Frequency of technical problems encountered in the measurement of pulmonary artery wedge pressure

A total of 2711 pulmonary artery wedge pressure (WP) measurement attempts were made prospectively from WP recordings in 44 (30 men) critically ill patients, using 77 flow-directed catheters. Of these, 322 (12%) failed to yield a WP measurement, and 521 (18%) were associated with technical problems. One half of these technical problems were due to poor dynamic response or damped pressure tracings; other problems included balloon overinflation, partial WP, and inability to aspirate blood from the pulmonary artery (PA) port. Only 50% of wedge blood sampled at the time of initial PA catheterization yielded capillary blood (PO2 greater than or equal to 10 torr higher than PaO2). In 12 stable patients in whom paired measurements were available, there were clinically important differences (-13 to +22 torr) between paired WP measurements made before and after rapid correction of technical problems. Technical problems are common and may be associated with clinically important errors. Those due to poor dynamic response are easily and rapidly detected at the bedside.     

Effect of bronchial blood flow on pulmonary artery wedge pressure with pulmonary embolism

Discrepancies between pulmonary artery wedge pressure (WP) and left atrial pressure (LAP) occur with pulmonary embolism. Theoretically, this discrepancy could be affected by the bronchial circulation or by the type of embolus. To test this in dogs, we determined the effects of embolism induced by glass beads and by air upon the WP with intact vs. ligated bronchial blood flow to the left lower lobe. For those animals receiving pulmonary air infusions, the pulmonary artery pressure, WP, and pulmonary vascular resistance showed significant (p less than .05) elevations with no change in LAP. There were no changes in these values when the bronchial blood flow was interrupted. When glass beads (120 mu) were injected into the left lower lobe, the pulmonary artery pressure and pulmonary vascular resistance rose as in the air emboli groups (p less than .05); however, WP remained at control values and approximated LAP. Obstructing the bronchial blood flow did not change this response. We conclude that the discrepancy between WP and LAP depends upon the type of embolus and is not affected by bronchial blood flow.     

Frequency of wedge pressure errors in the ICU

Using 94 flow-directed pulmonary artery catheters in 53 ICU patients, we obtained prospectively 282 pulmonary artery wedge pressure (WP) measurements from 286 attempts. After catheter manipulation, 96% of these WP measurements were ultimately free of technical problems, and 84% were confirmed by aspiration of pulmonary capillary blood from the wedge position. The 95% confidence interval for repeated measurements of WP in stable ICU patients was 4 mm Hg. The WP measurement error was defined as the difference between unconfirmed and confirmed WP pairs obtained from stable patients. The probability of encountering a WP measurement error of at least 4 mm Hg was 33% for the 93 WP measurements with technical problems, 5% for the 189 WP measurements without technical problems, and 14% for the entire set of 286 WP measurement attempts. Quality control procedures, including dynamic response testing, easily identified most errors.     

Pulmonary capillary pressures during hypoxia and hypoxemia: experimental and clinical studies

Unlike the systemic circulation, the pulmonary vasculature constricts in response to hypoxia to divert blood flow to better-ventilated segments. The site of this response, the hypoxic pulmonary vasoconstriction, has been reported as precapillary in numerous experimental models of isolated animal lungs. In the present study, the response of intact chest dog and human lungs to hypoxia and hypoxemia, respectively, was also precapillary vasoconstriction. In dogs, hypoxia in the ipsilateral lung attenuated the normal vertical blood flow gradient. Contralateral hypoxia did not alter pulmonary regional blood flow, precapillary (Ra), postcapillary, or total pulmonary vascular resistance. In patients, an elevated alveolar-arterial oxygen pressure gradient of 50 to 150 torr resulted in significantly increased Ra. Further hypoxemia did not increase this response. In addition, the effective pulmonary capillary pressure did not bear a constant relationship to the pulmonary artery occlusion or wedge pressure (WP). Therefore, in patients in respiratory failure, WP does not reliably estimate hydrostatic pressure at the pulmonary capillaries.     

