Term
| This is the exchange of gasses between the body and the environment. |
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Definition
|
|
Term
| key components of respiration. |
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Definition
| 1) VENTILATION, 2) PERFUSION, 3) GAS EXCHANGE |
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Term
| 3. _____ is inflation of the alveoli. |
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Definition
|
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Term
| 4. _____ is when the blood supply around the alveoli service the structures. |
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Definition
|
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Term
| 5. _____is the movement of oxygen and carbon dioxide between the body and the atmosphere. |
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Definition
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Term
| 6. Gas exchange occurs via _____. |
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Definition
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Term
| 7. _____ is the anatomical area above the larynx. |
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Definition
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Term
| 8. The upper respiratory tract consists of these structures. |
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Definition
| 1) NASAL CAVITIES, 2) ORAL CAVITY, 3) PHARYNX, 4) OROHARYNX, 5) NASOPHARYNX, 5) LARYNX, 6) TRACHEA |
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Term
| 9. This is the anatomical area below the larynx. |
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Definition
|
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Term
| 10. This is the windpipe. |
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Definition
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Term
| 11. What type of tissue makes up the trachea? |
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Definition
| DENSE REGULAR CONNECTIVE TISSUE |
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Term
| 12. The trachea consists of _____ like rubber bands used for bronchoconstriction and relaxation. |
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Definition
|
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Term
| 13. The trachea contains _____ “C” shaped cartilaginous rings, which are present in the anterior and lateral borders. |
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Definition
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Term
| 14. The cartilaginous rings _____, _____ and _____ as the airway changes. |
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Definition
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Term
| 15. In the trachea, a _____ is present. |
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Definition
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Term
| 16. The trachea divides into _____. |
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Definition
| 2 PRIMARY BRONCHI (LEFT AND RIGHT) |
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Term
| 17. Compared to the right bronchi, the left is _____, _____ and _____. |
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Definition
| LONGER, NARROWER AND CURVED |
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Term
| 18. Compared to the left bronchi, the right is _____, _____ and _____. |
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Definition
| SHORTER, WIDER, AND VERTICAL |
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Term
| 19. Because of its anatomy, the _____ is more susceptible to aspiration and tuberculosis. |
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Definition
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Term
| 20. _____ is swallowing something into the lungs. |
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Definition
|
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Term
| 21. After passing through the hilum of the lung, the primary bronchi divide into the _____ then _____. |
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Definition
| SECONDARY BRONCHI, TERTIARY BRONCHI |
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Term
| 22. The tertiary bronchi head towards the _____. |
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Definition
|
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Term
| 23. _____ is where the secondary bronchi enter the lung. |
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Definition
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Term
| 24. What lung is larger the left or the right? |
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Definition
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Term
| 25. The right lung is larger than the left by _____g. |
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Definition
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Term
| 26. The right lung has _____ lobes, while the left lung has _____ lobes. |
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Definition
