|
|
|
Dead space and Fowler’s method
|
|
1.3.7
|
|
|
Diffusion
|
|
1.3.8
|
|
|
Dynamic compression of airways
|
|
1.3.9
|
|
|
Fick principle and blood flow
|
|
1.3.10
|
|
|
Forced expiration curves
|
|
1.3.11
|
|
|
Functional residual capacity of the lungs
|
|
1.3.12
|
|
|
Lung and chest wall compliance
|
|
1.3.13
|
|
|
Lung pressure–volume loop
|
|
1.3.14
|
|
|
Lung volumes and capacities
|
|
1.3.15
|
|
|
Oxygen cascade
|
|
1.3.16
|
|
|
Oxygen dissociation curve and Bohr effect
|
|
1.3.17
|
|
|
Pulmonary vascular resistance
|
|
1.3.18
|
|
|
Pulmonary vascular resistance and lung volumes
|
|
1.3.19
|
|
|
Respiratory flow–volume loops
|
|
1.3.20
|
|
|
Shunt
|
|
1.3.21
|
|
|
Ventilation–perfusion ratio
|
|
1.3.22
|
|
|
Ventilatory response to carbon dioxide
|
|
1.3.23
|
|
|
Ventilatory response to oxygen
|
|
1.3.24
|
|
|
West lung zones
|
|
1.3.25
|
|
|
Work of breathing
|
|
1.4
|
|
|
Neurology
|
|
1.4.1
|
|
|
Action potential
|
|
1.4.2
|
|
|
Cerebral blood flow and blood pressure
|
|
1.4.3
|
|
|
Cerebral blood flow variation with ventilation
|
|
1.4.4
|
|
|
Cerebrospinal fluid
|
|
1.4.5
|
|
|
Gate control theory of pain
|
|
1.4.6
|
|
|
Glasgow Coma Scale
|
|
1.4.7
|
|
|
Intracranial pressure–volume relationship
|
|
1.4.8
|
|
|
Intracranial pressure waveform
|
|
1.4.9
|
|
|
Neuron
|
|
1.4.10
|
|
|
Neurotransmitters – action
|
|
1.4.11
|
|
|
Neurotransmitters – classification
|
|
1.4.12
|
|
|
Reflex arc
|
|
1.4.13
|
|
|
Synaptic transmission
|
|
1.4.14
|
|
|
Types of nerve
|
|
1.4.15
|
|
|
Visual pathway
|
|
1.5
|
|
|
Renal
|
|
1.5.1
|
|
|
Autoregulation of renal blood flow
|
1.5.2
|