Reliability of right atrial pressure monitoring to assess left ventricular preload in critically ill septic patients

Right atrial pressure (RAP) can be used as a guide to fluid therapy in critical care settings. RAP and pulmonary capillary wedge pressure (WP) were measured in 27 septic patients without cardiac disease and on mechanical ventilation. An r of .61 was obtained with a regression line defined by the equation WP = 7.38 + (0.53 x RAP) +/- 3.15. However, a large SD of data points can invalidate the clinical usefulness of this equation. The reliability of various RAP interval values in predicting optimal WP was then studied in these patients. We concluded that RAP values less than or equal to 5 mm Hg were highly specific (97%) in predicting low or normal WP (less than or equal to 12 mm Hg).     

Hemodynamic and colloid osmotic pressure alterations in the surgical patient

Colloid osmotic pressure (COP) was measured simultaneously with cardiorespiratory measurements in 103 surgical patients suspected of having circulatory problems. In a small subset of 28 patients, measurements were taken before, during, and after surgical operations. Similarly, data sets were taken before, during, and after infusions of colloids and crystalloids to assess the interactions of these variables during the stress of surgery and the administration of fluid therapy. COP was found to decrease during and shortly after surgical operations despite reasonably well-maintained pressure, volume, and flow variables. Concentrated (25%) albumin and plasma protein fraction (PPF) increased COP, cardiac index (CI), CVP, pulmonary capillary wedge pressure (WP), and blood volume, whereas crystalloids transiently increased CI, CVP, and WP but did not significantly change COP and blood volume. Low COP values were weakly related to survival, and COP-WP differences less than or equal to 3 mm Hg were roughly related to ARDS and pulmonary edema.     

Effect of increasing inspired oxygen concentration on hemodynamics and regional blood flows

Previous reports suggest that in response to increasing FIO2, peripheral resistance increases, cardiac output falls, and regional blood flow decreases. This study examined the influence of varying FIO2 on pulmonary and systemic vascular resistances (PVR, SVR), cardiac output, ventricular work, and regional blood flows in ten anesthetized Yorkshire white pigs. Each animal served as its own control, and was exposed to varying FIO2 in random order. PCO2 was maintained at 40 +/- 5 torr and body temperature at 38.5 degrees C. Heart rate, systemic arterial pressure, pulmonary artery pressure (PAP), pulmonary capillary wedge pressure, thermodilution cardiac output, and blood flows in the femoral, carotid, renal and superior mesenteric arteries were measured at each FIO2. SVR, PVR, left and right ventricular stroke work (LVSW, RVSW) were calculated. One-way analysis of variance-randomized block design (F-test) showed significant decreases in PAP, PVR, and RVSW with increased FIO2. No change was noted in regional flows, cardiac output, SVR, or LVSW. We conclude that in this animal model administration of oxygen up to an FIO2 of 1.0 had no adverse effect on hemodynamic performance.     

Effects of pentastarch and albumin infusion on cardiorespiratory function and coagulation in patients with severe sepsis and systemic hypoperfusion

Twenty consecutive patients with severe sepsis were randomized to fluid challenge with 5% albumin or 10% low MW hydroxyethyl starch (pentastarch) solutions. Fluid challenge was administered iv as 250 ml of test colloid every 15 min until the pulmonary artery wedge pressure (WP) was greater than or equal to 15 mm Hg or a maximum dose of 2000 ml was infused. Hemodynamic, respiratory, and coagulation profiles were measured before and after fluid infusion. The amount of colloid required to achieve a WP of 15 mm Hg was comparable between groups. Both colloid infusions resulted in similar increases in cardiac output, stroke output, and stroke work. The effect of fluid infusion with pentastarch on coagulation was not significantly different from albumin, although pentastarch was associated with a 45% decrease in factor VIII:c. We conclude that pentastarch is equivalent to albumin for fluid resuscitation of patients with severe sepsis.     