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Term
| 27. The base of the lungs rest on the _____, which separates the thoracic cavity from the abdomen. |
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Definition
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Term
| 28. The _____ of the lung extends 2.5cm posterior to the clavicle. |
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Definition
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Term
| 29. _____ are present in the lungs to separate the various lobes. |
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Definition
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Term
| 30. Secondary bronchii go to _____. |
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Definition
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Term
| 31. There are _____ bronchii in the right lung, while there are _____ bronchii in the left lung. |
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Definition
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Term
| 32. Tertiary bronchii go to their respective _____. |
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Definition
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Term
| 33. There are _____ lobules in the right lung, and there are _____ lobules in the left lung. |
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Definition
|
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Term
| 34. _____ are not visible on the surface of the lung, but rather tissue units on its own. If one is diseases it can be removed without affecting the lung as a whole. They are entirely separate entities with their own blood supply. |
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Definition
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Term
| 35. Once the tertiary bronchii reach their respective lobules, they segment many times until they reach the terminal end unit called _____. |
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Definition
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Term
| 36. components of a terminal bronchiole. |
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Definition
| 1) RESPIRATORY BRONCHIOLE, 2) ALVEOLAR DUCTS, 3) ALVEOLI |
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Term
| 37. steps in the passage of air from outside of the body to the lungs. |
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Definition
| 1) TRACHEA, 2) PRIMARY BRONCHII, 3) SECONDARY BRONCHII, 4) TERTIARY BRONCHII, 5) BRONCHIOLE |
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Term
| 38. _____ consist of 2 or more alveolar sacs. |
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Definition
|
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Term
| 39. There are some _____ alveoli per lung. |
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Definition
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Term
| 40. Alveoli cluster like grapes to form _____. |
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Definition
|
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Term
| 41. Alveoli share _____, and are responsible for increasing the _____ of the lung. |
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Definition
|
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Term
| 42. Once air enters the alveoli, _____ occurs. |
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Definition
|
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Term
| 43. _____ lines the airways from the trachea all the way to the bronchioles. It is responsible for catching foreign particles to keep them out of the lower segments and alveoli. |
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Definition
|
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Term
| 44. What type of issue makes up the mucociliary blanket? |
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Definition
| PSEUDOSTRATIFIED COLUMNAR CILIATED EPITHELIUM |
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Term
| 45. How does the mucociliary blanket of the lungs work? |
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Definition
| CILIA CREATE AND ESCALATOR AND SWEEP STUFF UP TO THE EPIGLOTTIS AND THEN INTO THE ESOPHAGUS WHERE WE THEN SWALLOW IT AND THE HCL BREAKS IT DOWN |
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Term
| 46. These 2 cell types line the mucociliary blanket, and in charge of secreting respiratory secretions. |
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Definition
| GOBLET CELLS AND BRONCHIAL GLANDS |
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Term
| 47. _____ secrete the gel-component of mucous. |
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Definition
|
|
Term
| 48. _____ secretes the serous component of mucous. |
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Definition
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Term
| 49. _____ are the sweeper components of the mucociliary blanket that carry lung secretions upward toward the epiglottis. |
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Definition
