1 / 32

Chapter 18 The Respiratory System

Chapter 18 The Respiratory System. p.430. The Respiratory System. Respiratory & cardiovascular systems work together Respiratory system Intake of O 2 and elimination of CO 2 Cardiovascular system Transport of blood containing O 2 & CO 2 between lungs & tissue cells.

zeus-davis
Télécharger la présentation

Chapter 18 The Respiratory System

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Chapter 18The Respiratory System p.430

  2. The Respiratory System • Respiratory & cardiovascular systems work together • Respiratory system • Intake of O2 and elimination of CO2 • Cardiovascular system • Transport of blood containing O2 & CO2 between lungs & tissue cells

  3. 4 Processes of Respiration • Ventilation • Inhalation • Exhalation • External respiration • Exchange of O2 & CO2 between air in the lungs & blood • Transport of O2 from lungs to tissue cells and CO2 back to the lungs via the bloodstream • Internal respiration • The exchange of O2 & CO2 between blood & tissue cells

  4. Functions of the Respiratory System • Provide for gas exchange • Helps regulate blood pH • Contains receptors for the sense of smell • Filters inspired air • Produces sounds

  5. Organs of the Respiratory System (p. 431)Organization • Structural organization • Upper respiratory system • Nose, pharynx, & associated structures • Lower respiratory system • Larynx, trachea, bronchi, and lungs • Functional organization • Conducting portion • A series of interconnecting cavities & tubes that conduct air into the lungs • Respiratory portion • Structures where gas exchange occurs

  6. Organs of the Respiratory SystemNose • Structure • External • External nares • Nostrils • Internal • Nasal cavity • Divided into 2 sides by the nasal septum • Connecting structures • Internal nares, Paranasal sinuses, Nasolacrimal ducts • Functions • Filtering, warming, & moistening incoming air to facilitate gas exchange • Conchae, mucous, & cilia • Receiving olfactory stimuli • Providing a resonating chamber for speech sounds

  7. Organs of the Respiratory SystemPharynx (Throat) • Extends from internal nares part-way down the neck • Skeletal muscle walls • Lined with mucous membrane • Function • Passageway for air and food • Resonating chamber for speech sounds • Structure • Nasopharynx (superior portion) • Respiratory pathway only • Oropharynx (middle portion) • Respiratory & digestive • Contains tonsils • Laryngopharynx (lowest portion) • Respiratory & digestive • Connects to esophagus & larynx

  8. Organs of the Respiratory System Larynx • Structure • Cartilaginous wall • Thyroid cartilage (Adam’s apple) • Epiglottis • Cover opening to trachea during swallowing • Circoid cartilage • Arytenoid cartilages • Attach to true vocal cords & pharyngeal muscles • Voice production • (false vocal cords) • Hold breath when strain to lift something heavy • True vocal cords • Tension is controlled by muscles • Tension; length & thickness determine pitch • Breath causes vibration – amount determines volume • Laryngitis – inflammation of the larynx • Interferes with contraction/vibration of vocal cords

  9. Organs of the Respiratory System Trachea (Windpipe) • Passageway for air • Extends from larynx to upper part of the 5th thoracic vertebra where it divides into right & left primary bronchi • Wall is lined by mucous membrane & supported by cartilage • Mucous & cilia trap foreign particles & move them upward • C-shaped cartilage rings keep tracheal wall from collapsing • Obstruction may occur due to: • Crushed c-rings • Inflamed & swollen mucous membrane • Aspiration of large object/water • Heimlich maneuver • Tracheostomy • Intubation

  10. Organs of the Respiratory System Bronchi (Figure 18.4, p.434) Branching of bronchial tree Smaller amounts of smooth muscle • Primary bronchi • Right & left • Right is more vertical, shorter, & wider • Extend from trachea into each lung (respectively)  • Secondary bronchi • Divisions of primary bronchi to lobes of lungs  • Right – 3 branches • Left – 2 branches • Tertiary bronchi • Continued branches – successively smaller • Bronchioles • Bronchoconstriction • Bronchodilation • Smooth muscle spasms (asthma) • Terminal bronchioles Incomplete cartilaginous rings Strips of cartilage No cartilage

