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ABSTRACT: The use of propofol often results in pain upon injection. Various strategies can be used to reduce this pain, ranging from the administration of analgesics to modification of the propofol emulsion. However, basic premedication protocol aimed at peri- and postoperative pain reduction could also sufficiently reduce propofol injection pain, rendering other special interventions redundant.
With the approval of the Local Ethics Committee of the Erasmus Medical Centre Rotterdam, and after obtaining written informed consent from each patient included, 209 surgical patients (ASA physical status I-III) were randomized in a double-blind manner to receive premedication consisting of 7.5 mg midazolam, 50 mg diclofenac and 1000 mg acetaminophen (all orally administered) and fentanyl (intravenously administered) or placebo medication the hour before surgery. In both groups a mixture of 40 mL propofol 1% with 2 mL lidocaine 1% was used to induce anesthesia. Pain scores were assessed using a verbal analog scale (VAS) ranging from 0-10.
The premedication group was found to have significantly less pain upon injection of propofol (median VAS 0+/-0-2) (median+/-interquartile range) when compared to the control group (median VAS 1.5+/-0-4; P=0.001). In addition, more patients in the premedication group experienced no pain at all. This effect was still present one hour after extubation.
Even when injection pain is reduced, the use of a premedication regimen clearly has additional value with respect to the patients' experience. Considering the low VAS scores observed overall, it might be worthwhile to reserve additional injection pain-reducing interventions for individual patients rather than adding them as a component of standard practice.
Minerva anestesiologica 09/2010; 76(9):720-4. · 2.66 Impact Factor
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ABSTRACT: Respiratory morbidity is the most frequent complication after esophagectomy, which can occur in 50% of the patients treated for esophageal cancer. We tested the hypothesis whether an anesthetic regimen, emphasizing intraoperative fluid restriction and early extubation could, positively influence postoperative morbidity, without affecting the gastric tube reconstruction. We introduced an anesthetic regimen, based on early extubation and a controlled intraoperative fluid management (net fluid balance < 4 L) in combination with the use of norepinephrine to maintain mean arterial blood pressure > 65 mmHg. Postoperative morbidity and mortality were compared with a similar group of patients operated one year before. From June 2005 till September 2006, 83 patients were treated according to the new regimen (NR) and compared to a similar number of patients from the same period in 2003-2005 (standard regimen: SR). Applying the NR resulted in significantly less fluid administration (balance of 3.5 +/- 0.2 L NR vs. 5.1 +/- 0.2 L SR, p < 0.05) resulting in fewer patients developing pneumonia (26% in the NR group vs. 42% in the SR group, p < 0.05). Similar per operative blood loss and urine output and occurrence of leakage or ischemia of the gastric tube anastomosis occurred in both groups. Respiratory morbidity is significantly reduced with the introduction of a new anesthetic regimen directed at intraoperative fluid restriction and early extubation, without increasing anastomotic leakage of the gastric tube reconstruction.
Acta anaesthesiologica Belgica 02/2008; 59(4):257-61.
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ABSTRACT: It has been proposed that exogenous pulmonary surfactant can be used as a drug delivery system for immunosuppressive agents to the alveolar compartment of the lung while reducing the risk of systemic toxicity. Before using this combination, however, alterations in activity of both substances should be examined. Therefore, this study investigated whether the activity of a natural derived surfactant preparation is changed after it is mixed with cyclosporine A (CsA) or rapamycin (RPM).
A surfactant suspension was mixed with CsA or RPM and minimal surface tension of these mixtures was measured in vitro. Surfactant activity was evaluated in vivo by its capacity to restore gas exchange in an established model of surfactant deficiency in rats. CsA-surfactant, RPM-surfactant or surfactant alone was instilled intratracheally and blood gases were measured under standardized ventilatory conditions.
Minimal surface tension of surfactant-CsA was comparable with that of surfactant alone, whereas minimal surface tension of the surfactant-RPM mixture was increased. In vivo partial arterial oxygen pressure levels increased immediately to prelavage values after instillation of CsA-surfactant, RPM-surfactant and surfactant only and were comparable during the entire study period.