Reliability of measurements of pulmonary artery pressure obtained with patients in the 60 degrees lateral position.

BACKGROUND: Monitoring of pulmonary artery pressure is an essential component of the care of critically ill patients. The conditions under which reliable measurements can be obtained must be clarified. OBJECTIVES: To determine (1) whether reliable measurements of pulmonary artery pressure can be obtained with patients in the right or left 60 degrees lateral position and (2) which characteristics of patients preclude obtaining reliable measurements. METHODS: One hundred five patients (65 cardiac surgery, 40 general medicine) with pulmonary artery catheters were enrolled in a prospective, stratified, quasi-experimental study. Subjects were repositioned from supine (head of bed elevated < 30 degrees with 1 pillow) to the left and right 60 degrees lateral positions. Systolic, diastolic, and mean pulmonary artery pressures and pulmonary capillary wedge pressure were measured before and 5, 10, and 20 minutes after lateral repositioning. The zero reference was the phlebostatic axis when patients were supine and the dependent midclavicular line at the level of the fourth intercostal space when patients were in the lateral positions. RESULTS: In most patients, measurements obtained with patients in the lateral position differed significantly from measurements obtained with patients supine. None of the variables examined were reliable predictors of which patients would have these differences. More than 11% of the patients had clinically significant differences in addition to the statistically significant differences. CONCLUSION: Reliable measurements of pulmonary artery pressure and pulmonary capillary wedge pressure cannot be obtained with patients in the 60 degrees lateral position.     

Effects of Escherichia coli endotoxin on pulmonary vascular resistance in intact dogs

The effects of endotoxin on pulmonary hemodynamics were studied in seven intact dogs. The distribution of pulmonary vascular resistance was estimated by the effective pulmonary capillary pressure, which was derived from the pressure transient recorded while the pulmonary artery catheter was rapidly wedged. After the injection of endotoxin, cardiac output and aortic pressure consistently fell. Pulmonary artery occlusion (wedge) pressure also decreased, but not significantly. Although pulmonary artery pressure did not necessarily rise, total pulmonary vascular resistance increased in every dog. The absolute increase in pulmonary artery resistance was greater (142 mm Hg/L X min/kg); than in venous resistance (111 mm Hg/L X min/kg); however, the relative increase in venous resistance was higher (410% for venous resistance vs. 220% for pulmonary artery resistance). As a result of venoconstriction, there was a consistent increase in effective pulmonary capillary pressure (from 2.5 to 6.3 mm Hg). Our data indicate that the pulmonary vascular response to endotoxin injection is characterized by constriction of both pulmonary arteries and pulmonary veins. The capillary wedge pressure did not reflect the pulmonary microvascular pressure, since it varied in the opposite direction to the effective capillary pressure.     

Comparison of Pulmonary Artery Pressure Measurements in the Supine and 60° Lateral Positions Leanne is continuing this research in her doctoral studies

Pulmonary artery pressure monitoring, with the patient in both the supine and lateral positions, is an essential element in the assessment of critically ill patients. Previous work offers conflicting results regarding the accuracy of measurements obtained with the patient in the lateral position. The purpose of this study was to determine if accurate pulmonary artery pressure measurements can be obtained in the cardiac surgical patient. Thirty-five patients underwent repositioning between the supine and both the left and right 60° lateral position while being mechanically ventilated and then breathing spontaneously. Pulmonary artery pressure measurements were recorded prior to, two minutes following and ten minutes following repositioning. Despite some variation in results the pulmonary capillary wedge pressure measurement was reliable ten minutes after repositioning in both the spontaneously breathing and mechanically ventilated patient. Other pulmonary artery pressure measurements were not so reliable in the lateral position. This study concludes that clinical practitioners can obtain accurate pulmonary capillary wedge pressure measurements in post-operative cardiac surgical patients positioned in either the left or right 60° lateral position. Further research is however required, with larger numbers from all sub-groups of the critical care population. Physiological and pathophysiological characteristics which preclude reliable pulmonary artery pressure measurements need to be identified.     