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Term
| 50. Cilia of the mucociliary blanket work well in these environments. |
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Definition
| 1) WHEN WELL OXYGENATED, 2) WHEN THE MUCUS ISN’T DRY, TACKY OR PLUGGY, 3) WHEN THERE IS NO TOXINS |
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Term
| 51. _____ of the cilia occurs naturally, but is reversible once the noxious stimulus (smoking) is removed. |
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Definition
|
|
Term
| 52. _____ is a cellular adaptation that occurs in the environment when chronic noxious stimuli makes the cells more hard. |
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Definition
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|
Term
| 53. Metaplasia turns the pseudostratified columnar ciliated epithelia of the mucociliary blanket into _____. |
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Definition
| STRATIFIED SQUAMOUS EPITHELIUM |
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Term
| 54. If there is a metaplasia in the lung there is no _____, which does not allow the lung to escalate foreign particles out of the lungs. |
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Definition
|
|
Term
| 55. Metaplasia can lead to _____, which is an abnormal cellular development. |
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Definition
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Term
| 56. Dysplasia can lead to _____ which is cancer. |
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Definition
|
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Term
| 57. The diffusion of gasses takes place in the _____ of the lungs, which are extreme elastic structures. |
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Definition
|
|
Term
| 58. This type of alveolar cells are single flat cells designed for diffusion. |
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Definition
|
|
Term
| 59. What type of tissue makes up type 1 alveoli? |
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Definition
| SIMPLE SUAMOUS EPITHELIUM |
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|
Term
| 60. This type of alveoli are surfactant producing cells which decrease surface tension not allowing the alveoli to collapse. |
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Definition
|
|
Term
| 61. _____ is a phospholipid that breaks up intermolecular bonds and reduces surface tension. |
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Definition
|
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Term
| 62. Type 2 alveoli begins producing surfactant in during the _____ month of development. |
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Definition
|
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Term
| 63. _____ is a condition that affects premature babies, it consists of a hyaline membrane disease and the doctors must administer surfactant so the baby’s lungs do not collapse. |
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Definition
| INFANT RESPIRATORY DISTRESS SYNDROME |
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|
Term
| 64. This type of alveoli consists of alveolar macrophages that work as a defense mechanism via phagocytosis. |
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Definition
|
|
Term
| 65. Each lung has its own _____ and _____ which is one membrane that is double folded to create an inner and outer membrane that folds over the hilum. |
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Definition
| PLEURAL MEMBRANE AND CAVITY |
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Term
| 66. The inner layer of the pleural membrane is called _____, while the outer is called _____. |
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Definition
|
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Term
| 67. They pleural cavity contains _____. |
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Definition
|
|
Term
| 68. _____ is excess accumulation of fluid in the pleural cavity. |
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Definition
|
|
Term
| 69. The _____ pleura lines chest wall structures. |
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Definition
|
|
Term
| 70. When parietal pleura gets to the hilum of the lung, it folds back on itself and forms the _____. |
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Definition
|
|
Term
| 71. The pleural cavity normally contains _____mL of fluid. |
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Definition
|
|
Term
| 72. different types of pleural effusion. |
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Definition
| 1) HYDROTHORAX, 2) EMPYEMA, 3) FIBROTHORAX |
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|
Term
| 73. _____ is pleural effusion that consists of an accumulation of pleural transudates. |
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Definition
|
|
Term
| 74. _____ is pleural effusion that consists of an accumulation of purulent material in the pleural cavity. |
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Definition