The activity of a naturally derived surfactant was affected when mixed with RPM but not when mixed with CsA at the used concentrations.
Clinical physiology and functional imaging 12/2006; 26(6):357-61. · 1.21 Impact Factor
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ABSTRACT: The open lung concept (OLC) is a method of ventilation intended to maintain end-expiratory lung volume by increased airway pressure. Since this could increase right ventricular afterload, we studied the effect of this method on right ventricular afterload in patients after cardiac surgery.
We studied 24 stable patients after coronary artery surgery and/or valve surgery with cardiopulmonary bypass. Patients were randomly assigned to OLC or conventional mechanical ventilation (CMV). In the OLC group, recruitment manoeuvres were applied until Pa(o(2))/FI(O(2)) was greater than 50 kPa (reflecting an open lung). This value was maintained by sufficient positive airway pressure. In the CMV group, volume-controlled ventilation was used with a PEEP of 5 cm H(2)O. Cardiac index, right ventricular preload, contractility and afterload were measured with a pulmonary artery thermodilution catheter during the 3-h observation period. Blood gases were monitored continuously.
To achieve Pa(O(2))/Fl(O(2)) > 50 kPa, 5.3 (3) (mean, SD) recruitment attempts were performed with a peak pressure of 45.5 (2) cm H(2)O. To keep the lung open, PEEP of 17.0 (3) cm H(2)O was required. Compared with baseline, pulmonary vascular resistance and right ventricular ejection fraction did not change significantly during the observation period in either group.
No evidence was found that ventilation according to the OLC affects right ventricular afterload.
BJA British Journal of Anaesthesia 10/2004; 93(3):327-32. · 4.24 Impact Factor
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ABSTRACT: Agreement between continuously measured oxygen consumption during quantitative closed system anaesthesia and intermittently Fick-derived calculated oxygen consumption was assessed in 11 patients undergoing simultaneous occlusion of the aorta and inferior vena cava for hypoxic treatment of pancreatic cancer. All patients were mechanically ventilated using a quantitative closed system anaesthesia machine (PhysioFlex) and had pulmonary and radial artery catheters inserted. During the varying haemodynamic conditions that accompany this procedure, 73 paired measurements were obtained. A significant correlation between Fick-derived and closed system-derived oxygen consumption was found (r = 0.78, p = 0.006). Linear regression showed that Fick-derived measure = [(1.19 x closed system derived measure) - 72], with the overall closed circuit-derived values being higher. However, the level of agreement between the two techniques was poor. Bland-Altman analysis found that the bias was 36 ml.min(-1), precision 39 ml.min(-1), difference between 95% limits of agreement 153 ml.min(-1). Therefore, we conclude that the two measurement techniques are not interchangeable in a clinical setting.
Anaesthesia 05/2003; 58(4):377-84. · 2.96 Impact Factor
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ABSTRACT: Disturbances in lung function and lung mechanics are present after ventilation with high peak inspiratory pressures (PIP) and low levels of positive end-expiratory pressure (PEEP). Therefore, the authors investigated whether partial liquid ventilation can re-establish lung function after ventilation-induced lung injury. Adult rats were exposed to high PIP without PEEP for 20 min. Thereafter, the animals were randomly divided into five groups. The first group was killed immediately after randomization and used as an untreated control. The second group received only sham treatment and ventilation, and three groups received treatment with perfluorocarbon (10 mL x kg(-1), 20 mL x kg(-1), and 20 ml x kg(-1) plus an additional 5 mL x kg(-1) after 1 h). The four groups were maintained on mechanical ventilation for a further 2-h observation period. Blood gases, lung mechanics, total protein concentration, minimal surface tension, and small/large surfactant aggregates ratio were determined. The results show that in ventilation-induced lung injury, partial liquid ventilation with different amounts of perflubron improves gas exchange and pulmonary function, when compared to a group of animals treated with standard respiratory care. These effects have been observed despite the presence of a high intra-alveolar protein concentration, especially in those groups treated with 10 and 20 mL of perflubron. The data suggest that replacement of perfluorocarbon, lost over time, is crucial to maintain the constant effects of partial liquid ventilation.