Pretreatment with pentoxifylline improves the hemodynamic and histologic changes and decreases neutrophil adhesiveness in a pig fecal peritonitis model

We investigated pentoxifylline (PTF) as a pretreatment of septic syndrome in pigs with fecal peritonitis. In the untreated group there was a progressive decrease in mean arterial pressure (MAP), cardiac output, mean pulmonary artery wedge pressure (WP), and a progressive rise in mean pulmonary artery pressure (MPAP), pulmonary vascular resistance (PVR), systemic vascular resistance (SVR), heart rate (HR), and core temperature (T). In those pigs given PTF there was a significantly smaller increase in SVR throughout and in PVR after 270 min. No significant differences were seen in MAP, MPAP, WP, HR, and T. Neutrophil adhesiveness did not change in the untreated group. However, it decreased markedly with PTF, both before and after peritonitis induction. Electron microscopy of the lungs, liver, and spleen in the test group showed severe damage, with endothelial disruption, capillary or sinusoidal occlusion, leukostasis, and neutrophil degranulation. Pretreatment with PTF attenuated these changes.     

Five percent human albumin in lactated Ringer's solution for resuscitation from hemorrhagic shock: efficacy and cardiopulmonary consequences

Using an ovine model of acute hemorrhagic shock, we evaluated the utility of 5% albumin in lactated Ringer's (5% ALR) solution as a resuscitation solution. After instrumentation and obtaining baseline values for BP, mean arterial pressure (MAP), pulmonary capillary wedge pressure (WP), CVP, cardiac output, extravascular lung water (EVLW), and blood gases (mixed venous and arterial), animals were rapidly exsanguinated to an MAP of 50 mm Hg. After 30 min at this pressure, measurements were repeated and 5% ALR was administered until two of three variables (WP, MAP, cardiac output) were restored to baseline values. The administration of 5% ALR was continued as needed to maintain baseline values of these variables. Sixty minutes later, data were again recorded. For induction of shock, 15.7 +/- 5.2 ml of blood/kg body weight was removed. Pulmonary artery pressure, WP, MAP, and cardiac output all significantly decreased with shock. After resuscitation, all values except MAP returned to baseline. The resuscitation volume of 5% ALR was 25.2 +/- 18.4 ml/kg. There were no changes in EVLW or intrapulmonary shunt. Oxygen delivery was significantly compromised during shock but returned to baseline after resuscitation. We conclude that in a model such as ours, 5% ALR can reverse the hemodynamic effects of acute hemorrhagic shock.     

Noncardiac pulmonary edema precipitated by tracheal intubation in patients with inhalation injury

Ten patients with body surface burn and clinical evidence of inhalation injury developed transient, reversible pulmonary edema within 5 min after endotracheal intubation. Hemodynamic studies within 1 hr after intubation revealed normal cardiac output and pulmonary artery wedge pressure (WP). Additionally, in the latter 4 patients, protein concentration of edema fluid (EF) aspirated from the trachea was 58-104% of plasma (P) total protein. These findings suggest that altered capillary permeability was responsible for this transient pulmonary edema. It is postulated that glottic generated expiratory retard may increase alveolar pressure, thus preventing pulmonary edema. Bypass of glottis by tracheal intubation may render alveolar pressure atmospheric and facilitate edema formation.     

Normal fluctuations in pulmonary artery pressures and cardiac output in patients with severe left ventricular dysfunction.