|
|
Term
| 75. _____ is pleural effusion when empyema leads to fibrous fusing of the lung and chest wall. |
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Definition
|
|
Term
| 76. _____ is accumulation of blood in the pleural fluid. |
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Definition
|
|
Term
| 77. _____ is a breach in the pleural cavity that can lead to a collapsed lung. It can be caused by a gun shot, stab wound, broken, rib, etc… |
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Definition
|
|
Term
| 78. causes of pneumothorax. |
|
Definition
| 1) TRAUMATIC, 2) SPONTANEOUS, 3) THERAPEUTIC |
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|
Term
| 79. The pleural cavity has a higher _____ as compared to pulmonary pressure or atmospheric pressure. |
|
Definition
|
|
Term
| 80. Why does a pneumothorax cause a collapsed lung? |
|
Definition
| THE HIGHER ATMOSPHERIC PRESSURE MOVES INTO THE LUNG CAVITY CAUSING THE LUNGS TO COLLAPSE |
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|
Term
| 81. In traumatic pneumothorax _____ are common inside the lungs. |
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Definition
|
|
Term
| 82. This type of pneumothorax has no antecedent, and are sometimes common in divers or those exposed to high altitudes due to pressure changes. |
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Definition
|
|
Term
| 83. This type of pneumothorax was once used to collapse the lungs of patients with TB to kill the aerobic organisms. |
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Definition
|
|
Term
| 84. This type of pneumothorax occurs from trauma to the exterior rib cage. Air is coming in from the puncture and often leads to a sucking chest wound (wheezing) |
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Definition
|
|
Term
| 85. If one encounters an open pneumothorax what should they do? |
|
Definition
| USE A PATCH OR CREDIT CARD AND COVER THE WOULD THEN TAPE 3 SIDES OF THE PATCH |
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|
Term
| 86. An open pneumothorax must be _____ the side of the trachea to take over respiration. |
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Definition
|
|
Term
| 87. An open pneumothorax does not provide oxygen because oxygen goes into the _____ not the lungs. |
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Definition
|
|
Term
| 88. This type of pneumothorax is the most preferable, and consists of a small entry wound that closes itself off. |
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Definition
|
|
Term
| 89. _____ is a life threatening pneumothorax that consists of an open chest wound that will suck in air, but there is a flap that closes the wound so there is no expiration of air. |
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Definition
|
|
Term
| 90. Tension pneumothorax causes _____ and _____. |
|
Definition
| DEPRESSED HEMIDIAPHRAGM AND TRACHIAL DEVIATION TO THE OPPOSITE SIDE |
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|
Term
| 91. A pneumothorax will eventually cause _____ which is incomplete expansion of the alveoli that will collapse in the areas that are not ventilating. |
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Definition
|
|
Term
| 92. Atelectasis will show up _____ on an x-ray. |
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Definition
|
|
Term
| 93. This type of atelectasis comes from the inside of the lung tissue, where mucus plugs and retained secretions become a common problem after surgeries due to retained fluid. |
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Definition
|
|
Term
| 94. This type of atelectasis is due to a tumor from outside the lung pressing on the lung causing the airway to be obstructed. |
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Definition
|
|
Term
| 95. The main veins in pulmonary circulation consist of the _____ and _____. |
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Definition
|
|
Term
| 96. The IVC and superior vena cava bring deoxygenated blood in the _____. |
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Definition
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|
Term
| 97. From the right atrium the deoxygenated blood goes into the _____ and then it is pumped into the _____. |
|
Definition
| RIGHT VENTRICLE; PULMONARY ARTERIES |
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|
Term
| 98. The pulmonary arteries branch into _____ where gas exchange occurs. |
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Definition
|
|
Term
| 99. The venous side of the alveoli capillaries will carry oxygen rich blood to the _____ which then bring it back to the left ventricle of the heart. |
|
Definition
|
|
Term
| 100. steps of deoxygenated blood in pulmonary circulation. |
|
Definition
| 1) RIGHT ATRIUM RECIEVES DEOXYGENATED BLOOD, 2) DUMPED INTO THE RIGHT VENTRICLE, 3) PUMPED INTO PULMONARY TRUNK, 4) DUMPS INTO THE RIGHT AND LEFT PULMONARY ARTERIES WHICH TAKE BLOOD TO THE LUNG FOR OXYENTION, 5) BRANCH INTO ARTERIOLES, 6) FINALLY BRANCH INTO CAPILLARIES FOR GAS EXCHANGE |
