Secondary peritonitis

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Shivani Chaparala M.B.B.S [2]; Associate Editor(s)-in-Chief: Ahmed Younes M.B.B.CH [3]

Overview

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1] Associate Editor(s)-in-Chief: Shivani Chaparala M.B.B.S [2]
Synonyms and keywords:: Surgical peritonitis, Perforation peritonitis, Acute peritonitis, Acute bacterial peritonitis, Acute generalized peritonitis, Abscess of suppurative peritonitis, Purulent peritonitis, Chemical peritonitis, Peritoneal abscess.

Overview

Secondary peritonitis is the most common cause of peritonitis, seen in 80-90% of patients, as a result of inflammation, perforation, or gangrene of an intra-abdominal or retroperitoneal organ. Surgical intervention is typically required to treat these processes. Antibiotics play an adjunctive role in severe intra-abdominal infection. If left untreated, patients with secondary peritonitis usually die due to life-threatening sepsis and shock.

Definition

Secondary peritonitis is defined as the infection of the peritoneum due to spillage of organisms into the peritoneal cavity resulting from hollow viscus perforation, anastomotic leak, ischemic necrosis, or other injuries of the gastrointestinal tract.^[1]

Historical perspective

Mikulicz 1889; Krönlein 1885; Körte 1892 reported the surgical treatment of peritonitis.
Kirschner in 1926 was the first to demonstrate a reduction in mortality rate by surgical treatment from 80–100% to about 60% in 1926.

Classification

Secondary peritonitis is classified based on the etiology and extension of inflammation.

Secondary peritonitis^[2]

Acute perforation peritonitis
❑ Gastrointestinal perforation
❑ Intestinal ischemia
❑ Pelviperitonitis and other forms

Postoperative peritonitis
❑ Anastomotic leak
❑ Accidental perforation and devascularization

Post-traumatic peritonitis
❑ After blunt abdominal trauma
❑ After penetrating abdominal trauma

Pathophysiology

Disturbances in the intestinal mucosal barrier as a result of spontaneous disease, trauma, or surgical operations permit the escape of indigenous bacteria causing infection of the peritoneum.

Causes

Causes by source

Infected Secondary Peritonitis		Non-infected Secondary Peritonitis
Perforation of a hollow viscus organ	Disruption of the peritoneum	Leakage of sterile body fluids into the peritoneum	Sterile abdominal surgery	Rarer non-infectious causes
Perforation of a hollow viscus (most common cause of peritonitis) Perforation of the distal esophagus (Boerhaave syndrome) Perforation of the stomach (peptic ulcer, Gastric carcinoma) Perforation of the duodenum (peptic ulcer) Perforations of the remaining intestine (e.g. Appendicitis, Diverticulitis, Meckel diverticulum, IBD, Intestinal infarction, Intestinal strangulation, Colorectal carcinoma, Meconium peritonitis) Perforation of the gallbladder (cholecystitis) Other possible causes for perforation Trauma Ingestion of a sharp foreign body (such as a fish bone) Perforation by an endoscope or catheter Most common organisms: mixed bacteria Gram-negative bacilli (e.g. Escherichia coli), Anaerobic bacteria (e.g. Bacteroides fragilis)	Trauma Surgical wound Peritoneal dialysis Chemotherapy Most common organisms Mixed bacteria Staphylococcus aureus Coagulase-negative staphylococci Fungi such as Candida	Sterile body fluids such as Blood(e.g.Endometriosis, Blunt abdominal trauma), Gastric juice (e.g.Peptic ulcer, Gastric carcinoma), Bile (e.g. Liver biopsy), Urine (e.g. Pelvic trauma), Menstruum (e.g. salpingitis), Pancreatic juice (pancreatitis), These body fluids are sterile at first, they frequently become infected once they leak out of their organ, leading to infectious peritonitis within 24-48h.	Due to sterile foreign body inadvertently left in the abdomen after surgery (e.g. gauze, sponge)	Familial Mediterranean fever Porphyria Systemic lupus erythematosus

Differentiating Secondary peritonitis from other conditions

**Differentiating secondary peritonitis from spontaneous bacterial peritonitis**
Characteristic	Spontaneous bacterial peritonitis	Secondary peritonitis
Presentaion	Main manifestations of peritonitis are acute abdominal pain, tenderness, and guarding, which are exacerbated by moving the peritoneum, e.g. coughing, flexing the hips,or Blumberg sign (a.k.a. rebound tenderness)	Similar presentation but insidious onset unlike rapid onset in SBP
Microorganism	Monomicrobial involvement is common No identifiable source of intra-abdominal infection	Polymicrobial involvement is common Identifiable source of intra-abdominal infection, with or without perforation (surgically treatable source)^[3]
Diagnostic Criteria	SBP is diagnosed in the presence of:^[4] Ascitic fluid PMN count of ≥250/mm3 No evident intra-abdominal source of infection Positive ascitic fluid bacterial culture	Diagnosed in the presence of Positive ascitic fluid bacterial culture Ascitic fluid PMN count of ≥250/mm3 Evidence of a source of infection (demonstrated at surgery or autopsy], either intra-abdominal or contiguous with the peritoneal cavity
Follow-up paracentesis	Ascitic fluid usually became sterile after one dose of antibiotic	Failure of the ascitic fluid to become culture-negative despite of initial antibiotic treatment, appears to be typical of secondary peritonitis due to continuous spillage of organisms into abdominal cavity which requires surgery.^[5]^[6]

Epidemiology and Demographics

Risk Factors

Risk factors of Secondary peritonitis are numerous intraabdominal disorders involving the gastrointestinal or genitourinary tract with spillage of material into the peritoneal space.