BACKGROUND: One barrier to accurate interpretation of changes in hemodynamic pressures and cardiac output is lack of data about what constitutes a normal fluctuation. Few investigators have examined normal fluctuations in these parameters and none have done so in patients with left ventricular dysfunction. AIMS: To describe normal fluctuations in pulmonary artery pressures and cardiac output in patients with left ventricular dysfunction. METHODS: Hemodynamically stable advanced heart failure patients (N=39; 55+/-6 years old; 62% male) with left ventricular dysfunction (mean ejection fraction 22+/-5%) were studied. Cardiac output and pulmonary artery pressures were measured every 15 min for 2 h. RESULTS: Mean+/-standard deviation fluctuations were as follows: pulmonary artery systolic pressure=7+/-4 mmHg; pulmonary artery diastolic pressure=6+/-3 mmHg; pulmonary capillary wedge pressure=5+/-3 mmHg; cardiac output=0.7+/-0.3 l/min. The coefficient of variation for fluctuations in pulmonary artery systolic pressure was 6.7%, in pulmonary artery diastolic pressure was 9.3%, in pulmonary capillary wedge pressure was 9.2%, and in cardiac output was 7.2%. CONCLUSIONS: Values that vary <8% for pulmonary artery systolic pressure, <11% for pulmonary artery diastolic pressure, <12% for pulmonary capillary wedge pressure, and <9% for cardiac output from baseline represent normal fluctuations in these parameters in patients with left ventricular dysfunction.     

Effect of the 30 degree lateral recumbent position on pulmonary artery and pulmonary artery wedge pressures in critically ill adult cardiac surgery patients.

BACKGROUND: Despite demonstrated benefits of lateral positioning, critically ill patients may require prolonged supine positioning to obtain reproducible hemodynamic measurements. OBJECTIVES: TO determine the effect of 30 degree right and left lateral positions on pulmonary artery and pulmonary artery wedge pressures after cardiac surgery in critically ill adult patients. METHODS: An experimental repeated-measures design was used to study 35 patients with stable hemodynamics after cardiac surgery. Subjects were randomly assigned to 1 of 2 position sequences. Pulmonary artery and pulmonary artery wedge pressures were measured in each position. RESULTS: Measurements obtained from patients in the 30 degree left lateral position differed significantly (all Ps < .05) from measurements obtained from patients in the supine position for pulmonary artery systolic, end-diastolic, and mean pressures. Pulmonary artery wedge pressures did not differ significantly; however, data were available from only 17 subjects. The largest mean difference in pressures between the 2 positions was 2.0 +/- 2.1 mm Hg for pulmonary artery systolic pressures, whereas maximum differences for end-diastolic and pulmonary artery wedge pressures were 1.4 +/- 2.7 mm Hg and 1.6 +/- 2.4 mm Hg, respectively. Clinically significant position-related changes in pressure occurred in 12 (2.1%) of 581 pressure pairs. Clinically significant changes occurred in end-diastolic pressure in 2 subjects and in pulmonary artery wedge pressure in 1 subject. CONCLUSiONS: In patients with stable hemodynamics during the first 12 to 24 hours after cardiac surgery, measurements of pulmonary artery and pulmonary artery wedge pressures obtained in the 30 degree lateral and supine positions are clinically interchangeable.     

Recovery of embolized albumin microspheres from the pulmonary microvasculature using a wedged balloon-tipped catheter

This study was performed to determine if particulate material within the pulmonary vascular bed could be sampled by aspirating blood from a wedged pulmonary artery catheter. 99mTechnetium-labeled albumin microspheres (20 micrometers) were injected and embolized into the precapillary pulmonary vasculature of 6 critically ill and 4 routine diagnostic catheterization patients. Recovery of the particulates was demonstrated by comparing the gamma radioactivity of the wedge blood sample obtained to that of mixed venous blood. The degree of success in the recovery corresponded to the height of the oxygen tension of the wedge blood sample (PWO2). This suggests that the PWO2 may be a useful marker of successful sampling of the pulmonary microvascular bed during wedge aspiration. In wedge samples obtained serially, peak yield of the microspheres was obtained within the first 10 ml whereas peak oxygen tension was obtained at 20 ml of total aspiration volume. Wedge aspiration has promise as a sampling method for microembolized particulates in the investigation of acute pulmonary microvascular diseases.     

