Mechanics Breathing Flashcards
Functions of respiration
- Pulmonary ventilation
- Diffusion of O2 and CO2
- Transport of O2 and CO2
- Regulation of ventilation and respiration
External respiration
Mechanics of breathing
Moving gas in and out of the body
Gas transfer from lungs to tissues
Maintains body and cellular homeostasis
Internal respiration
Intracellular oxygen metabolism
Cellular transformation
Krebs cycle
Mitochondria and O2 utilization
Main purpose of ventilation
Maintain and optimal composition of alveolar gas
Alveolar gas
Acts as a stabilizing buffer between environment and pulmonary capillary blood
O2 and CO2 are constantly being diffused
Physiological lung structure
Lung weighs 1.5% of body weight
Large surface area- 70m^2, 40x the body surface area
Short diffusion pathway for gases permits rapid and efficient gas exchange, 500ml blood in lungs
Factors required to alter lung volumes
Respiratory muscles inflate and deflate
Tissue elasticity and resistance impede
Distribution of air in the lung, resistance in airway
Overcoming surface tension in alveoli
How are changes in alveolar pressure generated?
By changes in pleural pressure
Diaphragm & nerve innervation
75% of inspiratory effort
Pulls down 1cm - 10cm when forced
Pulls abdominal contents downward and forward
Prenic nerve C 3,4,5
Paradoxical movement when paralyzed- when diaphragm is enervated- causes upward movement with inspiratory drop of intrathoracic pressures
External intercostal & nerve innervation
25% of inspiratory effort
Pulls ribs upward and forward on inspiration
Intercostal nerves ventral rami T1-T11
Alterations to FRC
Increase: upright position, reverse trendelenburg, prone
Decrease: pregnancy, obesity, bowel obstruction, laparoscopic surgery, ascites, abdominal mass, trendelenburg, valsalva maneuver
Inspiratory accessory muscles
Scalene- attach cervical spine to apical rib, raise first to ribs during forced expiration
Sternocleidomastoid- attach base of skull to top of sternum, raise sternum during forced expiration
Apex says something ROOT like scaphoid root ??
Expiratory accessory muscles
Rectus abdominus/ abdominal obliques- move diaphragm upward, intra thoracic pressure rises and forces air out
Internal intercostals- pull ribs downward and inward, decrease thoracic volume
These muscles are also used in coughing, vomiting, and defecation
TPP
Difference between alveolar pressure and pleural pressure
Alveoli collapse together when pleural pressure pulls outward
Elastic forces that collapse the lung during respiration is recoil pressure
Two parts of pleural membrane
Visceral pleura- thin serous lining of lungs
Parietal pleura- lines inner surface of chest
Pleura cavity is made of serous fluid
Pleura fluid maintains -5cmH2o pressure via lymphatic drainage, acts as a lubricant, and adherence
