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Alternating versus synchronous ventilation of left and right lungs in piglets (1995)

Versprille, A. ; Hrachovina, V. ; Jansen, J. R. C.

Springer

Intensive care medicine 21 (1995), S. 1009-1015

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ISSN: 1432-1238

Keywords: Alternating ventilation ; Cardiac output ; Central venous pressure

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Objective We tested whether alternating ventilation (AV) of each lung (i.e. with a phase difference of half a ventilatory cycle) would decrease central venous pressure and so increase cardiac output when compared with simultaneous ventilation (SV) of both lungs. Theory If, during AV, the inflated lung expands partly via compression of the opposite lung, mean lung volume will be smaller during AV than SV. As a consequence, mean intrathoracic pressure (as cited in the literature), and therefore, central venous pressure will be smaller. Design The experiments were performed in seven anaesthetized and paralyzed piglets using a double-piston ventilator. Minute ventilation was the same during AV and SV. Starting at SV, we alternated three times between AV and SV for periods of 10 min. Results During AV, central venous pressure was decreased by 0.7 mmHg and cardiac output was increased by 10±4.4% (mean, ±SD) compared with SV. AV also resulted in increased arterial pressure. During one-sided inflation with closed outlet of the opposite lung, a pressure rise occurred in the opposite lung, indicating compression. Conclusion The higher cardiac output during AV than SV can be explained by the fact that central venous pressure is lower during AV. This lower central venous pressure is very probably due to the lower mean intrathoracic pressure caused by compression of the opposite lung during unilateral inflation.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01700663

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Haemodynamic and respiratory conditions during alternating and synchronous ventilation of both lungs (1996)

Versprille, A. ; Oosterhout, M. ; Jansen, J. R. C.

Springer

Intensive care medicine 22 (1996), S. 813-817

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ISSN: 1432-1238

Keywords: Alternating ventilation ; Cardiac output ; Central venous pressure ; Intrathoracic pressure ; Lung volume ; Pericardial pressure

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Objective We tested the hypothesis that mean thoracic expansion (and mean lung volume) is lower during alternating ventilation (AV), i.e. ventilation of both lungs with a phase shift of half a ventilatory cycle, compared to synchronous ventilation (SV) of both lungs. As a consequence, intrathoracic pressure will be lower, causing lower, central venous pressure and higher cardiac output. Design In eight anaesthetized and paralysed piglets, differential ventilation was established by fixation of an endobronchial tube in the left main bronchus. SV and AV were sequentially applied for four and three periods, respectively, of 10 minutes each. Minute ventilation was the same during AV and SV and adapted to normocapnia. Two series of observations were performed: series 1 with intact thorax and monitoring of oesophageal pressure; series 2 after perforation of the sternum, airtight closure of the thorax and monitoring of pericardial pressure. Results In both series, mean lung volume was 16±4% lower and central venous, oesophageal (series 1) and pericardial pressures (series 2) were 0.5±0.7 mmHg lower during AV compared to SV (allp〈0.001). In series 1, aortic pressure was 5 mmHg and cardiac output 8% higher (bothp〈0.001). In series 2, cardiac output was 5% higher during AV (p〈0.001), but aortic pressure did not change (p=0.07). Conclusion Our data verified the hypothesis. The lower oesophageal (series 1), pericardial (series 2) and central venous pressures during AV compared to SV could be explained by the smaller thoracic expansion due to the lower mean lung volume, which was attributed to compression of the opposite lung by the expansion of the inflated lung.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01709526

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Haemodynamic and respiratory conditions during alternating and synchronous ventilation of both lungs (1996)

Versprille, A. ; van Oosterhout, M. ; Jansen, J. R. C.

