospholipids (dipalmitoyl phosphatidyl choline, DPPC) Surfactant-associated associated proteins Ions (calcium)
47 Type II alveolar epithelial cells
48
49 Alveolar surfactant Physiological effect of surfactant Reduces surface tension Maintains the stability of the alveoli in different size Keeps the dryness of the alveoli Eases expansion of lung (increases compliance)
50 The density of surfactant is inversely proportional to the radius of the alveoli. When the alveoli bacome small during expiration, the density of surfactant increases and surface tension decreases, which helps prevent collapse of the alveoli, and vice versa. By reducing the surface tension of water By reducing the surface tension of water, surfactant helps prevent alveolar collapse.
51 Laplace s law:p=2t/r if T a =T b if T a >T b ra>rb ra>rb Pa<Pb Pa=Pb
52
53 Neonatal respiratory distress syndrome (NRDS): lack of surfactant retraction of soft tissue on inspiration cyanosis Mechanical ventilator Surfactant administered through trachea
54 Non-elastic resistance Airway resistance: 80~90% Is caused by friction among gas molecules and between gas molecules and the inner wall of airway. R 1/r 4 Inertial resistance: the tendency of an object to resist any change in its motion. It is proportional to the fluid density times the flow rate. Viscous resistance: The effect of surface friction between a particle and a liquid when the particle moves through the liquid.
55 Regulation of the respiratory smooth muscle by autonomic nervous system: Vagus nerve: Ach M receptor Contraction Sympathetic nerve: NE 2 -receptor Relaxation Regulation of the respiratory smooth muscle by endocrine or paracrine factors: Histamine, Bradykinin Contraction NE, E, Isoproterenol Relaxation
56 Pulmonary volumes and capacities Spirometer a spirometer---a device used to measure lung health.
57
58 Pulmonary volumes Tidal volume (TV) Volume of air inspired or expired with each normal breath Normal value: 400~500 ml Inspiratory reserve volume (IRV) Amount of air that can be inspired above and beyond TV Normal value: 1500~2000 ml
59 Expiratory reserve volume (ERV) Amount of air that can be expired after a tidal expiration Normal value: 900~1200 ml Residual volume (RV) the volume of air remaining in the lungs at the end of a maximal exhalation Normal value: M 1500 ml, F 1000 ml RV increases during bronchial asthma and emphysema.
60
61 The tidal volume is the amount of air moved in (or out) of the airways in a single breathing cycle. Inspiratory and expiratory reserve volumes, are, respectively, the additional volume that can be inspired or expired; all three quantities sum to the lung s vital capacity. The residual volume is the amount of air that must remain in the lungs to prevent alveolar collapse.
62 Pulmonary capacities Inspiratory capacity (the amount of air a person can breathe in) =IRV+TV Functional residual capacity Is the volume of air that still remains in the lungs after expiration of a resting tidal volume. FRC=ERV+RV Vital volume (Vital capacity, VC) Is the maximal of air that a person can expire after a maximal inspiration VC=TV+IRV+ERV Normal value: M 3500 ml, F 2500 ml
63 Pulmonary capacities Total lung capacity The maximal volume of air the lungs can accommodate =VC+RV
64 Pulmonary volumes and capacities
65 VC (Vital capacity) is not considered as an ideal indicator in evaluating gp pulmonary ventilation function because there is no time-limit to the measurement of VC.
66 Pulmonary capacities Forced expiratory volume (FEV, timed vital volume) The maximal volume of air that can be exhaled as fast as possible from the lungs following a maximal inspiration Normal value: 1st sec. (FEV1) -- 83% 2nd sec. (FEV2) -- 96% 3rd sec. (FEV3) -- 99%
67 Obstructive lung diseases (narrowed airways) are Obstructive lung diseases (narrowed airways) are characterized by a reduced FEV1 but a normal VC.
68 Blowing forcefully into the tube provides a quick, easy measure of FEV. To learn your FEV, you will be asked to hold the tube of a spirometer in your mouth, inhale as much air as possible, then exhale forcefully f into the spirometer.
69 Pulmonary ventilation Pulmonary ventilation (V E ) The total amount of air inspired (or expired) during one minute V E = TV x breaths/min = 500 X12 = 6000 ml
70 Pulmonary ventilation Alveolar ventilation (V A ) The amount of inspired air that is available for gas exchange each minute V A = (TV - dead space) x breaths/min = ( ) X12 = 4200 ml
71 Dead space Anatomical dead space Volume in respiratory passageways which can not be exchanged ~150ml Alveolar dead space Alveoli which have little or no blood supply and cease to function in gas exchange Normally ~0
72 Because of the anatomic dead space, Fresh inspired air is diluted by the left over air remaining in the lungs from the previous breathing cycle. Thus, only 350 ml of new atmospheric air enters the alveoli during inspiration.
73 Increased depth of breathing is far more effective in evaluating alveolar ventilation than is an equivalent increase in breathing rate.
74 Considering the functional residual volume (2500ml), only one-seventh (1/7) of the alveolar air can be refreshed in each breath.
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