Anest. intenziv. Med. 2008;19(2):105-109
Tri-level pulmonary ventilation (3LV®) - initial clinical experienceIntensive Care Medicine - Original Paper
- OAIM, Vranovská nemocnica n. o., Vranov nad Topľou, Slovenská republika
Objective:
To test whether in cases of considerably non-homogenous gas distribution in acute pathological lung conditions it is possible to improve gas distribution into slow broncho-alveolar compartments while decreasing the volume load of the fast compartments, and to improve gas exchange in the lungs while sustaining the principles of "non-injurious ventilation", by using tri-level (3LV) IPPV.
Setting:
Department of Anaesthesiology and Intensive Care Unit.
Materials and methods:
Authors applied 3LV ventilation to a group of 12 patients with non-homogenous lung injury. Tri-level ventilation is defined as a type (modification) of IPPV consisting of background ventilation using the CMV, PCV or PS (ASB) ventilation mode and an added level called "on-background ventilation" consisting of multiple levels of PEEP: PEEP (constant) and PEEPh (PEEP high) with variable frequency and duration of transition between individual levels of PEEP.
Results:
The study population consisted of 12 patients with severe non-homogenous lung injury/disorder (atypical pneumonia and ARDS/ALI) who failed to achieve successful ventilation in the PCV mode after a recruitment manoeuvre (PaO₂/FiO₂ = 5-6). After the application of 3LV with respiratory rate of fPCV = 26 ± 4 b . min⁻1 and PEEPh with frequency of fpeeph = 7 ± 2 b . min⁻1 reaching minute ventilation (MV) of 12 ± 4 b . min⁻1 , a considerable improvement in gas exchange was observed within 1-4 hours. Pulmonary shunt decreased from 50 ± 5% to approx. 30 ± 5%. Elimination of CO₂ improved from 7.8 ± 0.5 kPa to less than 6.0 ± 0.3 kPa and PaO₂ increased from 5.4 ± 0.4 kPa to 7.5 ± 1.2 kPa while FiO₂ could be reduced to 0.8-0.4. Alveolar recruitment due to PEEP of 1.2 ± 0.4 kPa which was manifested by an increase in static compliance Cst from 0.18 ± 0.02 l/kPa to 0.3 ± 0.02 l/kPa and later on 0.38 ± 0.05 l/kPa helped to improve gas exchange. Airway resistance (Raw) decreased by more than 30%. The improved aeration of the lungs is considered to be a manifestation of improved gas distribution to the areas with a long time constant. Patients were weaned to pressure support ventilation in 5 ± 1 and later successfully weaned off the ventilator and transferred to a standard ward.
Conclusions:
The clinical results support the mathematical and physical simulation results of ventilation using 3LV. The authors conclude that 3LV improved pulmonary gas exchange compared to PCV in 2-4 hours. Tri-level ventilation could be a promising ventilatory mode for the lungs affected by a diffuse non-homogenous pathological process.
Keywords: IPPV; tri-level IPPV; ARDS; ALI
Received: February 14, 2007; Accepted: January 6, 2008; Published: April 1, 2008 Show citation
References
- Török, P. Teória a matematický model viachladinovej umelej ventilácie pľúc. Anest. intenziv. Med., 2008, 19, 2, s. 96-103.
- Chirana, s. r. o., Stará Turá Návod na obsluhu servoventilátora Chirolog SV ALFA+C. 2006.
- Török, P., Májek, M., Kolník, J. Je časová konštanta Tau (tau) pri umelej ventilácii pľúc konštantou? Teoretický a fyzikálny model. Anest. neodklad. Péče, 2001, 12, s. 291-297.
- Gattinoni, L. et al. Lung structure and function in different stages of severe ARDS. J. Amer. Med. Assoc., 1994, 271, p.1772-1779.
Go to original source... 
Go to PubMed... - Török, P. Multilevel ventilation. In Zborník z konferencie Ruskej akadémie vied - Akútne zlyhanie pľúc. Piešťany-Moskva 30. 9.-3. 10. 2006, 187 s.
- Oczenski, W. et al. Breathing and mechanical support. Blackwell Science : Vienna 1997, s. 236.