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Respiratory System

By Abigail Camba Paulin Slear Sokmany Soeum. Respiratory System. Movement of air into & out of the lungs Gas exchange between the blood & the air in the lungs Gas transport in blood between the lungs & the body cells Gas exchange between the blood & the cells. Functions.

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Respiratory System

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  1. By Abigail Camba Paulin Slear Sokmany Soeum Respiratory System

  2. Movement of air into & out of the lungs • Gas exchange between the blood & the air in the lungs • Gas transport in blood between the lungs & the body cells • Gas exchange between the blood & the cells Functions

  3. Part of the face centered about the mouth, in and below space between eyes • Has two nostrils that are openings where air can enter and leave the nasal cavity • Has many internal hairs for protection (filtration of incoming hair) Nose Structures of the System

  4. Hollow space between behind the nose • The nasal septum divides the nasal cavity to a left and right portion • Nasal conchae are bones that create walls, making the cavities into passageways Nasal Cavity

  5. Air filled spaces located within the maxillary, frontal, ethmoid, and sphenoid bones of the skull • Reduces weight of skull • Resonant chambers that effect quality of voice Paranasal Sinuses

  6. Located behind the oral cavity, the nasal cavity and the larynx • Passageway for food and air passing • Produce sounds of speech Pharynx (aka Throat)

  7. Passageway for air • Auditory tubes Nasopharynx

  8. Passageway for food • Posterior to soft palate • Inferior to nasopharynx Oropharynx

  9. Passage to esophagus • Inferior to oropharynx Larypharynx

  10. Located at the top of the trachea & below the pharynx • Contains air in & out of the trachea • Prevents foreign objects from entering • Houses vocal cords Larynx

  11. Extends downward anterior to the esophagus and into the thoracic cavity • Flexible tube that connects larynx with bronchial tree • Passageway for air as well as filters it • Contains 20 C-shaped pieces of hyaline cartilage Trachea(aka windpipe)

  12. Bronchial tree left/right primary bronchi secondary bronchi tertiary bronchi bronchioles alveolar ducts alveolar sacs alveoli • Branched tubes that lead from the trachea to alveoli • Alveoli are large surface areas where gas can be exchanged • Structure is similar to the trachea Bronchial Tree

  13. Soft, cone-shaped organs that occupy a large portion of the thoracic cavity • Right lung is larger than the left • Contains air passageways, alveoli, blood vessels, connective tissues, lymphatic vessels and nerves of the lower respiratory system Lungs

  14. Pleural wall

  15. Movement of air from outside of the body into and out of the bronchial tree and alveoli Breathing Mechanism (aka ventilation) Inspiration Expiration

  16. Atmospheric pressure is the force that moves air into lungs • Occurs when pressure inside alveoli decreases • Diaphragm contracts and rises as air comes into lungs • Pleural membranes play a role in expansion of lungs Inspiration

  17. Force comes from elastic recoil of tissues and surface tension • Abdominal organs return to original shape • Decreases diameters of alveolar Expiration

  18. Respiratory cycle = 1 inspiration + 1 expiration • 4 distinct respiratory volumes : - Tidal/ Resting tidal volume -Inspiratory reserve volume -Expiratory reserve volume -Residual volume Spirometry measures air volumes of different intensities in breathing Respiratory Air Volumes and Capacities

  19. Tidal Volume/Resting • Enters/leaves 1 respiratory cycle • 500ml of air (normal) Residual Volume • Air in lungs after exhales the tidal volume • Prevents fluctuation • 1,200ml of air Inspiratory/ expiratory Volume • Volume of air inhaled/exhaled in addition to tidal/resting • 3,000ml of air (I) • 1,100ml of air (E) Volumes

  20. Vital capacity • Combination of inspiratory reserve volume, tidal volume and expiration volume • Maximum amount of breathe exhaled • 4,600ml of air Inspiratory capacity • Tidal volume plus inspiratory reserve volume • Maximum amount of air inhaled Capacities

  21. Functional residual capacity • Expiratory reserve volume and residual volume • Amount of air remaining in lungs • 2,300ml of air Total Lung Capacity • Vital capacity and the residual volume together • (about 5,800ml) • Varies in age, sex, and body size Capacities (continued)

  22. Controls breathing depth and rate • Group of neurons scattered in pons and medulla • Pons: pneunmotaxic area • Medulla: rhythmicity area Respiratory Center

  23. Pneumotaxic area • Control breathing rate • Strong = bursts short, breathing increase • Weak= long bursts, breathing rate decrease Pons

  24. Dorsal respiration group: control rhythm • Signal diaphragm and other muscles • Increase volume of air entering • Ventral respiratory group: increase inspiratory movement Medulla

  25. Microscopic air sacs clustered at the distal ends of alveolar ducts • Respiratory membrane consists of alveolar and capillary walls • Blood and alveolar air exchange gases across membrane Alveolar Gas Exchanges

  26. Diffuses from regions of higher blood pressure • 21% Oxygen, 78% Nitrogen ,0.04% Carbon Dioxide, 0.996% other • Oxygen diffuses from alveolar air into blood • Carbon dioxide diffuses from blood into alveolar air Partial pressure of a gas is proportional to the concentration of gas in a mixture or the concentration dissolved in a liquid Diffusion across membrane

  27. Gas enters as a liquid • Blood transports O2 and CO2 between the lungs and cells • Gases enter in blood (98% hemoglobin, 2% plasma) • Oxyhemoglobin is form when blood and iron atoms combine Oxygen transport

  28. CO2 transport to lungs in 3 ways: dissolved in plasma (7%), compound with hemoglobin (23%) and a bicarbonate ion (70%) Carbon dioxide transport

  29. Determined by partial pressure • Amount of Pco2 in the tissues = more Co2 Plasma

  30. CO2 combines with amino group (-NH2) for protein • CO2 loosely bonds with carbaminohemoglobin but forms slowly (most effective) Hemoglobin

  31. CO2 reacts with H2O • Has carbonic anhydrase that speeds up the process • Creates carbonic acid Biocarbonate ions

  32. Chemicals • Stretching of lung tissues • Emotional states Factors Affecting Breathing

  33. Sense changes in the cerebrospinal fluid (CSF) concentrations of CO2 and hydrogen ions • Stimulation of these receptors increases breathing rate Chemosensitive areas

  34. Sense change in low blood concentrations • Located in walls of arteries in the neck and thorax • Oxygen plays small role Peripheral chemoreceptors

  35. Occurs when lung tissue stretches • Shortens duration of inspiration breathing • Prevents overinflation of lungs when forceful breathing Inflation reflex

  36. Increase breathing rate • Voluntarily stop breathing • Hyperventilation, resulting in fainting Emotional factors

  37. Asthma • Lung disease that inflames and narrows the airways • Over 25mil people have it in the U.S., 7mil are children • No cure, but treatments are available (such as inhaler) Bronchitis • Inflammation of bronchial tubes • Usually caused to sickness (viruses) or smoking • Take medications: antibiotics, cough or medicine Diseases in the Respiratory System

  38. http://www.nhlbi.nih.gov/health/health-topics/topics/asthma/ http://www.mayoclinic.org/diseases-conditions/bronchitis/basics/definition/con-20014956 http://www.walgreens.com/marketing/library/contents.html?docid=001087&doctype=1 http://vectorblog.org/2013/12/the-obesity-asthma-connection-a-link-in-the-innate-immune-system/ Works cited

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