European Respiratory Journal 08/2001; 18(1):93-9. · 5.89 Impact Factor
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ABSTRACT: It has been demonstrated that pulmonary surfactant plays a role in the pathophysiology of ventilation-induced lung injury (VILI). Therefore, we investigated whether exogenous surfactant might restore lung function and lung mechanics in an established model of VILI.
Prospective, randomized, animal study.
Experimental laboratory of a university.
Twenty-four adult male Sprague-Dawley rats.
First, a group of six animals were killed immediately after induction of anesthesia and used as healthy controls. Then, in 18 rats, VILI was induced by increasing peak inspiratory pressure (PIP) to 45 cmH2O without positive end-expiratory pressure (PEEP) for 20 min. Thereafter, animals were randomly divided into three groups of six animals each: one group was killed immediately after VILI and served as VILI-control. In the other two groups, ventilator settings were changed to a PIP of 30 cmH2O and a PEEP of 10 cmH2O, and a respiratory rate of 40 bpm. One group received a bolus of surfactant and the other group received no treatment.
Blood gas tension and arterial blood pressures were recorded every 30 min for 2 h. After the study period, a pressure-volume curve was recorded. Then, a broncho-alveolar lavage (BAL) was performed to determine protein content, minimal surface tension, and surfactant composition in the BAL fluid. Oxygenation, lung mechanics, surfactant function and composition were significantly improved in the surfactant-treated group compared to the ventilated and non-ventilated control groups.
We conclude that exogenous surfactant can be used to treat VILI.
Intensive Care Medicine 04/2001; 27(3):559-65. · 5.40 Impact Factor
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ABSTRACT: The use of a ventilation strategy with high positive end-expiratory pressure (PEEP) that is intended to recruit collapsed alveoli and to prevent recurrent collapse can reduce alveolar protein influx in experimental acute lung injury (ALI). This could affect the pulmonary response to treatment with surfactant, since plasma proteins inhibit surfactant function. We studied the effect of exogenous surfactant on lung mechanics after 4 h of mechanical ventilation with high or low PEEP. Twenty-two adult male Sprague-Dawley rats were anaesthetized, tracheotomized and submitted to pressure-controlled mechanical ventilation with 100% oxygen. One group served as healthy controls (n = 6). In the remaining animals acute lung injury was induced by repeated lung lavages to obtain a PaO2 < 13 kPa during ventilation with a peak inspiratory pressure (PIP) of 26 cm H2O and a PEEP of 6 cm H2O. These animals were allocated randomly to ventilation with high PEEP (n = 8; 100 breaths min-1, I:E = 1:1 PIP 35 cm H2O, PEEP 18 cm H2O) or to conventional mechanical ventilation (PIP 28 cm H2O, PEEP 8 cm H2O; n = 8; ventilated control group). After 4 h of ventilation, all animals were given surfactant (120 mg kg-1) via the trachea and ventilation was continued for 15 min. At the end of the study, pressure-volume curves were constructed to measure total lung capacity at 35 cm H2O (TLC35) and maximal compliance (Cmax), and bronchoalveolar lavage was then used to measure alveolar protein influx. After lavage, PaO2, remained around 13 kPa in the ventilated control group and was > 66 kPa in the high-PEEP group. After surfactant treatment, PaO2 increased to > 53 kPa in both groups. In the ventilated control group alveolar protein influx was greater and TLC35 and Cmax were lower than in the high-PEEP group. We conclude that the pulmonary response to exogenous surfactant after mechanical ventilation in experimental ALI is improved when a ventilation strategy with high PEEP is used.
BJA British Journal of Anaesthesia 12/2000; 85(5):752-6. · 4.24 Impact Factor
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ABSTRACT: To demonstrate that under well-defined conditions, pressure-controlled ventilators (PCV) allow settings that are as good as high-frequency oscillatory ventilators (HFOV) at preserving the function of exogenous surfactant in lung-lavaged rats.