Natural History, Complications and Prognosis

The prognosis and outcome of patients with postoperative peritonitis is directly related to early diagnosis and stringent treatment interventions along with the complex interaction of factors related to: patient, disease and intervention and the chronic health status. Septicemia, shock and renal failure account for life threatening complications of peritonitis.^[7]The mortality of generalized postoperative peritonitis is high at 22-55%. Inability to clear the abdominal infection or to control the septic source, older age, and unconsciousness were significant factors related to mortality. Failure to control the peritoneal infection (15%) increases fatality and correlates with failed septic source control, high Acute Physiology and Chronic Health Evaluation (APACHE) II score, and male gender. Failure to control the septic source (8%) also was always fatal and correlated with high APACHE II score and therapeutic delay. In patients with immediate source control, residual peritonitis occurred in 9% after purulent or biliary peritonitis and in 41% after fecal peritonitis. In patients without immediate control of the septic source, delayed control was still achieved in 100% after a planned relaparotomy (PR) strategy versus 43% after an on-demand relaparotomy (ODR). ^[8]

Diagnosis

Diagnostic criteria for peritonitis associated with perforation on the basis of the initial ascitic fluid analysis include fulfilling at least two of the following criteria:[8]

Total protein > 1 g/dl
Glucose < 50 mg/dl
Lactate dehydrogenase (LDH) greater than the upper limit of normal for serum.

Non perforated secondary peritonitis such as perinephric abscess, cannot be readily apparent on the basis of the initial ascitic fluid analysis, but the response of the ascitic fluid cell count and cultures to treatment can raise suspicion of this form of secondary peritonitis.

History and Symptoms

The clinical picture of peritonitis is determined by the nature of the causative lesion, duration and extension of the inflammatory process, and stage of the disease.

Physical Examination

The main manifestations of peritonitis are acute abdominal pain, tenderness, and guarding, which are exacerbated by moving the peritoneum, e.g. coughing, flexing the hips, or eliciting the Blumberg sign (a.k.a. rebound tenderness, meaning that pressing a hand on the abdomen elicits pain, but releasing the hand abruptly will aggravate the pain, as the peritoneum snaps back into place). Abdominal rigidity, generalized peritonitis (versus localized), hypotension, tachycardia and anemia were significantly associated with mortality.

Laboratory Findings

As the clinical signs and symptoms are not a good representation for the diagnosis of secondary peritonitis, initial ascitic fluid analysis and the response of ascitic fluid parameters to treatment have been found to be of great value in differentiating secondary peritonitis from spontaneous bacterial peritonitis.

Chest X Ray

An upright and supine plain films of the chest and abdomen should be performed in patients with abdominal pain to exclude free air under the diaphragm (most often on the right), which signals a bowel perforation and associated peritonitis.

CT Scan

CT may be positive in unto 82%. Indicated in all patients with acute abdomen. However, CT can be omitted when a diagnosis is made according to the results of precedent examinations such as Ultrasound. Radiation exposure should be considered with the use of CT.

Ultrasound

Ultrasound may be positive in unto 72%. It is recommended as a screening test for acute abdomen and strongly recommended particularly when abdominal aortic aneurysm rupture or acute cholecystitis is suspected. Ultrasound is recommended in pregnant women, young women or children in whom radioactive exposure is not desirable.

Diagnostic Evaluation of Secondary Peritonitis

Ascitic fluid with PMN ≥250 cells/mm³

Bile stained ascitic fluid

Ascitic fluid biluribin >6 mg/dl and ascitic fluid/serum bilurin >1

IF NO →

IF YES
“BILIARY PERFORATION”

Fulfilment of atleast 2 of the following diagnostic criteria:
❑ Total protein >1g/dl
❑ Glucose <60 mg/dl
❑ LDH >upper limit of normal

IF NO
Ascitic PMN < baseline.
After 48 hours of therapy with antibiotics

IF YES
Free air or extravasation of contrast medium

IF YES
“SPONTANEOUS BACTERIAL PERITONITIS”

IF NO

IF YES
“PERFORATION PERITONITIS”

“NON-PERFORATIONAL SECONDARY PERITONITIS”

No evidence for loculated infection

Evidence for loculated infection with U/S or Barium enema etc.