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Term
| 101. The venous return from the lungs begins with oxygenated blood that passes to these places. |
|
Definition
| 1) PULMONARY VENULES, 2) PULMONARY VEINS, 3) LEFT ATRIUM, 4) CUSPID, 5) LEFT VENTRICLE, 6) AORTA |
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|
Term
| 102. What is the goal of pulmonary circulation? |
|
Definition
| TO GET BLOOD REOXYGENATED AND TO DUMP OFF CO2 |
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|
Term
| 103. Bronchial circulation comes off of the _____. |
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Definition
|
|
Term
| 104. characteristics regarding bronchial circulation. |
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Definition
| 1) NOURISHES NERVES AND OUTER LAYERS OF PULMONARY ARTERIES, 2) DOES NOT INVOLVE ITSELF IN GAS EXCHANGE |
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|
Term
| 105. _____ in and around the rib cage are responsible for ventilation. |
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Definition
|
|
Term
| 106. During _____skeletal muscles in and around the rib cage create a pressure difference so that air moves from the atmosphere into the lungs. |
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Definition
|
|
Term
| 107. During inspiration the diaphragm _____ and _____ to lengthen the thoracic cavity from a-p. |
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Definition
|
|
Term
| 108. _____muscles are responsible for inspiration. They pull the rib cage out expanding it from a-p, and the fibers lay toward the front pocket. |
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Definition
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|
Term
| 109. During inspiration, air moves into the lungs until pressure is equalized which is called _____. |
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Definition
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|
Term
| 110. For exhalation, there is _____ of the diaphragm and the air is forced back out. |
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Definition
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|
Term
| 111. These muscles are involved in active expiration, and squish air out. Their fibers run to the back pant pocket. |
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Definition
|
|
Term
| 112. muscles of inspiration. |
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Definition
| 1) DIAPHRAGM, 2) EXTERNAL INTERCOSTALS, 3) SCALENES, 4) SERRATUS POSTERIOR SUPERIOR, 5) QUADRATUS LUMBORUM |
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Term
| 113. This muscle of inspiration depresses the floor of the thorax. |
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Definition
|
|
Term
| 114. This muscle of inspiration elevates the ribs. |
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Definition
|
|
Term
| 115. This muscle of inspiration elevates the first 2 ribs. |
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Definition
|
|
Term
| 116. This muscle of inspiration elevates the upper ribs. |
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Definition
| SERRATUS POSTERIOR SUPERIOR |
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|
Term
| 117. This muscle in inspiration depresses the 12 ribs. |
|
Definition
|
|
Term
| 118. These muscles are responsible for expiration. |
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Definition
| 1) INTERNAL INTERCOSTALS, 2) TRANSVERSE THORACIC, 3) SERRATUS POSTERIOR INFERIOR, 4) RECTUS ABDOMINUS |
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|
Term
| 119. _____ and _____ muscles of expiration depress the ribs from a-p. |
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Definition
| INTERNAL INTERCOSTALS, TRANSVERSE THORACIC |
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|
Term
| 120. This muscle of expiration depresses the lower ribs. |
|
Definition
| SERRATUS POSTERIOR INFERIOR |
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|
Term
| 121. This muscle of expiration depresses the thorax and compresses the abdomen. |
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Definition
|
|
Term
| 122. During exercise, one has _____ inspirations and _____ expirations. |
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Definition
|
|
Term
| 123. These 3 muscles are involved in breathing during exercise to allow the rib cage to elevate even more allowing for greater inspirations. |
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Definition
| SCALENES, SERRATUS POSTERIOR SUPERIOR, PECTORALIS MINOR |
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|
Term
| 124. A _____ is used to measure pulmonary volumes and capacities. |
|
Definition
|
|
Term
| 125. These volumes are measured during pulmonary volume measurements. |
|
Definition
| 1) TIDAL VOLUME, 2) INSPIRATOY RESERVE VOLUME, 3) EXPIRATORY RESERVE VOLUME, 4) RESIDUAL VOLUME |
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|
Term
| 126. _____ is the volume of air inspired or expired during normal inspiration/expiration (normal breath). |