Experimental, comparative study.
Research laboratory of a large university.
Sixteen adult male Sprague-Dawley rats (280-310 g).
Lung injury was induced by repeated lavage. After last lavage, all animals received exogenous surfactant and were then randomly assigned to two groups (n = 8 per group). The first group received PCV with small pressure amplitudes and high positive end-expiratory pressure. The second group received HFOV. In both groups, an opening maneuver was performed by increasing airway pressure to improve PaO2/F(IO2) to > or =500 torr.
Blood gases were measured every 30 mins for 3 hrs. Airway pressures were measured with a tip catheter pressure transducer. At the end of the study period, a pressure-volume curve was recorded and a broncho-alveolar lavage was performed to determine protein content and surfactant composition. The results showed that arterial oxygenation in both groups could be kept >500 torr during the 3-hr study period by using a mean airway pressure of 13+/-3 cm H2O in PCV and 13+/-2 cm H2O in HFOV. Further, there were no differences in the Gruenwald index, protein influx, or ratio of small to large aggregates between the study groups.
PCV with sufficient level of positive end-expiratory pressure and small driving pressure amplitudes is as effective as HFOV to maintain optimal gas exchange, to improve lung mechanics, and to prevent protein influx and conversion of large into small aggregates after exogenous surfactant therapy in lung-lavaged rats.
Critical Care Medicine 08/2000; 28(8):2921-5. · 6.33 Impact Factor
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ABSTRACT: To evaluate whether mechanical ventilation using "the open lung concept" during surfactant depletion can attenuate the deterioration in pulmonary function.
Experimental, comparative study.
Research laboratory of a large university.
Eighteen adult male Sprague-Dawley rats, weighing 280-340 g.
Twelve rats were anesthetized, mechanically ventilated with 100% oxygen, and randomly divided into two groups (n = 6 each). The open lung group underwent six saline lavages at different ventilator settings that prevented alveolar collapse. The settings (expressed as frequency/peak inspiratory pressure/positive end-expiratory pressure/inspiratory:expiratory ratio) were 30/26/6/1:2 during the first lavage, 100/27/10/1:1 during the next two lavages, and 100/33/15/1:1 during the last three lavages and during the remaining ventilation period. The ventilated control group underwent six saline lavages with settings at 30/26/6/1:2. After the lavages, peak inspiratory pressure and positive end-expiratory pressure were increased in this group by 2 cm H2O each for the remaining study period. An additional group of six animals were killed immediately after induction of anesthesia and served as healthy controls. Blood gases were measured before lavage, immediately after the last lavage, and thereafter hourly. At the end of the 4-hr study period, we constructed pressure-volume curves from which we determined total lung capacity at a distending pressure of 35 cm H2O (TLC35). Subsequently, total lung volume at a distending pressure of 5 cm H2O (V5) was determined, followed by bronchoalveolar lavage.
In the ventilated control group, PaO2, V5, and TLC35 were significantly decreased and protein concentration of bronchoalveolar lavage was significantly increased compared with the healthy control group. In the open lung group, PaO2 did not decrease after the lavage procedure, and V5, TLC35, and the protein concentration of bronchoalveolar lavage were comparable with the healthy controls.
We conclude that application of the open lung concept during surfactant depletion attenuates deterioration in pulmonary function.
