Spontaneous bacterial peritonitis pathophysiology

Escape of enteric bacteria to systemic circulation through:^[9]

❑ Bacterial translocation^[5]

• Luminal bacteria within colonize mesenteric lymph nodes.^[10]

• Organisms from the mesenteric lymph nodes → Systemic circulation through thoracic duct lymph → percolates through the liver and weep across Glisson's capsule → Ascitic fluid.

• Transient bacteremia → Prolonged bacteremia ( due to ↓ Reticulo endothelial system activity ) → Ascites Colonization ( due to ↓ ascitic fluid bactericidal activity ) → Spontaneous bacterial peritonitis )

❑ Portal Vein

• Porto-systemic shunt

• ↓RES function in the liver

❑ Lymphatic rupture

• Contaminated lymph carried by lymphatics

• Ruptured Lymphatics due to high flow and high pressure associated with portal hypertension ( BACTERASCITES )^[11]

❑ Other source of organisms

• IV catheters, skin, urinary, and respiratory tract

❑ Endotoxemia → release of pro-inflammatory cytokines produced by macrophages and other host cells in response to bacteria in the serum and peritoneal exudate

• Tumor necrosis factor-α (TNF-α)

• Interleukin (IL)-1,6

• Interferon-γ (IFN-γ)

• Soluble adhesion molecules

❑ Systemic and Abdominal manifestations of peritonitis mediated by cytokines^[12][2]

• The effector molecules (Nitric oxide) and cytokines,Tumour necrosis factor (TNF) that help kill the bacteria have undesired side effects as they cause vasodilation and renal failure that accompany SBP.^[13][12][14]

• Studies have shown that the presence of whole bacteria or DNA, in serum and ascitic fluid leads to stimulation of immune defences, effector molecules, and cytokines which in turn impact on hemodynamics, renal function and survival.^[13]

❑ Local response

Outpouring of fluid into the peritoneal cavity at sites of irritation with:

• High protein content (>3 g/dL)

• Many cells, primarily polymorphonuclear leukocytes, that phagocytose and kill organisms

• Formation of Fibrinous exudate on the inflamed peritoneal surfaces → Adhesion formation between adjacent bowel, mesentery, and omentum

• Localization of the inflammatory process is aided further by inhibition of motility in the involved intestinal loops

• The extent and rate of intraperitoneal spread of contamination depend on the volume and nature of the exudate and on the effectiveness of the localizing processes

• If peritoneal defenses aided by the appropriate supportive measures control the inflammatory process, the disease may resolve spontaneously (Sterile ascites)^[1][1][11] → Consumption of humoral bactericidal factors due to frequent colonization → Increased susceptibility to SBP^[15]

• If the ascitic fluid bactericidal activity is poor-moderate → Culture negative neutrocytic ascites (CNNA) or SBP → delay / inappropriate treatment → death due to sepsis and multi organ failure.^[16][17]

• Second possible outcome is a confined abscess

• A third possible outcome results when the peritoneal and systemic defense mechanisms are unable to localize the inflammation, which progresses to spreading diffuse peritonitis due to increased virulence of bacteria, greater extent and duration of contamination, and impaired host defenses.

❑ Systemic response

Gastrointestinal

• Paralysis of the bowel due to local inflammation

• Progressive accumulation of fluid and electrolytes in the lumen of the adynamic bowel → distention of the bowel → inhibition of the capillary inflow and secretions

• GI bleeding because of excessive inflammation and tissue damage → ↑ vasodilatation and ↓organ perfusion

Cardiovascular

• Shift of fluid into the peritoneal cavity and bowel lumen → ↓ Effective circulating blood volume → ↑ Hematocrit and

• ↑Fluid and electrolyte loss by coexistent fever, vomiting, diarrhea → decreased venous return to the right side of the heart → decrease in cardiac output → hypotension → activation of the sympathetic nervous system and manifestations such as sweating, tachycardia, and cutaneous vasoconstriction (i.e., cold, moist skin and mottled, cyanotic extremities).

• If the blood volume replaced is sufficient enough as so to increase the cardiac output 2-3 times normal ( to satisfy the increased metabolic needs of the body in the presence of infection) a halt in the progression of the disease is seen.

• Failure to sustain increased cardiac output results in progressive lactic acidosis, oliguria, hypotension, and ultimately death if the infection cannot be controlled.

Respiratory

• Intra-peritoneal inflammation → high and fixed diaphragm → pain on respiration → basilar atelectasis with intrapulmonary shunting of blood

• Decompensation of respiratory function due to delay in the intervention → hypoxemia + hypo-capnia (respiratory alkalosis) followed by hypercapnia (respiratory acidosis)

• Pulmonary edema results because of increased pulmonary capillary leakage as a consequence of hypo-albuminemia or direct effects of bacterial toxins (adult respiratory distress syndrome) → progressive hypoxemia with decreasing pulmonary compliance which needs a ventilator assistance with increasingly higher concentrations of inspired oxygen and positive end-expiratory pressure.

Renal

• SBP → Splanchnic arterial vasodilation and systemic vascular resistance → ↓ Effective arterial blood volume → stimulation of systemic vasoconstrictors (RAAS, Sympathetic Nervous System, Arginine vasopressin) → renal vasoconstriction

• Advanced cirrhosis → ↓ production of local vasodilators and ↑ production of local vasoconstrictors^[12] → Hepatorenal syndrome and death.^[2]

• ↓ Organ perfusion → Ischemic and Toxic Acute Tubular Necrosis → Acute Renal Failure → Death in (30-40%) of patients.

Metabolic

• Infection → ↓body stores of Glycogen → catabolism of protein (muscle) and →extreme wasting and rapid weight loss of severely infected patients

• Infection → ↓Body heat production → exhaustion and death

Central nervous system

• Hepatic Encephalopathy may occur due to inflammation, Oxidative stress and Intestinal ammonia production on crossing the blood-brain barrier → altered mentation.

Hematological

• Sepsis → DIC