Download
overall function of respiratory system n.
Skip this Video
Loading SlideShow in 5 Seconds..
Overall Function of Respiratory System PowerPoint Presentation
Download Presentation
Overall Function of Respiratory System

Overall Function of Respiratory System

721 Vues Download Presentation
Télécharger la présentation

Overall Function of Respiratory System

- - - - - - - - - - - - - - - - - - - - - - - - - - - E N D - - - - - - - - - - - - - - - - - - - - - - - - - - -
Presentation Transcript

  1. Overall Function of Respiratory System • exchange of O2 and CO2 from pulmonary capillaries • thermoregulation • phonation • assistance in regulation of acidity • elimination of water

  2. Anatomy of Respiratory System • horse cannot breath through the mouth • upper and lower • upper • includes nostrils, nasal passages, pharynx, larynx and trachea to thorax • regulates temperature and humidity of air • phonation • protection of foreign bodies • lower - within the thorax • lungs • left and right bronchi • bronchioles • alveoli - surrounded by blood capillaries • site of gas exchange

  3. nostrils - large, wide nostrils desirable • impaired by facial nerve damage • nasal cavities - high vascularity • provide large surface area for heat and water exchange • cause airflow resistance • sinuses - air filled cavities that open into nasal cavity • pharynx - common passage for food and air • dorsal displacement of soft palate • larynx - voice box • laryngeal hemiplagia • trachea - non-collapsible tube with cartilage rings • lungs • large alveolar density compared to other species • ribcage rigid compared to other species

  4. Control of Breathing • regulated by 3 factors: • chemical factors - increase CO2 sends message to increase breathing frequency and breath more deeply • nervous control - natural flight response triggers increased rate of breathing • mechanical control • muscle expand and contract ribcage • force of front legs landing • chemical and nervous control important at walk and trot • mechanical control important at canter and gallop

  5. Respiratory Mechanics • muscular regulation • inspiration and expiration regulated by muscular effort and elastic recoil • diaphragm - main muscle • contraction - flattened and back in body • lengthens thorax, increasing volume and stimulating inspiration • relaxation - curved into thorax • abdominal and thoracic muscle contract, decreasing width of thorax, causing expiration

  6. resting point (of respiration) - opposing elastic forces are at equilibrium • energy is required to increase or decrease volume of lungs and thorax passed resting point • recoil returns lungs and thorax to resting point with out energy • horse resting point • biphase - middle of breath • inspiration - initially passive followed by contraction of diaphragm • expiration - passive to resting point followed by abdominal muscle compression of ribcage (COPD)

  7. Airway Resistance • nostrils and larynx • reduced by flaring of nostrils • reduced by dilation of larynx • neck and head in straight line

  8. respiration rate - number of breaths per minute • rest : 12-20 /min • intense exercise : 150-180 /min • changes with exercise, pain and increased body temperature • tidal volume - amount of air inhaled and exhaled with each breath • rest : 4-7 liters • exercise : 10 liters • alveolar ventilation - inspired air that reaches lungs • dead space ventilation - air that stays in airways and the part of lungs without gas exchange • alveolar volume - difference between tidal volume and dead space

  9. dead space • resting horse 60-70% of tidal volume • intense exercise 20 % of tidal volume • prolonged steady exercise • steady increase in dead space with increased respiration rate • thermoregulation • percent of dead space in horse at rest, twice as much as humans and dog • minute volume - amount of air passing in and out per minute • minute volume = respiratory rate X tidal volume • rest 100 liters/min • maximal exercise 1500 liters/min • 7 fold increase in respiratory rate • 2 fold increase in tidal volume

  10. Functions at Rest and Adaptations of Respiratory System • 1) ventilation (air into alveoli) - bulk movement of air into and out of lungs • minute volume • 2) perfusion (how gas is removed from the lungs by the blood) • dependent on pressure difference between pulmonary artery, pulmonary vein, and vascular resistance • 1% increase PCV results in 4% increase in pulmonary vascular resistance

  11. 3) diffusion (how gas gets across the air blood barrier) • rate of diffusion • pressure gradient • diffusability of the gas • CO2 very soluble, in and out of solution easily • O2 low solubility, transported by hemoglobin • thickness of membrane • all 3 processes increase during exercise to meet O2 demands

  12. Diffusion • pulmonary diffusion • humans : 4-5 fold increase in pulmonary blood flow; expanding capillary blood volume 3 times • horse : 8 fold increase in pulmonary blood flow; even greater increase in capillary blood volume • tissue diffusion • O2 and CO2 diffuse down the pressure gradient • PO2 returning from muscle tissue following heavy exercise, only 16mm Hg • increased driving pressure of O2 from arterial blood into muscle • tissues with high aerobic needs are more vascularized • greater surface area for exchange