The influence of PEEP and tidal volume on central blood volume.

Jens Kubitz; G I Kemming; G Schultheiss; J Starke; A Podtschaske; Alwin E. Goetz; Daniel Reuter

The influence of PEEP and tidal volume on central blood volume.

Standard

The influence of PEEP and tidal volume on central blood volume. / Kubitz, Jens; Kemming, G I; Schultheiss, G; Starke, J; Podtschaske, A; Goetz, Alwin E.; Reuter, Daniel.

in: EUR J ANAESTH, Jahrgang 23, Nr. 11, 11, 2006, S. 954-961.

Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung

Harvard

Kubitz, J, Kemming, GI, Schultheiss, G, Starke, J, Podtschaske, A, Goetz, AE & Reuter, D 2006, 'The influence of PEEP and tidal volume on central blood volume.', EUR J ANAESTH, Jg. 23, Nr. 11, 11, S. 954-961. <http://www.ncbi.nlm.nih.gov/pubmed/16784550?dopt=Citation>

APA

Kubitz, J., Kemming, G. I., Schultheiss, G., Starke, J., Podtschaske, A., Goetz, A. E., & Reuter, D. (2006). The influence of PEEP and tidal volume on central blood volume. EUR J ANAESTH, 23(11), 954-961. [11]. http://www.ncbi.nlm.nih.gov/pubmed/16784550?dopt=Citation

Vancouver

Kubitz J, Kemming GI, Schultheiss G, Starke J, Podtschaske A, Goetz AE et al. The influence of PEEP and tidal volume on central blood volume. EUR J ANAESTH. 2006;23(11):954-961. 11.

Bibtex

@article{e3ec3cea999247a2b84e2cf5814b9f80,

title = "The influence of PEEP and tidal volume on central blood volume.",

abstract = "BACKGROUND AND OBJECTIVE: Measurement of central blood volumes (CBV), such as global end-diastolic volume (GEDV) and right ventricular end-diastolic volume (RVEDV) are considered appropriate estimates of intravascular volume status. However, to apply those parameters for preload assessment in mechanically ventilated patients, the influence of tidal volume (TV) and positive endexpiratory airway pressure (PEEP) on those parameters must be known. METHODS: In 13 mechanically ventilated piglets, the effect of low (10 mL kg(-1)) and high (20 mL kg(-1)) TVs on CBV was investigated in absence and presence of PEEP (0 and 15 cm H(2)O). GEDV, RVEDV, right heart (RHEDV) and left heart end-diastolic volume (LHEDV) were measured by thermodilution. Blood flow on the descending thoracic aorta measured with an ultrasonic flow-probe served to determine stroke volume (SV). Measurements were performed during baseline conditions, after volume loading with previously extracted haemodilution blood (20 mL kg(-1)) and following haemorrhage (30 mL kg(-1)). RESULTS: Application of PEEP decreased GEDV and SV significantly (P <0.05). Augmenting TV did not reduce GEDV systematically, but significantly reduced SV (P <0.05). Changes in ventilator settings only influenced RVEDV following volume loading (P <0.05). RHEDV and LHEDV decreased following application of PEEP, but only RHEDV decreased after augmenting TV at baseline and following volume loading. Correlation of SV with parameters of CBV was r = 0.487 (P <0.01) for GEDV, r = 0.553 (P <0.01) for RVEDV, r = 0.596 (P <0.01) for RHEDV and r = 0.303 (P <0.01) for LHEDV. CONCLUSION: Application of PEEP decreases CBV and SV. Augmenting TV reduces SV but not CBV. There is a moderate correlation between parameters of CBV and cardiac performance.",

author = "Jens Kubitz and Kemming, {G I} and G Schultheiss and J Starke and A Podtschaske and Goetz, {Alwin E.} and Daniel Reuter",

year = "2006",

language = "Deutsch",

volume = "23",

pages = "954--961",

journal = "EUR J ANAESTH",

issn = "0265-0215",

publisher = "Lippincott Williams and Wilkins",

number = "11",

}

RIS

TY - JOUR

T1 - The influence of PEEP and tidal volume on central blood volume.

