HFPV High Frequency Pe rcussive Ventilation HFPV® or High Frequency Percussive Ventilation ... is an advanced ventilatory strategy, by whitch small subtidal volumes, or percussions, are administered at higher than conventional frequencies (200-800 BPM) and at three selectable dynamic pressure levels, for optimal diffusive oxygenation and convective ventilation at LOW MEAN AIRWAY PRESSURE. HFPV shows evidence for complex ventilatory challenges and respiratory diseases, and this equally weil with adults, children, newborns or neonates ... all with the same Phasitron ® sliding venturi circuit. 100 CONVa:Cll'fll " ULMOHAKT I"Ctt"'MOI PREFERENTIAL AIRWAV - A PRIUARY FACTOR OF MECHANICAL OAROTRAUUA Advantages: open circuit : patient can breathe or cough on top of percussions reduces preferential airway, offering a lung protective approach step-up inflation of the lung up to oscillatory equilibrium facilitates secretion mobilisation (and smoke inhalation debris) actively reduces lung oedema by vesicular peristalsys active lung recruitment without high static press ures strategie ventilatory protocol based on BGA and cardiopulmonary feedback allows for inverse ratio ventilation with subtidal gas echange during inspiration subtidal gas exchange during dynamic PEEP allows for rescue ventilation down to total weaning Severe Hypoxemic Respiratory Failure Part J - Ventilatory Strategies eHEST May 2010 vol. 137 no.5 1203-1216, Adebayo Esan et al.
2
Embed
HFPV® - OxyCare GmbH HFPV-IPV.pdf · IPV-percussion therapy shows evidence for acute and chronic respiratory diseases, both obstructive and restrictive, and this equally weil with
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
HFPV H igh Frequency Percussive Ventilation
HFPV® or High Frequency Percussive Ventilation
... is an advanced ventilatory strategy, by whitch small subtidal volumes, or percussions, are administered at higher than conventional frequencies (200-800 BPM) and at three selectable dynamic pressure levels, for optimal diffusive oxygenation and convective ventilation at LOW MEAN AIRWAY PRESSURE.
HFPV shows evidence for complex ventilatory challenges and respiratory diseases, and this equally weil with adults, children, newborns or neonates
... all with the same Phasitron®sliding venturi circuit.
100
O Il'FU51V~ CONVa:Cll'fll " ULMOHAKT I"Ctt"'MOI
PREFERENTIAL AIRWAV - A PRIUARY FACTOR OF MECHANICAL OAROTRAUUA
Advantages:
open circuit : patient can breathe or cough on top of percussions reduces preferential airway, offering a lung protective approach step-up inflation of the lung up to oscillatory equilibrium facilitates secretion mobilisation (and smoke inhalation debris) actively reduces lung oedema by vesicular peristalsys active lung recruitment without high static pressures strategie ventilatory protocol based on BGA and cardiopulmonary feedback allows for inverse ratio ventilation with subtidal gas echange during inspiration subtidal gas exchange during dynamic PEEP allows for rescue ventilation down to total weaning
Severe Hypoxemic Respiratory Failure Part J - Ventilatory Strategies eHEST May 2010 vol. 137 no.5 1203-1216, Adebayo Esan et al.
IPV Intrapulmonory Percussive Ventilation
IPV® or Intrapulmonary Percussive Ventilation
... is an advanced therapeutic respiratory technique, by whitch very small subtidal volumes, or percussions, are administered at higher than conventional frequencies (80-400 BPM), eventually combined with other manual respiratory techniques, like autogenic drainage, for optimal mobilisation and recruitment.
IPV-percussion therapy shows evidence for acute and chronic respiratory diseases, both obstructive and restrictive, and this equally weil with adults, children, newborns or neonates, whether cooperative or not, or even ventilated
all with the same Phasitron®sliding venturi circuit.
Phasitron ' cmH20..--- ------ ----------,
45 40 35 30 25 20 15 10
5 o
SINUSOIDAL SPONTAl'fEOV'S IIIlEATBE THROUGH DURlNG IPV'
...,....,-cmH20
50 45 40 35 30 25 20 15 10
END INSPIRA TORY INTERVAL PASSIVE EXPIRATORY TIDAL EXPULSION OF SECRETIONS
Advantages: open circuit : patient can breathe or cough on top of percussions reduces preferential airway, offering a lung protective strategy facilitates periferal secretion mobilisation thorax mobilisation Ilung recruitment enables extended expiration by dynamic PEEP permits expiratory volume breathing for non-cooperative or ventilated patients allows for pre- and post-surgical respiratory therapy (thoracallabdominal/... ) provides oxygenation and ventilation during the therapy (RT supervised) 5!-t MMD particle impact nebuliser for periferal humidification treatment of COPD, CF, Asthma, Bronchiectasis, Atelectasis, Hypoxemia, ...
Patient interfaces: mouthpiece, mask, tracheal or ventilator tube