Respiration Part 1.pptx

Transcript

Respiration Part 1
Dr. Rita DelloStritto, PhD
NURS 4043
Movement of O2 and CO2

Primary function of the Lungs
Exchange of Oxygen and Carbon Dioxide
Inhale Oxygen – from the atmosphere - 21% O2 Concentration
Transferred via arteries to cells
Exhale Carbon Dioxide – from the body/cells
Transferred to lungs from veins
CO2 ≈ 35 – 45
Exchange occurs at the Alveolar level;
 Tissue
Exchange

(A) Diffusion of oxygen from a tissue capillary into a tissue cell. (B) Diffusion of carbon
dioxide from a tissue cell into a tissue capillary.
Oxygen Transportation

Dissolved in Diffuses across the capillary
membrane into cell  bound O2 to
Plasma – release from the Hemoglobin into the
PaO2 plasma and diffuse into cells

Bound to
Hemoglobin Most common way of transportation

– O2%
Oxyhemoglobin Dissociation
Curve
A – Shifts to left 
Hgb  affinity for O2

B – Normal Curve

C – Shifts to Right 
Hgb  affinity for O2
Key Points for Dissociation
Curve
The steep lower portion
shows that the ability of The flat upper portion
Plots the relationship the peripheral tissues to shows that the
between dissolved withdraw large amounts saturation of Hgb
oxygen and hemoglobin- of oxygen from the Hgb remains high even as the
bound oxygen. with only a small change PaO2 declines.
in PaO2.

A shift to the right A shift to the left indicates
indicates a lower O2%
level for any given a higher O2% for any
PaO2 and O2 delivery at given PaO2, but oxygen
the tissue level is delivery to the tissues is
enhanced. impaired.
Diagnostic Procedures
 Bronchoscopy
Fiberoptic visualization of the
bronchioles
Diagnostic
Wash
Biopsy
FB removal

Patient is sedated
Thoracentesis

Removal of fluid from the plural space
Diagnostic tests of fluid
Infection
Cancer
Pneumonia
Etc.
 4 Components
Lung Volume
Mechanics of Breathing
Diffusion
Arterial Blood Gases

Pulmonary Note: Rarely are all 4 done
for critically ill
Function Tests
See Table 18.6
Lung Volumes and Capacities
The amount of air exhaled during the
Tidal relaxation phase of respiration.
Volume Normal ≈ 500 ml
Minute Volume/ Ventilation = VT x Resp
(VT) Rate

Maximum amount of air that can be
Vital exhaled after maximal inhalation
Capacity Normal = 4600 – 4800 ml
10 – 15 ml/kg minimal to wean from
(VC) vent
 Dynamic vs Static Compliance
How easy it is to inflate the
lungs
Dynamic Compliance – 46 – 66 Static Compliance – 57 – 85
ml/cm H2O ml/cm H2O
Measured during breathing Measured when lungs are at
cycle rest
  decrease lung compliance Decreased with decrease in
Airway resistance lung compliance
Increased Secretions Pneumothrax
Bronchial Spasms Atelectasis
Pulm. Edema
Chest Wall Restrictions
Ventilation vs Perfusion

Perfusion – Blood
Ventilation – the
reaching/perfusing Ventilation/
act of breathing in
the lungs  Gas Perfusion Match
an out
Exchange

The gas inhaled
and reaches
Normal – V/Q
Alveoli = Blood
ration 1:1
Perfusing the
Lungs
V/Q Mismatch
Causes
Prevention of Gas getting
to Alveoli (Ventilation)
Examples?

Reduced perfusion (blood)
to the Alveoli
Examples?
V/Q Mismatch
Ventilation Issues
Hypoventilation
Decrease O2 to
Alveoli/minute
Results in
Increased PaCO2
Decreased PaO2
V/Q Mismatch

Perfusion Issues
Intrapulmonary Shunting
Deoxygenated blood returns to left heart
Physiological shunt = small amount of
blood not exchanging at alveoli
Pathological shunt = large amount of
blood not exchanging at alveoli   PaO2
Pulmonary Shunt (Ventilation)
vs
Dead Space (Perfusion)
Questions?