abdominal compartment syndrome (acs) dr emily lai princess margaret hospital joint hospital surgical...

Abdominal Compartment

Syndrome (ACS)

Dr Emily LaiPrincess Margaret Hospital

Joint Hospital Surgical Grand Round 17 Apr 2010

World Congress on Abdominal Compartment Syndrome 2004

• Intra-abdominal pressure (IAP): – steady-state pressure concealed within the

abdominal cavity; – increases with inspiration and decreases with

expiration– affected by the volume of solid organs and the

intestines, space-occupying lesions, and the extensibility of the abdominal wall

• Abdominal perfusion pressure = MAP – IAP

World Congress on Abdominal Compartment Syndrome 2004• Normal IAP ~ 5-7mmHg • Intra-abdominal hypertension (IAH)

– Sustained or repeated pathological elevation in IAP >= 12mmHg

• Abdominal compartment syndrome (ACS)– a sustained IAP > 20mmHg that is associated with a

new organ dysfunction/ failure

Classification of ACS

• Primary

– Associated with injury or disease in the abdominopelvic region or a condition that develops after abdominal surgery

– Frequently requires early surgical and radiological intervention

– e.g. # pelvis, massive retroperitoneal haematoma, ruptured AAA, ileus, post-liver transplantation

Classification of ACS

• Secondary (medical or extra-abdominal)

– Include conditions that do not originate from the abdomen

– e.g. major burns, sepsis or other condition requiring massive fluid resuscitation

Classification of ACS

• Recurrent (tertiary)

– ACS redevelops following previous surgical or medical treatment of primary or secondary ACS

– Associated with significant morbidity and mortality

Causes of ACS

• Intraperitoneal or retroperitoneal haematoma– Trauma, # pelvis, ruptured AAA…

• Sepsis– Intra-abdominal sepsis, pancreatitis, major burns…

• Excessive fluid resuscitation > 5L within 24 hours• Pneumoperitoneum• Ileus/ intestinal obstruction• Iatrogenic

– Post incisional hernia repair, post abdominal packing…

** Patient with ascites, large abdominal tumors, pregnancy and morbid obesity have lower thresholds to develop ACS

PathophysiologyPhysiological Insult/ critical illness

(e.g. Haemorrhage, sepsis)

Systemic inflammatory response

Capillary endothelial damage

Interstitial edema (including bowel wall and mesentery)

Fluid accumulates, stretching the abdominal wall until it becomes less compliant

Intra-abdominal pressure increases

Multisystem effects of ACS

• Cardiovascular

– Compression of IVC diminishes venous return to the heart (preload)

– Increased afterload due to raised systemic vascular resistance and raised intra-thoracic pressure

– Reduces cardiac output– Venous stasis in the legs

Multisystem effects of ACS

• Respiratory– Diaphragm is forced into the thorax, reducing

the intra-thoracic volume, increasing the intra-thoracic pressure and compressing lung parenchyma

– Hypoventilation and VQ mismatch causing hypoxia and respiratory acidosis

– Compensatory increase in positive end expiratory pressure may further impede venous return and raised jugular pressure, which can result in raised ICP and cerebral edema

Multisystem effects of ACS

• Renal

– Reduction in GFR and renal plasma flow, with increase in renal vascular resistance

– Leads to oliguric renal failure

– Raised ADH, renin and aldosterone leads to retention of sodium and water

Multisystem effects of ACS

• Gastrointestinal– marked reduction in hepatic, splanchnic and

mesenteric blood flow when IAP > 15– Mucosal ischemia and translocation of bacteria

or inflammatory mediators into the circulation– Provokes systemic inflammatory response,

prolonged ileus or leads to anastomotic dehiscence post-operatively

• Central nervous system– Raised intracranial pressure

Symptoms/ signs

• No characteristic clinical signs are indicative of ACS

• Clinical judgment fails to detect significant IAH over 40% of the time

– Kirkpatrick, A.W., et al., Is clinical examination an accurate indicator of raised intra-abdominal pressure in critically injured patients? Can J Surg, 2000. 43(3): p. 207-11.

– Sugrue, M., et al., Clinical examination is an inaccurate predictor of intraabdominal pressure. World J Surg, 2002. 26(12): p. 1428-31.

Measurement of IAP

• Direct – Catheter in the peritoneum

• Indirect– Intravesical pressure (Gold standard)– Stomach pressure– Rectal pressure– Uterine pressure– Inferior vena cava pressure

Bladder Technique

• Foley catheter tubing clamped • 50ml saline instilled into the bladder • A 16G needle inserted via the

aspiration port proximal to the clamp and attached to a pressure transducer/ manometer

• The level of pubic symphysis is used as zero

• Measured at end-expiration and in supine position

• Contraindication: patient with suspected or confirmed bladder trauma

Management

• Medical

• Operative

Medical Management

• Close monitoring in ICU• Sedation and paralysis • Optimization of ventilation and oxygenation• Optimal fluid resuscitation • Administration of inotropes • Gastric suctioning • Correction of coagulopathy • Correction of hypothermia • CVVH for aggressive correction of metabolic acidosis

associated with acute renal failure despite medical therapy

Operative Treatment

• Decompressive laparotomy– immediate

improvement of haemodynamic status

– Variety of techniques• e.g. Bogota bag,

Wittmann patch, vacuum-pack closure

• Temporary abdominal closure

http://www.mdconsult.com/

Bogota bag

http://bestpractice.bmj.com/best-practice/monograph/1125/resources/images.html

Decompressive laparotomy (DL)

• Detailed effects of DL on organ function are only rarely reported.

• IAP threshold levels for DL reported in the literature vary considerable.

• DL decreases IAP to < 20 mmHg in most studies

• A positive effect on organ function is reported in most studies, but the effect is inconsistent, and the duration of this effect is not clear.

• Reported mortality after DL for ACS is high.

Jan J De Waele et al. Decompressive laparotomy for abdominal compartment syndrome – a critical analysis Critical Care 2006, 10:R51

Decompression-reperfusion Syndrome

• Haemodynamic instability

• Release of lactic acid, potassium and adenosine that accumulate during anaerobic metabolism

• Result in arrhythmias, metabolic acidosis and cardiac depression

Conclusion

• Abdominal compartment syndrome is fatal

• Early recognition of patients at risk, frequent monitoring of IAP, and early initiation of treatment are important in preventing irreversible multiorgan failure.

References

• World Society of the Abdominal Compartment Syndrome www.wsacs.org

• Results from the International Conference of Experts on Intra-abdominal hypertension and Abdominal Compartment Syndrome Intensive Care Med (2006) 32:1722–1732

• Narendra Nath Basu, Simon Cottam Abdominal Compartment Syndrome Surgery 2006 260-262

• Scheppach et al. Abdominal Compartment syndrome Best practice & Research Clinical Gastroenterology 23 (2009) 25-33

• Kirkpatrick, A.W., et al., Is clinical examination an accurate indicator of raised intra-abdominal pressure in critically injured patients? Can J Surg, 2000. 43(3): p. 207-11.

• Sugrue, M., et al., Clinical examination is an inaccurate predictor of intraabdominal pressure. World J Surg, 2002. 26(12): p. 1428-31.

• Jan J De Waele et al. Decompressive laparotomy for abdominal compartment syndrome – a critical analysis Critical Care 2006, 10:R51

• Guideline for management of abdominal compartment syndrome (ACS) in trauma patients in PMH ICU