  11. Organs of the Respiratory SystemLungs ~ General Info. • Paired, cone-shaped organs in thoracic cavity • Separated by heart & other structures in mediastinum • Pleural membrane encloses & protects • Parietal pleura • Outer layer, attached to wall of thoracic cavity & diaphragm • Pleural cavity • Narrow space between pleurae • Contains lubricating fluid to reduce friction & allow easy movement • Visceral pleura • Inner layer, covers lungs • Pleurisy – inflammation of membranes • Causes friction during breathing • Very painful

  12. Organs of the Respiratory SystemLungs ~ Structure • Extend from diaphragm to slightly above the clavicles • Lie against the ribs • Contain • Base • Broad bottom portion • Apex • Narrow top portion • Hilus • Area on medial side where bronchi, pulmonary blood vessels, lymphatic vessels, and nerves enter & exit) • Cardiac notch – left lung only • About 10% smaller than right • Right lung is thicker & broader, but shorter • Diaphragm is higher to accommodate liver

  13. Organs of the Respiratory SystemLungs ~ Lobes, Fissures, & Lobules(Figure 18.5, p.435) • Lungs divided into lobes by fissures (deep grooves) • Left lung • 1 fissure – oblique / 2 lobes – superior & inferior • Right lung • 2 fissures – oblique & horizontal / 3 lobes – superior, middle, & inferior • Lobes (each supplied by secondary bronchus) • Divide into regions–bronchopulmonary segments (each supplied by tertiary bronchus) • Divide into small compartments – lobules • Contain: • Lymphatic vessel • Arteriole • Venule • A branch from a terminal bronchiole wrapped in elastic connective tissue • Subdivide into respiratory bronchioles • Subdivide into alveolar ducts

  14. Organs of the Respiratory SystemLungs ~ Alveoli • About 300 million, providing a surface area of 750 ft2 • Alveolar ducts open to • Alveolar sacs • Contain 2 or more alveoli • Cell types • Type I cells – mostly continuous lining • 95% of alveolar cells • Main sites of gas exchange • Type II cells – secrete alveolar fluid (with surfactant to prevent collapse) • Alveolar macrophages • Exchange of O2 & CO2 – diffusion through 4-layered respiratory membrane

  15. Organs of the Respiratory SystemLungs ~ Blood Supply • 2 sets of arteries • Pulmonary arteries • Bring deoxygenated blood from heart • Divides into right & left • Bronchial arteries • Bring oxygenated blood from aorta to lung tissue • 2 sets of veins • Pulmonary veins • Returns oxygenated blood to heart • Bronchial veins • Drains deoxygenated blood from lung tissue

  16. Lung Volumes and Capacities (p.438) • Eupnea – normal quiet breathing • Typical, healthy adult at rest • 12 breaths/minute • 500 mL of air • Tidal volume – volume of one breath • Varies greatly by person • Only 70% reaches respiratory portion of respiratory system • 30% remains in anatomic dead space (conducting airways)

  17. Ventilation (Breathing) (p.438)Inhalation/Inspiration • Size of thoracic cavity is increased (active process) • Diaphragm contracts • Accessory muscles elevate ribs and sternum • Pleural membrane is pulled outward • Alveolar pressure drops • Pressure difference is created between alveoli & atmosphere • Pressure inside is lower than in atmosphere • Air flows into the lungs

  18. Ventilation (Breathing)Exhalation/Expiration • Elastic recoil of chest wall and lungs (passive process) • Diaphragm relaxes and curves upward • Pressure in lungs rises • Lung volume decreases • Alveolar pressure is greater than that in atmosphere • Can be an active process during forceful breathing • Activities • Playing wind instrument • Exercising • Muscles of exhalation contract to move ribs, compress abdominal viscera, and force diaphragm upward

  19. Ventilation (Breathing)Collapsed Lung • Low pressure in pleural cavity (intrapleural pressure) • Helps keep alveoli slightly inflated • Prevent alveoli from collapsing on themselves • Increased intrapleural pressure can cause a collapsed lung • Surgical incision • Chest wound • Airway obstruction • Insufficient surfactant

  20. Exchange of Oxygen & Carbon Dioxide (p.442)Partial Pressure • Each gas contained in air has its own pressure • Nitrogen • Oxygen • Carbon dioxide • Water vapor • And others • Total pressure of air is calculated by adding all partial pressures