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Definition
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|
Term
| 127. The average tidal volume is _____mL’s. |
|
Definition
|
|
Term
| 128. _____ is the amount of air that can be inspired forcefully after the tidal volume. It is above and beyond the 500 mL’s of tidal volume. |
|
Definition
| INSPIRATORY RESERVE VOLUME |
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|
Term
| 129. The average inspiratory reserve volume is _____mL’s. |
|
Definition
|
|
Term
| 130. _____ is the amount of air that can be forcefully expired after expiration of the normal tidal volume. |
|
Definition
| EXPIRATORY RESERVE VOLUME |
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|
Term
| 131. The average expiratory reserve volume is _____ mL’s. |
|
Definition
|
|
Term
| 132. _____ is the volume of air still remaining in the lungs after the most forceful expiration. |
|
Definition
|
|
Term
| 133. The average residual volume is _____ mL’s. |
|
Definition
|
|
Term
| 134. These are the capacities measured during pulmonary capacity measurements. |
|
Definition
| 1) INSPIRATORY CAPACITY, 2) FUNCTIONAL RESIDUAL CAPACITY, 3) VITAL CAPACITY, 4) TOTAL LUNG CAPACITY |
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|
Term
| 135. _____ is the total volume + inspiratory reserve. It is the max amount of air that one can inspire. |
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Definition
|
|
Term
| 136. The average inspiratory capacity is _____ mL’s. |
|
Definition
|
|
Term
| 137. _____ is the combination of expiratory reserve and residual volume. It is the amount of air in the lungs after a normal expiration. |
|
Definition
| FUNCTIONAL RESIDUAL CAPACITY |
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|
Term
| 138. The average functional residual capacity in the lungs is _____ mL’s. |
|
Definition
|
|
Term
| 139. _____ is the tidal, inspiratory reserve, and expiratory reserve volumes. A standard test used to measure this capacity measures how much and how quickly one can get air and out over 1 second of time. |
|
Definition
|
|
Term
| 140. _____ is the measured forced vital capacity. |
|
Definition
|
|
Term
| 141. _____ is the measured expiratory volume in the 1st second. |
|
Definition
|
|
Term
| 142. _____ is the sum of all volumes in the lungs (total volume). |
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Definition
|
|
Term
| 143. The average total lung capacity is _____ mL’s. |
|
Definition
|
|
Term
| 144. Normal people should have a forced expiratory volume of _____% of air in 1 second of time. |
|
Definition
|
|
Term
| 145. _____ is where gas exchange occurs in the lungs. |
|
Definition
| ALVEOLAR-CAPILLARY MEMBRANE |
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|
Term
| 146. Oxygen must pass through these places at the alveolar-capillary membrane to attach to hemoglobin during gas-exchange. |
|
Definition
| 1) ALVEOLAR EPITHELIUM, 2) ALVEOLAR BASEMENT MEMBRANE, 3) INTERSTITIAL SPACE, 4) BASEMENT MEMBRANE OF CAPILLARIES, 5) CAPILLARY EPITHELIUM, 6) PLASMA |
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|
Term
| 147. Gas exchange at the alveolar-capillary membrane takes place through the process of _____ until equilibrium is reached. |
|
Definition
|
|
Term
| 148. The average oxygen pressure in the alveoli of the lungs is _____mmHg, while it is _____mmHg in the RBC. |
|
Definition
|
|
Term
| 149. The average CO2 pressure in the alveoli is _____mmHg, while it’s _____mmHg in the RBC. |
|
Definition
|
|
Term
| 150. The most important factor governing gas exchange is the _____. |
|
Definition
| PARTIAL PRESSURE OF THE GASSES INVOLVED |
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|
Term
| 151. At the tissue capillary membrane, the arteries drop off _____, and pick up _____ converting arteriole blood to venous blood. |
|
Definition
|
|
Term
| 152. factors that can affect gas exchange. |
|
Definition
| 1) PARTIAL PRESSURES OF THE GASES INVOLVED, 2) LENGTH OF DIFFUSION PATH, 3) AMOUNT OF RBC’S AND CONCENTRATION OF HEMOGLOBIN, 4) SURFACE AREA AVAILABLE FOR DIFFUSION |
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|
Term
| 153. factors that can lengthen the diffusion path during gas exchange. |
|
Definition
| 1) SCARRING, 2) EDEMA, 3) METAPLASIA/NEOPLASIA |
|
|
Term
| 154. Oxygen is transmitted through blood by being attached to _____ 97%, which is a large quartinary protein. 3% of the time oxygen is transmitted by being dissolved in _____. |
|
Definition
|
|
Term
| 155. Hemoglobin is made up of _____ polypeptide chains. |
|
Definition
|
|
Term
| 156. When hemoglobin is attached to oxygen it is called _____. |
|
Definition
|
|
Term
| 157. There is a _____ molecule at the center of each hemoglobin molecule oxygen to bind. |
|
Definition
|
|
Term
| 158. Hemoglobin is 100% saturated when _____mL of O2 are bound. |
|
Definition
|
|
Term
| 159. 1g of hemoglobin is 100% saturated when _____mL of oxygen combines with it. |
|
Definition
|
|
Term
| 160. There are normally _____g of hemoglobin per dL of blood. |
|
Definition