Critical Care Medicine 06/2000; 28(5):1450-4. · 6.33 Impact Factor
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ABSTRACT: Two commonly used techniques in experimental lung research have helped to determine which variables influence surfactant distribution within the lung: radioactive labelling of surfactant components and admixture of coloured microspheres to surfactant. However, neither technique allows the description of surfactant distribution at the alveolar level. The aim of this study was to establish a new technique using histology colourants for admixture to exogenous surfactant to make exogenous surfactant visible by light microscopy. In a step by step approach the authors evaluated the properties of a variety of green colourants when added to a natural porcine surfactant preparation for their ability to homogeneously mix with surfactant, to bind to surfactant, to adhere to a glass slide, to not be "overstained" by standard haematoxylin-eosin and Elastica van Giesson staining, to not influence in vitro surface tension properties of surfactant using a Wilhelmy balance, to not influence oxygenation and ventilation in a lung-lavage rat model and to preserve their colour and adherence to exogenous surfactant on lung specimens visualized by light microscopy. Only one of the tested green histology colourants (Green Dye) fulfilled all requirements and showed a brilliant green colour in a distribution pattern typical of surfactant at the alveolar level. It is concluded that the authors have established a new, simple and inexpensive method of staining exogenous surfactant for evaluation of its distribution by light microscopy at the alveolar level.
European Respiratory Journal 06/2000; 15(5):949-54. · 5.89 Impact Factor
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ABSTRACT: High-frequency oscillation studies have shown that ventilation at high end-expiratory lung volumes combined with small volume cycles at high rates best preserves exogenous surfactant and gas exchange in lavaged lungs. We investigated whether surfactant composition and gas exchange can also be preserved by conventional modes of mechanical ventilation, which combine high levels of positive end-expiratory pressure (PEEP) with small pressure amplitudes.
Prospective, randomized, nonblinded, controlled study.
Research laboratory.
Thirty male Sprague-Dawley rats.
Rats were lung-lavaged and treated with exogenous surfactant (100 mg/kg). After 5 mins, four different ventilator settings (F(IO)2 = 1.0) were applied for 3 hrs in four groups of rats [peak inspiratory pressure (cm H2O); static PEEP (cm H2O); inspiratory/expiratory ratio; frequency], as follows: 26/2/1:2/30 (group 26/2), 26/6/1:2/30 (group 26/6), 20/10/1:2/30 (group 20/ 10-static), and 20/6/7:3/130, creating an auto PEEP of 4 cm H2O (group 20/10-auto).
In all groups, Pao2 increased immediately to prelavage values after surfactant therapy. In group 26/2, Pao2 deteriorated to postlavage values within 30 mins when PEEP was decreased to 2 cm H2O, whereas Pao2 remained stable for 3 hrs in the other groups. The Paco2 increased in groups 26/2 and 20/10-static; Paco2 could not be reduced by increasing ventilation frequency to 130 in group 20/10-static. Groups 26/6 and 20/10-auto remained normocapnic. Bronchoalveolar lavage protein concentration was higher in groups 26/2 and 26/6 compared with groups 20/10-static and 20/10-auto. There was significantly more conversion of surface active large aggregates into nonactive small aggregates in group 26/2 compared with groups 20/10-static and 20/10-auto.
We conclude that exogenous surfactant composition is preserved by conventional modes of mechanical ventilation that use small pressure amplitudes, and adequate oxygenation is maintained by high end-expiratory pressure levels. Effective carbon dioxide removal can be achieved by applying a ventilation mode that creates auto PEEP and not by a mode that applies the same level of PEEP by static PEEP only.
Critical Care Medicine 01/2000; 27(12):2724-8. · 6.33 Impact Factor
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ABSTRACT: The aim of this study was to compare high-frequency oscillatory ventilation (HFOV) with conventional mechanical ventilation (CMV) with and without surfactant in the treatment of surfactant-deficient rabbits. A previously described saline lung lavage model of lung injury in adult rabbits was used. The efficacy of each therapy was assessed by evaluating gas exchange, lung deflation stability and lung histopathology. Arterial oxygenation did not improve in the CMV group without surfactant but increased rapidly to prelavage values in the other three study groups. During deflation stability, arterial oxygenation decreased to postlavage values in the group that received HFOV alone, but not in both surfactant-treated groups (HFOV and CMV). The HFOV group without surfactant showed more cellular infiltration and epithelial damage compared with both surfactant-treated groups. There was no difference in gas exchange, lung deflation stability and lung injury between HFOV and CMV after surfactant therapy. It is concluded that the use of surfactant therapy in combination with high-frequency oscillatory ventilation is not superior to conventional mechanical ventilation in improving gas exchange, lung deflation stability and in the prevention of lung injury, if lungs are kept expanded. This indicates that achieving and maintaining alveolar expansion (i.e. open lung) is of more importance than the type of ventilator.
