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Respiration Under Water

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... Hood's crew, in an attempt to escape the sheriffs soldiers dove into the mote. To be able to stay under water he used a hollow reed as a breathing apparatus. ... – PowerPoint PPT presentation

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Title: Respiration Under Water


1
Respiration Under Water
  • Ben Baker
  • Julia Sivakova
  • Heidi Erchinger

2
Once Upon a Time
  • Friar Pucker (FP), a member of Robin Hoods crew,
    in an attempt to escape the sheriffs soldiers
    dove into the mote. To be able to stay under
    water he used a hollow reed as a breathing
    apparatus. Unfortunately, after a short period
    of time he could not breathe sufficiently and was
    struggling to survive, which gave his position
    away.
  • What went wrong?!?!?!?!?!?!?!

3
(No Transcript)
4
Tidal Volume
  • The volume of air moved during a normal
    inspiration or expiration
  • Friar Puckers tidal volume is 500 ml under
    normal breathing conditions.
  • FPs tidal volume must increase at least by as
    much as the additional anatomic dead air space
  • (reed volume ? r2 h 452ml)
  • Without an increase in respiratory rate, tidal
    volume must increase to 952ml in order to
    maintain alveolar ventilation rate.

5
Residual Volume
  • The volume of air left in the lungs after maximum
    exhalation.
  • Most of the residual volume exists because the
    lungs adhere to the thoracic wall and normally do
    not completely collapse.

Residual volume is like a tube of toothpaste -
there is always some toothpaste left in the tube
no matter how hard you try to get it all out.
6
Respiratory Rate
  • The number of breaths taken per minute
  • The normal respiratory rate is 12 resp/min
  • FPs respiratory rate must increase because his
    body will try to compensate for the artificial
    increase in anatomic dead air space by taking
    deeper, more rapid breaths.

7
Total Pulmonary Ventilation
  • The volume of air moved in and out of lungs each
    minute
  • TPV Respiratory rate x Tidal volume
  • Normal TPV 6000 ml/min
  • FPs TPV will increase because we anticipate that
    both tidal volume and respiratory rate will
    increase

8
Fresh Air to Alveoli
  • Measurement of the amount air that reaches
    alveoli and that can be used for gas exchange
  • FAA Tidal volume Anatomic Dead Air Space
  • Normal FAA 500ml -150ml 350ml
  • FPs 700ml - (150ml 452ml) 98ml
  • Because FP is essentially recycling the same
    air, the partial pressure gradients will more
    quickly approach equilibrium because they are not
    as steep. He will suffer hypoxia and hypercapnia.

9
Alveolar Ventilation Rate
  • The amount of fresh air that reaches the alveoli
    per minute
  • AVR Fresh air to alveoli x Respiration rate
  • This is a better way to measure the rate at which
    air is made available for gas exchange
  • Normal alveolar ventilation rate
  • 350ml x 12 4200 ml/min
  • FPs estimated alveolar ventilation rate
  • 98ml x 20 1960 ml/min
  • (assuming his respiratory rate increases to
    20/min)

10
  • And the moral of the story dont SCUBA dive
    without the proper gear.
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