Springer

Intensive care medicine 22 (1996), S. 813-817

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ISSN: 1432-1238

Keywords: Key words Alternating ventilation ; Cardiac output ; Central venous pressure ; Intrathoracic pressure ; Lung volume ; Pericardial pressure

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Objective: We tested the hypothesis that mean thoracic expansion (and mean lung volume) is lower during alternating ventilation (AV), i.e. ventilation of both lungs with a phase shift of half a ventilatory cycle, compared to synchronous ventilation (SV) of both lungs. As a consequence, intrathoracic pressure will be lower, causing lower, central venous pressure and higher cardiac output. Design: In eight anaesthetized and paralysed piglets, differential ventilation was established by fixation of an endobronchial tube in the left main bronchus. SV and AV were sequentially applied for four and three periods, respectively, of 10 minutes each. Minute ventilation was the same during AV and SV and adapted to normocapnia. Two series of observations were performed: series 1 with intact thorax and monitoring of oesophageal pressure; series 2 after perforation of the sternum, airtight closure of the thorax and monitoring of pericardial pressure. Results: In both series, mean lung volume was 16±4% lower and central venous, oesophageal (series 1) and pericardial pressures (series 2) were 0.5–0.7 mmHg lower during AV compared to SV (all p〈0.001). In series 1, aortic pressure was 5 mmHg and cardiac output 8% higher (both p〈0.001). In series 2, cardiac output was 5% higher during AV (p〈0.001), but aortic pressure did not change (p=0.07). Conclusion: Our data verified the hypothesis. The lower oesophageal (series 1), pericardial (series 2) and central venous pressures during AV compared to SV could be explained by the smaller thoracic expansion due to the lower mean lung volume, which was attributed to compression of the opposite lung by the expansion of the inflated lung.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01709526

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Systemic filling pressure in the intact circulation determined with a slow inflation procedure (1996)

den Hartog, E. A. ; Jansen, J. R. C. ; Moens, G. H. ; [et al.]

Springer

Pflügers Archiv 431 (1996), S. 863-867

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ISSN: 1432-2013

Keywords: Key words Venous return ; Central venous pressure ; Inspiratory pause procedures ; Venous capacity ; Venous resistance ; Mechanical ventilation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In eight mechanically ventilated, anaesthetized pigs weighing 10.3 ± 0.8 kg (mean ± SD) we studied the effect of the inflation time of the lung on the estimation of the mean systemic filling pressure (P sf) from the changes in venous return and central venous pressure during inflation of the lung. For this purpose we applied slow inflation procedures (SIP) to the lung with inflation times of 2.4, 4.8, 7.2, 9.6 and 12 s at tidal volumes (V T) of 15 and 30 ml/kg. The data were compared with the values of P sf obtained from inspiratory pause procedures (IPPs). A linear regression between venous return and central venous pressure applied during a SIP underestimated P sf compared with the value obtained with IPPs. An exponential fit through the values of P sf obtained from the different SIPs predicted an inflation time of about 15 s for an estimation of P sf that is not different from the P sf (IPP). The advantage of the SIP method is that the P sf can be determined much faster than with the method based on IPPs. However, due to the rather long inflation time needed, the method may be only applicable under circumstances where neurohumoral control mechanisms are suppressed as during intensive care and anaesthesia.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004240050078

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Systemic filling pressure in the intact circulation determined with a slow inflation procedure (1996)

Hartog, E. A. ; Jansen, J. R. C. ; Moens, G. H. ; [et al.]

Springer

Pflügers Archiv 431 (1996), S. 863-867

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ISSN: 1432-2013

Keywords: Venous return ; Central venous pressure ; Inspiratory pause procedures ; Venous capacity ; Venous resistance ; Mechanical ventilation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In eight mechanically ventilated, anaesthetized pigs weighing 10.3 ± 0.8 kg (mean ± SD) we studied the effect of the inflation time of the lung on the estimation of the mean systemic filling pressure (P sf) from the changes in venous return and central venous pressure during inflation of the lung. For this purpose we applied slow inflation procedures (SIP) to the lung with inflation times of 2.4, 4.8, 7.2, 9.6 and 12 s at tidal volumes (V T) of 15 and 30 ml/kg. The data were compared with the values ofP sf obtained from inspiratory pause procedures (IPPs). A linear regression between venous return and central venous pressure applied during a SIP underestimatedP sf compared with the value obtained with IPPs. An exponential fit through the values ofP sf obtained from the different SIPs predicted an inflation time of about 15 s for an estimation ofP sf that is not different from theP sf (IPP). The advantage of the SIP method is that theP sf can be determined much faster than with the method based on IPPs. However, due to the rather long inflation time needed, the method may be only applicable under circumstances where neurohumoral control mechanisms are suppressed as during intensive care and anaesthesia.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02332170

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