  21. Exchange of Oxygen & Carbon DioxideExternal Respiration • Exchange of O2 and CO2 • Between air in alveoli & blood in pulmonary capillaries • Results in conversion of deoxygenated blood (from right side of heart) to oxygenated blood (returning to left side of heart) • O2 diffuses from alveoli into blood in capillaries • CO2 diffuses from blood into alveoli • Enhanced by: • Thin respiratory membrane • Huge surface area of alveoli • Large numbers of capillaries surrounding alveoli • Narrowness of capillaries for red blood cells to flow single file

  22. Exchange of Oxygen & Carbon DioxideExternal Respiration (cont.) • Efficiency depends on: • Altitude • Total surface area available for gas exchange • Affected by pulmonary disorders • Rate of respiration • Affected by certain drugs • Amount of O2 that reaches alveoli • Affected by passageways & sufficient oxygen

  23. Exchange of Oxygen & Carbon DioxideInternal Respiration • Exchange of O2 and CO2 • Between tissue capillaries & tissue cells • Occurs throughout the body • Results in conversion of oxygenated blood (from left side of heart) to deoxygenated blood (returning to right side of heart) • O2 diffuses from blood into tissue cells • Cell PO2 is lower due to ATP production • CO2 diffuses from tissue cells into blood • Cell PCO2 is higher to constant production of CO2

  24. Transport of Respiratory Gases (p.444)Oxygen • O2 binds chemically to hemoglobin in red blood cells • 4 atoms of iron (heme portion of hemoglobin) are each capable of combining with a molecule of O2 • Affected by: • High blood PO2 (allows blood to become fully saturated) • pH of blood • Temperature (higher temps release more O2 • Carbon monoxide (CO) binds more strongly to hemoglobin and blocks O2 binding

  25. Transport of Respiratory GasesCarbon Dioxide • Carried by blood in several forms • Dissolved in plasma • Combined with globin portion of hemoglobin • Transported in plasma • (during diffusion, enters red blood cells, then chemical reactions eventually cause diffusion into plasma) • Reverse of events occurs during transfer from blood into alveoli

  26. Control of Respiration (p.445) *Several mechanisms help match respiratory effort to metabolic demand • Respiratory center • Medullaryrhythmicity area • Controls the basic rhythm of respiration • Neurons bring nerve impulses to: • Inspiratory area • Expiratory area • Pneumotaxic area • Transmits inhibitory impulses to inspiratory area • Limit duration of inhalation • Apneustic area • Sends stimulatory impulses to inspiratory area • Activate and prolong inhalation

  27. Control of Respiration (cont.) • Regulation of the respiratory center • Cortical influences on respiration • Allow voluntary alteration of breathing • Prevent water or irritating gases from entering airway • Impossible to kill oneself by holding breath • Allow emotional stimuli to alter respirations • Chemoreceptor regulation of respiration • Chemical stimuli affect rate & depth of respiration • Negative feedback system (typically)

  28. Control of Respiration (cont.) • Regulation of the respiratory center (cont.) • Other influences on respiration • Limbic system stimulation (anticipation of activity or emotional anxiety) • Proprioceptor stimulation of respiration (exercise) • Temperature • Pain • Stretching the anal sphincter muscle • Irritation of airways • Inflation reflex • Blood pressure

  29. Exercise and the Respiratory System (p.449) • Increased blood flow from the heart • Increased oxygen uptake • Increased diffusion to tissue cells • Different levels of exercise intensity determine respiratory effect • Change in: • Rate • Depth

  30. Aging and the Respiratory System (p.449) • Airways and tissues lose elasticity • Decrease in lung capacity • Decreased activity of alveolar macrophages & diminished ciliary action of epithelium lining the respiratory tract • Increased susceptibility to pulmonary sickness & disorders

  31. Common Disorders (p.451) • Asthma • Characterized by chronic airway inflammation, airway hypersensitivity, and airway obstruction • Chronic obstructive pulmonary disease • Emphysema • Progressive destruction of alveoli & collapse of respiratory bronchioles • Chronic bronchitis • Inflammation of the upper respiratory tract • Characterized by excessive mucus production • “Smoker’s cough” • Lung cancer • Pneumonia • Tuberculosis • Coryza and influenza • Pulmonary edema • Cystic fibrosis Chances of contracting these diseases is greatly increased by cigarette smoking

  32. Cigarette smoking is the single most preventable cause of death and disability worldwide.

More Related