High G physiology and protection

Question 1

what is the classification of acceleration. Short, intermediate and long

Answer 1

Short: impact eg crash <0.5 sec
Intermediate:ejection, catapult/cable. 0.5 - 2.0 secs
Long: linear - takeoff, radial - ACM/manoeuvring >2.0sec

Question 2

Newton’s first law

Answer 2

Every object in a state of uniform motion tends to remain in that state of motion unless an external force is applied to it

Question 3

Newton’s second law

Answer 3

the relationship between an object’s mass, it acceleration and the applied force. F=ma
Acceleration and force are vectors

Question 4

Newton’s third law

Answer 4

For every action there is an equal and opposite reaction. eg acceleration and inertial force

Question 5

Describe the G axes

Answer 5

\+Gz= superior to inferior
-Gz= inferior to superior
\+Gx=anterior to posterior
-Gx=posterior to anterior
\+Gy= to left
-Gy=to right

Question 6

G profiles of ADF aircraft

• F-35
• Hawk 127
• PC-21
• F/A 18 honet

Answer 6

F-35 = -3G to +9G
Hawk 127 = -4G to +8G
PC-21 = -4G to +8G
F/A 18 Hornet = -3.5G to +7.5G

Question 7

Describe the Gz continuum

Answer 7

Weight increase
Grey out
black out
A-LOC
G-LOC

Question 8

physical Effects of +Gz

Answer 8

Face sag
increase wt
- unassisted escape impossible at >3G
- Can't lift head up >4G
- Can't lift limbs at >8G

Question 9

Cardiology effects from +Gz environment

Answer 9

blood pooling
reduced cerebral blood flow
Dysrhythmogenic due ot autonomic imbalance due to stretching of conduction system

Question 10

Describe Grey Out

Answer 10

Causes tunnelling of vision
+3 to +4Gz
vision affected first due to pressure in eyes
peripheral effected first as greatest distance from optic artery.

Question 11

Describe Black out

Answer 11

Causes complete loss of vision
+ 4 to +4.5 Gz
still conscious but no vision

Question 12

How does +Gz worsen hypoxia

Answer 12

Changes to lung tissue
- upper alveoli are distended, lots of air
- lower alveoli are compressed, no air
Changes to blood flow
- decreased flow to upper lung
- increased flow to lower lung
exacerbates V/Q mismatching predisposing to hypoxia

Question 13

Describe Oxy lung

Answer 13

occurs when >+3Gz, using G suit, breathing oxygen
V/Q mismatch related hypoxia reduced G performance
presents as dry cough, pain beneath the sternum, inability to take a deep breath

resolves quickly post flight with deep inspirations and/or coughing
ACBC

Question 14

protective factors for Oxy lung

Answer 14

AGSM
pressure breathing
>40% nitrogen
incentive spirometers

Question 15

MSK effects by +Gz

Answer 15

Short term
- acute musculo-ligamentous strains and sprains called burners and stingers
Long term: degenerative disc disease and osteoarthitis

Question 16

explain G measles and G roids

Answer 16

G measles: petechial haemorrhages in skin, dependent areas of body
G roads: Haemorrhoids, may cause bleeding and irritation

Question 17

Describe the recovery from G-LOC

Answer 17

absolute incapacitation 15 seconds
relative incapacitation 15 seconds
full recovery 1-5 mins
Subtle cognitive impairment up to 24hrs

Question 18

describe almost loss of consciousness

Answer 18

G induced impairment of cerebral function with no LOC, short duration, rapid onset G exposure, typical duration approx 5 sec
Lights on but nobody home

Symptoms: 
- sensory disturbances
- euphoria
- amnesia
- apathy
- loss of short term memory
- word forming difficulty
- reduced auditory acuity
- motor disturbances
similar to the relative incapacitation stage of G-LOC

Question 19

what is symptoms during recovery from G-LOC

Answer 19

Euphoria/dreamlike state
confused and disorientated
muscle spasms/seizures
light-headedness
Amnesia in 50% of cases
psychological suppression/denial