European Respiratory Journal 11/1999; 14(4):738-44. · 5.89 Impact Factor
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ABSTRACT: To demonstrate in experimental animals with respiratory insufficiency that under well-defined conditions, commercially available ventilators allow settings which are as effective as high-frequency oscillatory ventilators (HFOV), with respect to the levels of gas exchange, protein infiltration, and lung stability.
Prospective, randomized, animal study.
Experimental laboratory of a university. Subjects: 18 adult male Sprague-Dawley rats.
Lung injury was induced by repeated whole-lung lavage. Thereafter, the animals were assigned to pressure-controlled ventilation (PCV) plus The Open Lung Concept (OLC) or HFOV plus OLC (HFO(OLC)). In both groups, an opening maneuver was performed by increasing airway pressures to improve the arterial oxygen tension/fractional inspired oxygen (PaO(2)/FIO(2)) ratio to L 500 mm Hg; thereafter, airway pressures were reduced to minimal values, which kept PaO(2)/FIO(2) L 500 mm Hg. Pressure amplitude was adjusted to keep CO(2) as close as possible in the normal range.
Airway pressure, blood gas tension, and arterial blood pressure were recorded every 30 min. At the end of the 3-h study period, a pressure-volume curve was recorded and bronchoalveolar lavage was performed to determine protein content. After the recruitment maneuver, the resulting mean airway pressure to keep a PaO(2)/FIO(2) L 500 mm Hg was 25 +/- 1.3 cm H(2)O during PCV(OLC) and 25 +/- 0.5 cm H(2)O during HFOV(OLC). Arterial oxygenation in both groups was above L 500 mm Hg and arterial carbon dioxide tension was kept close to the normal range. No differences in mean arterial pressure, lung mechanics and protein influx were found between the two groups.
This study shows that in surfactant-deficient animals, PCV, in combination with a recruitment maneuver, opens atelectatic lung areas and keeps them open as effectively as HFOV.
Intensive Care Medicine 10/1999; 25(9):990-6. · 5.40 Impact Factor
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ABSTRACT: 1. The use of pulmonary exogenous surfactant as a vehicle for intratracheally administered antibiotics to improve local antimicrobial therapy has been proposed. The present study investigated lung clearance rates in the rat of intratracheally instilled technetium labelled tobramycin with and without the addition of surfactant to the antibiotic solution. 2. The influence of surfactant on 99mTc-tobramycin lung clearance rates was studied dynamically with a gamma-camera in anaesthetized spontaneously breathing animals and in mechanically ventilated animals. 3. The results show that instillation of 99mTc-tobramycin with use of surfactant as vehicle significantly increases 99mTc-tobramycin lung clearance compared to instillation of 99mTc-tobramycin solution alone (P=0.006 between the two spontaneously breathing groups of animals and P=0.02 between the two ventilated groups of animals, ANOVA for repeated time measurements). The half life (t1/2) of composite clearance curves in spontaneous breathing animals was 147 min for animals receiving 99mTc-tobramycin versus 61 min for animals receiving 99mTc-tobramycin with surfactant. In mechanically ventilated animals this was 163 min versus 51 min, respectively. 4. It is concluded that exogenous surfactant, used as vehicle for intratracheally instilled 99mTc-tobramycin, increases lung clearance rate of 99mTc-tobramycin in rats.
