Abdominal compartment syndrome: does intra-cystic pressure reflect actual intra-abdominal pressure? A prospective study in surgical patients

Abstract

Abdominal compartment syndrome is defined as the adverse physiologic effects of increased intra-abdominal pressure. Prolonged, unrelieved pressure may lead to respiratory compromise, renal impairment, cardiac failure, shock, and death. Abdominal compartment syndrome is diagnosed by measuring intra-cystic pressure as a reflection of intra-abdominal pressure. To examine the validity of the technique, we conducted a prospective study in surgical patients by directly measuring bladder and abdominal pressures simultaneously during laparoscopic cholecystectomy using a previously described technique. In the present model, the bladder had higher baseline pressures than did the abdomen. Measurements across the bladder wall were not identical, but had high positive correlation coefficient when evaluated on an individual basis. Global analysis of the data for all patients showed a weak correlation coefficient. In the present study model, intra-cystic pressure did not reflect actual intra-abdominal pressure. In spite of some limitations in the study design, we feel that further research is warranted to identify other possible variables that may play a role in the relationship between the urinary bladder and the abdominal cavity pressures, providing better means for diagnosis of abdominal compartment syndrome.

Background:

Abdominal compartment syndrome is defined as the adverse physiologic effects of increased intra-abdominal pressure. Prolonged, unrelieved pressure may lead to respiratory compromise, renal impairment, cardiac failure, shock, and death. Abdominal compartment syndrome is diagnosed by measuring intra-cystic pressure as a reflection of intra-abdominal pressure. To examine the validity of the technique, we conducted a prospective study in surgical patients by directly measuring bladder and abdominal pressures simultaneously during laparoscopic cholecystectomy using a previously described technique.

Results:

In the present model, the bladder had higher baseline pressures than did the abdomen. Measurements across the bladder wall were not identical, but had high positive correlation coefficient when evaluated on an individual basis. Global analysis of the data for all patients showed a weak correlation coefficient.

Conclusion:

In the present study model, intra-cystic pressure did not reflect actual intra-abdominal pressure. In spite of some limitations in the study design, we feel that further research is warranted to identify other possible variables that may play a role in the relationship between the urinary bladder and the abdominal cavity pressures, providing better means for diagnosis of abdominal compartment syndrome.

Introduction

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] in 1984 after small animal studies. Human studies correlating ICP and IAP are lacking to date. To identify the relationship between the pressures across the urinary bladder wall, we simultaneously measured the pressures across the urinary bladder wall in 21 surgical patients in a prospective manner.

Materials and methods

After Institutional Review Board approval, and over the course of an 18-month period, we prospectively studied 21 patients who consented to participate the study as a part of their laparoscopic cholecystectomy. Pregnant women and children were excluded. No patient had a prior history of bladder dysfunction.

of sterile saline. The sterile tubing of the urinary drainage bag was cross-clamped just distal to the catheter aspiration port. The end of the sterile tubing was then connected to the Foley catheter. The clamp was released just enough to allow tubing proximal to the clamp to flow with fluid from the bladder, then reapplied. A 16-gauge needle was used to Y-connect a pressure transducer through the culture aspiration port of the tubing to the drainage bag. The symphysis pubis bone was used as the zero point, with the patient supine.

The laparoscopic equipment was calibrated before each operation. The operating room circulator was then asked to choose three progressive target abdominal pressures between 1 and 15 mmHg. Abdominal insufflation with carbon dioxide was started through a Veress needle. As the target pressure was reached, the bladder pressure was recorded after 5⌓10 s equilibration time at the end of the mechanical expiration. The procedure was repeated with every target abdominal pressure to ensure consistency. The compiled data was then analyzed using AB stat software [Version 1.93 (1996); Anderson-Bell, Arvada, CO 80005, USA] to identify the relationship between the ICP and IAP.

Results

. As shown, ICP and IAP were not identical. In every patient there was a positive baseline pressure inside the bladder when IAP was zero. Using regression analysis for individual subjects, pressures on either side of the bladder wall had high positive correlation (correlation coefficient 0.92⌓1.00). The lines generated by data points were parallel but not identical, with a wide range of interception (-3.2 to -30.5) and a variable regression coefficient (1.0⌓3.1).

).

Discussion

].

]. The systemic hemodynamic effects are very complex in nature. Usually, the patient manifests low cardiac output and high systemic vascular resistance in the context of high central venous and pulmonary capillary wedge pressure. Increased IAP reduces venous return and increases intra-thoracic pressure, with impairment of ventricular compliance. In effect, there will be decreased stroke volume and low cardiac output, with compensatory increase in peripheral vascular resistance. Also, there is a reduction in both static and dynamic compliance of the lungs and perfusion of the kidneys, as well as of other retroperitoneal and intraperitoneal organs, except for the adrenals. High intra-thoracic pressure interferes with cerebral venous return, with decreased cerebral perfusion leading to brain dysfunction. On the other hand, local effects of ACS are probably best reflected by wound dehiscence secondary to direct pressure on the wound, as well as interference with local blood supply.

] have emphasized the importance of early recognition of this syndrome.

concluded that, in the early postoperative period, IAP higher than 25 mmHg requires re-exploration and decompression of the abdomen.

].

These results could not be reproduced at the range of IAPs generated in our study. We were limited by IAP of 15 mmHg, because it would not be ethical to subject our patients to ACS for the sake of the study. Accepting this limitation, and realizing that abdomen⌓bladder relationship might or might not differ at higher pressures, we identified the following interesting findings: (1) The urinary bladder had a higher baseline pressure than the abdomen in every patient compared. This may be related to the intrinsic detrusor muscle activity that might have been stimulated by the infused volume, rate of infusion, or even the temperature of the saline used to prime the Foley catheter. (2) On an individual basis, pressures measured across the bladder wall were not similar, but had high positive correlation coefficients. Although the lines generated by the data points were parallel, they were not identical. Also, there was a wide range of interception (-3.2 to -30.5) and a variable regression coefficient (1.0⌓3.1). This variability might be explained by the first finding, above. (3) Global analysis of the data from all patients showed a weak correlation between pressures measured across the bladder wall. This might be related to the biologic variation between our study subjects with regard to age, sex, weight, height, body mass index, or even history of pregnancy in females.

These findings eliminated our ability to predict IAP using ICP, and raise the question of other as yet unknown variables that may play an important role in determining the relationship between the abdominal cavity and the urinary bladder.

Conclusion

In the present study model, ICP did not reflect actual IAP. In spite of some limitations in the study design, we feel that further research is warranted to identify other possible variables that might play a role in the relationship between the urinary bladder and the abdominal cavity, providing better means for diagnosis of ACS. We are currently embarking on a prospective study on severely injured trauma patients in an attempt to answer some of these questions.

Figures and Tables

Scattergram of abdominal and bladder pressures.

Pressure readings across the bladder wall

Presented are three abdominal pressures plus baseline (abdominal pressure 0 mmHg) and the corresponding bladder pressures for each of 21 patients.

Keywords

• abdomen
• bladder
• compartment
• pressure
• syndrome