Question 20

Factors that increase risk of G-LOC

Answer 20

Unprepared for G
U/S anti-G suit
Rapid onset of G
lack of experience
layoff
minor illness
missed meal
hangover
unfit

Question 21

Immediate actions after G-LOC event

Answer 21

Declare PAN
fly straight and level to regain capability
Simple approach and landing
review by AVMO to ID Risk factors
ASOR
Return to flying next day

Question 22

Clinical management of G-LOC

Answer 22

Medical history
sortie profile
72hr history of the crew
IX predisposing Risk Factors
Manage as appropriate
TMUFF 24 hours - can fly the next day

Question 23

what physiological factors might effect G tolerance

Answer 23

Illness
medications/supplements
hypoxia/hyperventilation
heat stress
dehydration
alcohol

Question 24

Pilot fitness checklist

Answer 24

IM SAFE
illness
medication
stress
alcohol
fatigue
emotion

Question 25

what personal factors affect G tolerance

Answer 25

Unprepared
lack of experience
previous lay-off
missed meal
fatigue

Question 26

What sortie-related factors affect G tolerance

Answer 26

Sortie-related
Peak G level
G onset rate
push pull effect 
poor AGSM

Question 27

How do Baroreflex response to falling BP

Answer 27

baroreceptors inhibited
decreased impulses to the brain
decreased  PNS active and Increase SNS
Effects
- Heart: increase HR & contractility
- Vessels increase vasoconstriction
- Adrenal gland: release of adrenaline and noradrenaline.

results in increase contractility and vasoconstriction = increase BP
take 6-12 secs to work

Question 28

effects of negative G

Answer 28

defined as less then +1Gz manouevre
poorly tolerated
Head level BP increase
LOC from - 4Gz

Question 29

Explain what happens during -Gz

Answer 29

baroreflexes in reverse
- hydrostatic effects cause stretch which results in heart slows, blood vessels dilate, BP falls

Symptoms: facial pain/fullness, eye discomfort, nose bleeds, red out, headaches, mental confusion, unconscious -4Gz

Question 30

Explain the push - pull effect

Answer 30

when performing <1+Gz manoeuvre which triggers baroreflexes to drop blood pressure. then moving to >1+Gz which drops the BP due shift of hydrostatic pressure prior to the baroreflexes being able to increase BP. Results in GLOC earlier then expected

Question 31

what High G defence training strategy

Answer 31

education about High G physiology
AGSM 
Anti G garments
physical conditioning
centrifuge training

Question 32

Steps to prevent neck pain

Answer 32

Before flight

• fitness and training
• core upper body strength. neck, generic isometric or physio specific.
• pre-flight stretch and warm up

Inflight

• pre -positioning
• plan head movements
• use of structures

post-flight
- stretch and cool down

symptoms management

• stop flying
• early self tx
• rest, stretch +/- analgesia
• if no improvement seek AVMO &/or physio early.

Question 33

What is the most effective method to prevent G-LOC

Answer 33

anti-G straining manoeuvre

Question 34

Describe AGSM and how much tolerance does it give

Answer 34

Adds +3 to 4 Gz tolerance

2 parts

• Continuous muscle contraction started prior to onset of G force. Contract legs, buttocks, abdominals.
• Breathing: increase intrathorac pressure which increases cerebral circulation. breath every 3 secs to allow heart to refil.

Question 35

Common mistake with AGSM

Answer 35

failure to anticipate G
Inadequate strain
poorly coordinated strain
Failure to maintain AGSM during G offset
Breathing cadence
Fatigue due to poor energy conservation

Question 36

How much protection does anti G suit give against G

Answer 36

Adds 1-1.5 G tolerance
makes AGSM easier

extended coverage adds 2-2.5 G tolerance

Question 37

how much protection does positive pressure breathing for G and what are the problems

Answer 37

PBG at 30mmHg fives +3Gz of protection.

problems

• doesn’t protect against against rapid G onset
• communication issues
• mask seal problems
• high G forearm pain
• decrease venous return

Question 38

The most effective form of G protection is provided by 
A the pneumatic anti-G suit
B the AGSM
C positive pressure breathing
D reclined seating

Answer 38

B the AGSM