British Journal of Pharmacology 04/1999; 126(5):1091-6. · 4.41 Impact Factor
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ABSTRACT: Zusammenfassung Unabhngig von der tiologie liegt beim ARDS immer eine Permeabilittsstrung der alveolarkapillaren Membran mit Einstrom von Plasmaproteinen vor. Da diese Proteine jedoch zu einer funktionellen Hemmung des Surfactant-Systems fhren, folgt daraus, da bei jeder akuten respiratorischen Insuffizienz mit einem kapillren "leakage" auch immer pathologisch vernderte Oberflchenspannungen an der Grenzflche Alveolarepithel-Luft vorliegen. Letztere lassen sich am einfachsten durch die exogene Zufuhr von oberflchenaktivem Material wieder normalisieren. Zahlreiche Fallbeispiele aber auch erste Studien besttigen dieses rationale Therapiekonzept. Summary Independent of the cause, in ARDS there is a disturbed permeability of the alveolo-capillary membrane with influx of plasma proteins. These plasma proteins can inhibit the surfactant system, and therefore, in ARDS there is always a pathologically changed surface tension at the air-liquid interface because of the capillary leakage. This decreased surface tension is most easily normalized by application of exogenous surface active material. Numerous case reports but also the first clinical studies confirm this rational treatment concept.
Intensivmedizin + Notfallmedizin 01/1999; 36(9):S070-S074.
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ABSTRACT: We have compared three treatment strategies, that aim to prevent repetitive alveolar collapse, for their effect on gas exchange, lung mechanics, lung injury, protein transfer into the alveoli and surfactant system, in a model of acute lung injury. In adult rats, the lungs were ventilated mechanically with 100% oxygen and a PEEP of 6 cm H2O, and acute lung injury was induced by repeated lung lavage to obtain a PaO2 value < 13 kPa. Animals were then allocated randomly (n = 12 in each group) to receive exogenous surfactant therapy, ventilation with high PEEP (18 cm H2O), partial liquid ventilation or ventilation with low PEEP (8 cm H2O) (ventilated controls). Blood-gas values were measured hourly. At the end of the 4-h study, in six animals per group, pressure-volume curves were constructed and bronchoalveolar lavage (BAL) was performed, whereas in the remaining animals lung injury was assessed. In the ventilated control group, arterial oxygenation did not improve and protein concentration of BAL and conversion of active to non-active surfactant components increased significantly. In the three treatment groups, PaO2 increased rapidly to > 50 kPa and remained stable over the next 4 h. The protein concentration of BAL fluid increased significantly only in the partial liquid ventilation group. Conversion of active to non-active surfactant components increased significantly in the partial liquid ventilation group and in the group ventilated with high PEEP. In the surfactant group and partial liquid ventilation groups, less lung injury was found compared with the ventilated control group and the group ventilated with high PEEP. We conclude that although all three strategies improved PaO2 to > 50 kPa, the impact on protein transfer into the alveoli, surfactant system and lung injury differed markedly.
BJA British Journal of Anaesthesia 01/1999; 82(1):81-6. · 4.24 Impact Factor
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ABSTRACT: Changes in pulmonary edema infiltration and surfactant after intermittent positive pressure ventilation with high peak inspiratory lung volumes have been well described. To further elucidate the role of surfactant changes, the authors tested the effect of different doses of exogenous surfactant preceding high peak inspiratory lung volumes on lung function and lung permeability.
Five groups of Sprague-Dawley rats (n = 6 per group) were subjected to 20 min of high peak inspiratory lung volumes. Before high peak inspiratory lung volumes, four of these groups received intratracheal administration of saline or 50, 100, or 200 mg/kg body weight surfactant; one group received no intratracheal administration. Gas exchange was measured during mechanical ventilation. A sixth group served as nontreated, nonventilated controls. After death, all lungs were excised, and static pressure-volume curves and total lung volume at a transpulmonary pressure of 5 cm H2O were recorded. The Gruenwald index and the steepest part of the compliance curve (Cmax) were calculated. A bronchoalveolar lavage was performed; surfactant small and large aggregate total phosphorus and minimal surface tension were measured. In a second experiment in five groups of rats (n = 6 per group), lung permeability for Evans blue dye was measured. Before 20 min of high peak inspiratory lung volumes, three groups received intratracheal administration of 100, 200, or 400 mg/ kg body weight surfactant; one group received no intratracheal administration. A fifth group served as nontreated, nonventilated controls.