AU - Kubitz, Jens

AU - Kemming, G I

AU - Schultheiss, G

AU - Starke, J

AU - Podtschaske, A

AU - Goetz, Alwin E.

AU - Reuter, Daniel

PY - 2006

Y1 - 2006

N2 - BACKGROUND AND OBJECTIVE: Measurement of central blood volumes (CBV), such as global end-diastolic volume (GEDV) and right ventricular end-diastolic volume (RVEDV) are considered appropriate estimates of intravascular volume status. However, to apply those parameters for preload assessment in mechanically ventilated patients, the influence of tidal volume (TV) and positive endexpiratory airway pressure (PEEP) on those parameters must be known. METHODS: In 13 mechanically ventilated piglets, the effect of low (10 mL kg(-1)) and high (20 mL kg(-1)) TVs on CBV was investigated in absence and presence of PEEP (0 and 15 cm H(2)O). GEDV, RVEDV, right heart (RHEDV) and left heart end-diastolic volume (LHEDV) were measured by thermodilution. Blood flow on the descending thoracic aorta measured with an ultrasonic flow-probe served to determine stroke volume (SV). Measurements were performed during baseline conditions, after volume loading with previously extracted haemodilution blood (20 mL kg(-1)) and following haemorrhage (30 mL kg(-1)). RESULTS: Application of PEEP decreased GEDV and SV significantly (P <0.05). Augmenting TV did not reduce GEDV systematically, but significantly reduced SV (P <0.05). Changes in ventilator settings only influenced RVEDV following volume loading (P <0.05). RHEDV and LHEDV decreased following application of PEEP, but only RHEDV decreased after augmenting TV at baseline and following volume loading. Correlation of SV with parameters of CBV was r = 0.487 (P <0.01) for GEDV, r = 0.553 (P <0.01) for RVEDV, r = 0.596 (P <0.01) for RHEDV and r = 0.303 (P <0.01) for LHEDV. CONCLUSION: Application of PEEP decreases CBV and SV. Augmenting TV reduces SV but not CBV. There is a moderate correlation between parameters of CBV and cardiac performance.

AB - BACKGROUND AND OBJECTIVE: Measurement of central blood volumes (CBV), such as global end-diastolic volume (GEDV) and right ventricular end-diastolic volume (RVEDV) are considered appropriate estimates of intravascular volume status. However, to apply those parameters for preload assessment in mechanically ventilated patients, the influence of tidal volume (TV) and positive endexpiratory airway pressure (PEEP) on those parameters must be known. METHODS: In 13 mechanically ventilated piglets, the effect of low (10 mL kg(-1)) and high (20 mL kg(-1)) TVs on CBV was investigated in absence and presence of PEEP (0 and 15 cm H(2)O). GEDV, RVEDV, right heart (RHEDV) and left heart end-diastolic volume (LHEDV) were measured by thermodilution. Blood flow on the descending thoracic aorta measured with an ultrasonic flow-probe served to determine stroke volume (SV). Measurements were performed during baseline conditions, after volume loading with previously extracted haemodilution blood (20 mL kg(-1)) and following haemorrhage (30 mL kg(-1)). RESULTS: Application of PEEP decreased GEDV and SV significantly (P <0.05). Augmenting TV did not reduce GEDV systematically, but significantly reduced SV (P <0.05). Changes in ventilator settings only influenced RVEDV following volume loading (P <0.05). RHEDV and LHEDV decreased following application of PEEP, but only RHEDV decreased after augmenting TV at baseline and following volume loading. Correlation of SV with parameters of CBV was r = 0.487 (P <0.01) for GEDV, r = 0.553 (P <0.01) for RVEDV, r = 0.596 (P <0.01) for RHEDV and r = 0.303 (P <0.01) for LHEDV. CONCLUSION: Application of PEEP decreases CBV and SV. Augmenting TV reduces SV but not CBV. There is a moderate correlation between parameters of CBV and cardiac performance.

M3 - SCORING: Zeitschriftenaufsatz

VL - 23

SP - 954

EP - 961

JO - EUR J ANAESTH

JF - EUR J ANAESTH

SN - 0265-0215

IS - 11

M1 - 11

ER -