|
|
Term
| 161. The normal hemoglobin saturation in the body is between _____%. |
|
Definition
|
|
Term
| 162. Below _____% of oxygen saturation is really bad and can be deadly. |
|
Definition
|
|
Term
| 163. Arterial blood is _____% oxygenated, while venous blood is _____% oxygenated. |
|
Definition
|
|
Term
| 164. _____ is the lack of adequate oxygen to cells. |
|
Definition
|
|
Term
| 165. _____ is inadequate oxygen in the blood. |
|
Definition
|
|
Term
| 166. Clinical hypoxia occurs when pO2 is _____ mmHg. |
|
Definition
|
|
Term
| 167. At rest the normal blood O2 saturation is _____%. |
|
Definition
|
|
Term
| 168. The normal pH of the body at rest is between _____ and _____. |
|
Definition
|
|
Term
| 169. things that shift the oxygen saturation curve to the right. |
|
Definition
| 1) INCREASED CO2 VOLUME, 2) DECREASED PH, 3) INCREASE IN TEMP |
|
|
Term
| 170. When the oxygen saturation curve shifts to the right, there is more _____ of oxygen at tissue cells. |
|
Definition
|
|
Term
| 171. These things cause the oxygen saturation curve to shift to the left, causing more O2 association and more O2 uptake in the lungs. |
|
Definition
| 1) INCREASE IN TEMP, 2) INCREASE IN PH, 3) DECREASED CO2 |
|
|
Term
| 172. The normal pressure of oxygen in arterial blood is between _____mmHg. |
|
Definition
|
|
Term
| 173. The normal pressure of CO2 in arterial blood is between _____mmHg. |
|
Definition
|
|
Term
| 174. There is a higher pressure of CO2 in _____ blood. |
|
Definition
|
|
Term
| 175. Chronic heart failure is usually due to _____ ventricular failure of the heart. |
|
Definition
|
|
Term
| 176. Ways carbon dioxide is transported in blood. |
|
Definition
| 1) TRANSPORTED VIA THE BICARBONATE ION, 2) ATTACHED TO THE HEME PART OF HEMOGLOBIN, 3) DISSOLVED IN PLASMA |
|
|
Term
| 177. About _____% of carbon dioxide is dissolved in plasma. |
|
Definition
|
|
Term
| 178. Carbon dioxide is dissolved in plasma when it combines with _____. |
|
Definition
|
|
Term
| 179. The most common way carbon dioxide is carried in the blood is via the _____. |
|
Definition
|
|
Term
| 180. About _____% of carbon dioxide is carried via the bicarbonate ion. |
|
Definition
|
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Term
| 181. When CO2 is transported via the bicarbonate ion, there is a _____ which binds to carbonic acid and makes HCL. The H+ ion is accumulated, which can lead to a _____ state in our bodies. |
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Definition
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Term
| 182. CO2 binds to the _____ part of hemoglobin when it is transported via red blood cells. |
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Definition
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Term
| 183. When CO2 binds with the heme part of hemoglobin, it forms _____. |
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Definition
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Term
| 184. The Bohr and Haldane effects occur at both the _____ and _____. |
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Definition
| ALVEOLAR-CAPILLARY MEMBANE, AND TISSUE CAPILLARY MEMBRANE |
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Term
| 185. _____ in tissues states that the dissociation of oxygen from hemoglobin is facilitated by the diffusion of CO2 from the tissue cell into the capillary blood. |
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Definition
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Term
| 186. _____ in tissues states that the dissociation of oxygen from hemoglobin favors a greater affinity of CO2 to the hemoglobin. |
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Definition
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Term
| 187. _____ in the lungs states that the binding of O2 in the alveolar capillary membrane facilitates the release of CO2 across the alveolar membrane into the atmosphere. |
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Definition
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Term
| 188. _____ in the lungs states that the unbinding of CO2 from hemoglobin favors a greater affinity of O2 binding to the hemoglobin molecule. |
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Definition
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Term
| 189. Neural control of respiration lies in the _____. |
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Definition
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Term
| 190. The respiratory centers in the medulla are located in the _____ of the ventral portion of the medulla. |
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Definition
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Term
| 191. respiratory centers located in the medulla. |
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Definition
| 1) INSPIRATORY CENTER, 2) EXPIRATORY CENTER |
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Term
| 192. This respiratory center in the medulla is spontaneously active and rhythmic. It is responsible for a cycle of inspiration followed by a cycle of expiration. |