Exogenous surfactant at a dose of 200 mg/kg preserved total lung volume at a pressure of 5 cm H2O, maximum compliance, the Gruenwald Index, and oxygenation after 20 min of mechanical ventilation. The most active surfactant was recovered in the group that received 200 mg/kg surfactant, and this dose reduced minimal surface tension of bronchoalveolar lavage to control values. Alveolar influx of Evans blue dye was reduced in the groups that received 200 and 400 mg/kg exogenous surfactant.
Exogenous surfactant preceding high peak inspiratory lung volumes prevents impairment of oxygenation, lung mechanics, and minimal surface tension of bronchoalveolar lavage fluid and reduces alveolar influx of Evans blue dye. These data indicate that surfactant has a beneficial effect on ventilation-induced lung injury.
Anesthesiology 09/1998; 89(2):467-74. · 5.36 Impact Factor
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ABSTRACT: Paraquat is a weed killer which causes often fatal lung damage in humans and other animals. There is evidence that the pulmonary surfactant system is involved in the pathophysiology of respiratory failure after paraquat intoxication and, therefore, the possible therapeutic effect of intratracheal surfactant administration on gas exchange in rats with progressive lung injury induced by paraquat poisoning was studied. In one group of rats, the time course of the development of lung injury due to paraquat intoxication was characterized. In a second group of rats, 72 h after paraquat intoxication, the animals underwent mechanical ventilation and only those animals in which the arterial oxygen tension/inspiratory oxygen fraction (Pa,O2/FI,O2) decreased to below 20 kPa (150 mmHg) received exogenous surfactant (200 mg x kg(-1) body weight). Within 3 days the rats in group 1 developed progressive respiratory failure, demonstrated not only by impaired gas exchange and lung mechanics but also by increased minimal surface tension and increased protein concentration in bronchoalveolar lavage fluid. In group 2, intratracheal surfactant administration increased Pa,O2/FI,O2 significantly within 5 min (14.4+/-2.4 kPa (108+/-18 mmHg)) to (55.2+/-53 kPa (414+/-40 mmHg)) and sustained this level for at least 2 h. It is concluded that intratracheal surfactant administration is a promising approach in the treatment of severe respiratory failure caused by paraquat poisoning.
European Respiratory Journal 09/1998; 12(2):284-7. · 5.89 Impact Factor
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ABSTRACT: To assess whether bronchoalveolar lavage (BAL) with a diluted surfactant suspension prior to surfactant instillation prevents the only transient improvement in lung function as reported after surfactant instillation in severe acute respiratory distress syndrome (ARDS).
Randomized, prospective, experimental study.
Laboratory and animal facility of a large university.
Adult male Sprague-Dawley rats (280 +/- 30 g).
All animals underwent repetitive whole lung saline lavage to induce acute lung injury. Then, animals were randomly divided into seven study groups: the first group received surfactant (150 mg/ kg) within 10 min after the last lavage (early treatment), whereas in the other six groups mechanical ventilation was continued for 3 h before treatment (late treatment). Treatment consisted of: surfactant instillation at a dose of 150 mg/kg; at a dose of 250 mg/kg; BAL with saline; BAL with a diluted surfactant suspension (2.5 mg/ml); BAL with saline, immediately followed by surfactant instillation (150 mg/kg) and BAL with a diluted surfactant suspension (2.5 mg/kg), immediately followed by surfactant instillation (150 mg/kg).
Blood gases were measured for 6 h and then BAL was performed to measure the protein concentration and surface tension properties. Mean PaO2 values increased immediately after surfactant instillation to pre-lavage values but remained stable only in the group that received surfactant immediately after the lavage procedure and the group that underwent BAL with a diluted surfactant suspension prior to surfactant instillation.
BAL with a diluted surfactant suspension prior to surfactant instillation at a later time point in lung injury resulted in a stable improvement of lung function. This improvement is comparable with the results seen after surfactant instillation immediately after lung lavage.
Intensive Care Medicine 06/1998; 24(5):494-500. · 5.40 Impact Factor