Routine daily chest radiography in patients with pulmonary artery catheters.

BACKGROUND: Pulmonary artery catheters are widely used invasive monitoring devices in critically ill patients. Clinicians disagree about whether daily chest radiographs are needed or clinical parameters alone are sufficient to verify catheter placement. OBJECTIVES: To determine whether daily chest radiographs are needed to assess migration of pulmonary artery catheters. METHODS: One hundred consecutive patients with pulmonary artery catheters were prospectively evaluated. Clinical criteria for optimal position of the pulmonary artery catheters and findings on chest radiographs were compared. Optimal clinical criteria were (1) amount of air required to measure pulmonary capillary wedge pressure: 1.25 to 1.5 mL and (2) pulmonary artery catheter migrated 1 cm or less from initial position. RESULTS: Three hundred ninety comparisons of clinical criteria and radiographic findings were done. Chest radiographs indicated the catheter required repositioning in 15 (4%) of 390 instances but in only 4 (1%) of 310 instances in which bedside clinical findings indicated adequate catheter position. In 69 (18%) of the 390 cases, the clinical criteria for adequate catheter position were not met, but radiographs showed the catheter in an appropriate position. The sensitivity, specificity, accuracy, positive predictive value, and negative predictive value of abnormal clinical criteria were 73%, 82%, 81%, 14%, and 99%, respectively. CONCLUSIONS: Chest radiographs indicated that about 4% of catheters required repositioning. Catheter malposition can be reliably excluded (negative predictive value, 99%) by close observation of specific clinical criteria, so routine daily chest radiographs do not seem justified.     

Artifacts in the measurement of pulmonary artery wedge pressure

Pulmonary artery wedge pressure (PAWP) will only reflect left atrial pressure (LAP) if continuity of fluid exists from the catheter tip to the left atrium. Either increased airway pressure or decreased hydrostatic pressure may lead to discontinuity of the fluid column and midinterpretation of PAWP. Simultaneous measurements of PAWP and LAP were made in 19 anesthetized dogs. Placement of the pulmonary artery wedge catheter above the left atrium (West Zone I) in combination with the incremental addition of 5 cm H2O of PEEP caused a 5 mm Hg gradient between PAWP and LAP in the normovolemic animal. Augmenting PEEP further or hypovolemia (i.e., decrease in LAP) increased the gradient. Hypervolemia (increase in LAP) diminished the gradient. Fluid continuity between the PAW catheter and LA is a prerequisite for monitoring LAP with the Swan-Ganz catheter. Increases in PEEP, placement of the catheter above the left atrium and hypovolemia may occlude the fluid column and cause artifacts in the PAWP obtained.     

Sequential cardiopulmonary variables of infants and children in septic shock

Sequential cardiopulmonary variables were analyzed in 32 infants and children with septic shock. Variables were staged by a system based on therapeutic efforts to control blood pressure. There were 14 survivors and 18 nonsurvivors. Systemic circulation variables (MAP, cardiac index [CI], systemic vascular resistance index [SVRI], wedge pressure [WP], left cardiac work index [LCWI]) and pulmonary circulation variables (mean pulmonary artery pressure [MPAP], pulmonary vascular resistance index [PVRI], CVP, right cardiac work index [RCWI]) were similar in survivors and nonsurvivors. Pulmonary variables (intrapulmonary shunt [Qsp/Qt], fraction of inspired oxygen [FIO2], Pao2, PaCO2) revealed significantly more dysfunction in nonsurvivors than survivors during the postresuscitation (PR) and middle (M) shock stages. Even though oxygen delivery was equivalent in survivors and nonsurvivors, nonsurvivors demonstrated decreased oxygen utilization variables (oxygen consumption [Vo2], arteriovenous oxygen content difference [C(a-v)O2], O2 extraction index, core temperature) during the resuscitation (RS) and PR stages.