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Definition
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Term
| 193. This respiratory center in the medulla is inactive during respiration. |
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Definition
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Term
| 194. The expiratory center of the medulla is located _____m ventrally along the length of the medulla. |
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Definition
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Term
| 195. Normal expiration takes place by _____ of respiratory muscles. When the rate and depth of inspirations are off, the _____ will engage activating active expiration. |
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Definition
| RELAXATION, EXPIRATORY CENTER |
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Term
| 196. When the expiratory center becomes activated, it activates these sets of muscles. |
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Definition
| 1) INTERNAL INTERCOSTALS, 2) ABDOMINALS |
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Term
| 197. respiratory centers located in the pons. |
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Definition
| 1) PNEUMOTAXIC CENTER, 2) APENUSTIC CENTER |
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Term
| 198. functions of the pneumotaxic center in the pons. |
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Definition
| 1) INHIBITS INSPIRATORY CENTER ACTIVITY, 2) INHIBITS THE APENUSTIC CENTER |
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Term
| 199. This respiratory center in the pons continuously stimulates the inspiratory center keeping it rhythmic and coordinated. |
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Definition
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Term
| 200. When a doctor is checking vital signs, they are checking a patients _____ function. |
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Definition
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Term
| 201. drugs that can depress the respiratory centers. |
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Definition
| 1) HYDROCODONE, 2) ANTI-DEPRESSANTS, 3) ANTI-ANXIETIES |
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Term
| 202. This center in the brain is responsible for controlling emotional responses. |
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Definition
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Term
| 203. _____ is when nerves from muscles and joints signal afferently to the respiratory center. |
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Definition
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Term
| 204. _____ is related to stretch receptors in the lungs sensing inflation. These receptors send out a negative feedback signal to the inspiratory center to facilitate expiration protecting us from over-inflation of the lungs. |
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Definition
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Term
| 205. These chemoreceptors in the brainstem mainly sense CO2 changes in the blood and body fluids in and around respiratory centers in the medulla. |
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Definition
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Term
| 206. Excess CO2 in the body will result in excess _____, making the body more _____. |
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Definition
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Term
| 207. Central chemoreceptors regulate _____through the effect of pH on CSF. |
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Definition
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Term
| 208. Central chemoreceptors in the medulla are sensitive to _____ changes only. |
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Definition
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Term
| 209. _____ chemoreceptors located in the carotid and aortic bodies are sensitive to pressure changes of oxygen in the body. |
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Definition
| PERIPHERAL CHEMORECEPTORS |
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Term
| 210. Peripheral chemoreceptors are triggered by a PO2 pressure of _____ mmHg or less. |
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Definition
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Term
| 211. Peripheral chemoreceptors are important because we never want to _____ the flow rate of oxygen in a COPD patient. |
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Definition
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Term
| 212. Why do we not want to increase the flow rate of oxygen in a COPD patient? |
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Definition
| BECAUSE IF YOU INCREASE THE FLOW RATE, THEN THE PO2 GOES UP AND IT INHIBITS THE TRIGGERS FOR THE PERIPHERAL CHEMORECEPTORS. THIS SHUTS DOWN THE DRIVE FOR BREATHING CAUSING DEATH. |
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