Chapter 24: Ribs/Thoracic Cage & Muscles of respiration
Chemoreceptor reflexes of Respiration
-Respond to changes in partial pressures of Carbon dioxide/Oxygen -Respond to physical injury/irritation
Protective reflexes of Respiration
-Respond to physical injury or irritation
Respiratory rhythmicity center
Sets the respiratory pace
Respiratory Movements
(2) types: 1. Eupnea 2. Hyperpnea
Respiratory centers of the brain
(3) pairs of nuclei in the ons/medulla oblongata that regulate respiratory muscles 1. Respiratory rhythmicity center 2. Apneustic Center 3. Pneumotaxic Center
Prior to birth
-Pulmonary arterial resistance is high (Pulmonary vessels are collapsed) -Rib cage is compressed -Lungs and passageways contain no air but DO contain small amounts of fluid
Eupnea
-Quiet Breathing -Diaphragmatic breathing and/or Costal Breathing -During pregnancy, because the uterus pushes upward on the diaphragm, women typically use costal breathing
Mechanoreceptor reflexes of Respiration
-Respond to changes in lung volume or changes in blood pressure
Ribs 11-12
-"Floating Ribs" -No neck -Only one facet for articulation with corresponding vertebra
At birth
-Air enters lungs and forces fluid out -Foramen Ovale/Ductus arteriosus close
Posterior articulation of the ribs
-All (12) ribs articulate posteriorly with the vertebrae of the spine forming (2) joints 1. Costotransverse joints 2. Costovertebral joints
Aging and the Respiratory System
-Becomes less efficient -Elastic tissue beings to deteriorate (lungs cannot expand/constrict as much) -Movement of ribs = Restricted due to arthritis -Some degree of emphysema hinders breathing -Roughly 1sq. foot of respiratory membrane is lost each year after age 30 (People<30 take in 2x the O2 of someone who is >80)
Costal Cartilage
-Cartilage at the anterior point of termination of the ribs
Adult Respiratory Distress syndrome (ARDS)
-Condition resulting from inadequate surfactant -Characterized by collapse of the alveoli/inability to maintain gaseous exchange in the lungs -Also called "Hyaline membrane disease of the newborn" which is common in preterm/premature births (because surfactant develops in the last trimester)
Breathing (ventilation)
-Consists of air going in and out of lungs -About .5L of water is lost through this. -Takes in 13 pints of air/min
Neck of Typical Rib
-Contains no bony prominences -Connects the head with the body, at this point, there is a roughened tubercle -Rough tubercle serves as a facet for articulation with the transverse process of the corresponding vertebrae
Dyspnea
-Difficulty/labored breathing -Indicative of serious disease of the lungs/hear
Body/Shaft of Typical Rib
-Flat & Curved -Internal surface has a groove for the neurovascular supply of the thorax. Groove protects the vessels/nerves from damage
Hyperpnea
-Forced Breathing -Generally requires the use of accessory breathing muscles
Rib 10
-Only one facet for articulation with its numerically corresponding vertebrae
Costovertebral joints
-Point of articulation between the head of the rib, the superior costal facet of the corresponding vertebrae and the inferior costal facet of the vertebrae above
Costotransverse joints
-Point of articulation between the tubercle of the rib and the transverse costal facet of the corresponding vertebrae
Ribs
-Set of 12 bone which from the protective 'cage' of the thorax -Articulate with the vertebral column posteriorly, and terminate anteriorly as cartilage -Protect internal thoracic organs -Permit lung inflation (breathing) via chest expansion -(2) types: 1. Typical ribs 2. Atypical Ribs
Rib 1
-Shorter/wider than others -Has (1) facet on its head for articulation with its corresponding vertebrae (No thoracic vertebrae above) -Superior surface is marked by (2) grooves which make way for subclavian vessels
Rib 2
-Thinner/longer than rib 1 -(2) articular facets on the head (normal) -Roughed area on its upper surface where the serrates anterior muscle attaches
Anterior articulation of the ribs
-Vary depending on the ribs: Ribs 1-7: Attach independently to the sternum Ribs 8-10: Attach to the costal cartilages superior to them Ribs 11-12: Do not have an anterior attachment. They end in the abdominal musculature --> Floating ribs
Head of Typical Rib
-Wedge shaped -(2) articular facets separated by a wedge of bone --> One facet articulates with the numerally corresponding vertebra --> Other fact articulates with the vertebrae above
Frail Chest
-When more than one rib is fractured, the affected area is no long under control of the thoracic muscles -Displays a paradoxical movement during lung inflation/deflation
(4) Respiration processes
1. Breathing (ventilation) 2. External Respiration 3. Internal Respiration 4. Cellular Respiration **We breathe 15-50x per min**
Diaphragm
1. Contracts (lowers) during inhalation 2. Relaxes (raises) during exhalation
Inspiratory muscles
1. Diaphragm 2. External intercostal muscles
Muscles involved in pulmonary ventilation (breathing)
1. Diaphragm 2. External intercostals 3. Internal intercostals
Accessory respiratory muscles
1. Inspiration: Sternocleidomastoid/Serratus anterior/Pectoralis minor/Scalene muscles 2. Expiration: Transverses thoracis/oblique & rectus abdominis/Intercostal muscles
Reflexes involved in Respiration
1. Mechanoreceptor reflexes 2. Chemoreceptor reflexes 3. Protective reflexes
Apneustic Center/Pneumotaxic Center
Adjust the respiratory pace
Emphysema
Chronic respiratory disorder resulting from destruction of respiratory exchange surfaces/alveoli
Rib articulation
Consists of (2) types: 1. Posterior articulation 2. Anterior articulation Majority of ribs have both types
Thoracic Cage
Consists of: 1. Ribs 2. Costal Cartilage 3. Sternum
Muscles of Respiration
Consists of: 1. Inspiratory muscles 2. Expiratory muscles 3. Accessory Respiratory muscles
Internal intercostals
Depress the ribs to aid in exhalation
External Intercostals
Elevates the ribs to aid in inhalation
External Respiration
Gas exchange between air & blood
Internal Respiration
Gas exchange between blood & tissues
Typical Ribs
Generalized structure -Consist of a head/neck/body
Bronchitis
Inflammation of bronchial lining
Tachypnea
Rapid shallow breathing due to imbalance b/w CO2 & O2
Atypical Ribs
Ribs 1, 2, 10-12
Cellular Respiration
The use of Oxygen in the production of ATP and excretion of Carbon dioxide as waste
Expiratory muscles
Usually not needed due to elastic recoil of lungs and thoracic cavity