“SPONTANEOUS BACTERIAL PERITONITIS”
❑ Continue antibiotic

LAPAROTOMY

Treatment

Medical Therapy

Medical management of secondary peritonitis includes hydration, prevention of septicemia, and correction of electrolytes. Empiric coverage for gram positive, gram negative, and anaerobic bacteria should be initiated promptly while awaiting culture results. Either open abdominal surgery or an exploratory laparotomy is recommended.

Surgery

The surgical treatment of postoperative peritonitis is primarily aimed at defining source control, followed by debridement of fibrin bedding and abdominal lavage of contaminants and infectious fluids. In cases of suspected diffuse secondary peritonitis, indication for relaparotomy after positive findings in CT were based on the following citeria: Evidence of leakage, intraabdomnal air after more than five days postoperatively, and/or massive collection of intraabdominal fluid. Re-laparotomy has to be performed immediately following positive radiological examination and/or clinical/laboratory signs. In postoperative peritonitis, negative radiological findings and persistent symptoms of sepsis for longer than 24 hours were also indications for relaparotomy.^[9]^[10]^[11]

Prevention

References

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↑ Calandra T, Cohen J, International Sepsis Forum Definition of Infection in the ICU Consensus Conference (2005) The international sepsis forum consensus conference on definitions of infection in the intensive care unit. Crit Care Med 33 (7):1538-48. PMID: 16003060
↑ Wittmann DH, Schein M, Condon RE (1996). “Management of secondary peritonitis”. Ann Surg. 224 (1): 10–8. PMC 1235241. PMID 8678610.
↑ Runyon BA, Hoefs JC (1984). “Ascitic fluid analysis in the differentiation of spontaneous bacterial peritonitis from gastrointestinal tract perforation into ascitic fluid”. Hepatology. 4 (3): 447–50. PMID 6724512.
↑ Runyon BA, Hoefs JC (1986). “Spontaneous vs secondary bacterial peritonitis. Differentiation by response of ascitic fluid neutrophil count to antimicrobial therapy”. Arch Intern Med. 146 (8): 1563–5. PMID 3729637.
↑ Runyon BA (1986). “Bacterial peritonitis secondary to a perinephric abscess. Case report and differentiation from spontaneous bacterial peritonitis”. Am J Med. 80 (5): 997–8. PMID 3518442.
↑ Akriviadis EA, Runyon BA (1990). “Utility of an algorithm in differentiating spontaneous from secondary bacterial peritonitis”. Gastroenterology. 98 (1): 127–33. PMID 2293571.
↑ Rau, Bettina M. (2007). “Evaluation of Procalcitonin for Predicting Septic Multiorgan Failure and Overall Prognosis in Secondary Peritonitis”. Archives of Surgery. 142 (2): 134. doi:10.1001/archsurg.142.2.134. ISSN 0004-0010.
↑ Mulier, Stefaan; Penninckx, Freddy; Verwaest, Charles; Filez, Ludo; Aerts, Raymond; Fieuws, Steffen; Lauwers, Peter (2003). “Factors Affecting Mortality in Generalized Postoperative Peritonitis: Multivariate Analysis in 96 Patients”. World Journal of Surgery. 27 (4): 379–384. doi:10.1007/s00268-002-6705-x. ISSN 0364-2313.
↑ Holzheimer RG, Gathof B (2003). “Re-operation for complicated secondary peritonitis – how to identify patients at risk for persistent sepsis”. Eur J Med Res. 8 (3): 125–34. PMID 12730034.
↑ Harbrecht PJ, Garrison RN, Fry DE (1984). “Early urgent relaparotomy”. Arch Surg. 119 (4): 369–74. PMID 6703892.
↑ Mulari K, Leppäniemi A (2004). “Severe secondary peritonitis following gastrointestinal tract perforation”. Scand J Surg. 93 (3): 204–8. doi:10.1177/145749690409300306. PMID 15544075.

Historical Perspective

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1] Associate Editor(s)-in-Chief: Shivani Chaparala M.B.B.S [2]

Overview

Surgical treatment was described in 1885 while its effectiveness was proven in 1926.

Historical Perspective

Mikulicz (1889), Krönlein (1885) ,and Körte (1892) reported the surgical treatment of peritonitis.
Kirschner in 1926 was the first to demonstrate a reduction in mortality rate by surgical treatment from 80–100% to about 60% in 1926.^[1]

References

↑ Wittmann DH, Schein M, Condon RE (1996). “Management of secondary peritonitis”. Ann. Surg. 224 (1): 10–8. PMC 1235241. PMID 8678610.

Classification

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1] Associate Editor(s)-in-Chief: Shivani Chaparala M.B.B.S [2]

Overview

Secondary peritonitis can be classified according to the origin and extent of inflammation into Acute perforation peritonitis, Postoperative peritonitis, and Post-traumatic peritonitis.

Classification

Secondary peritonitis can be classified according to the origin and extent of inflammation into:^[1]

Acute perforation peritonitis

Gastrointestinal perforation
Intestinal ischemia
Pelvi-peritonitis and other forms

Postoperative peritonitis

Anastomotic leak
Accidental perforation and devascularization

Post-traumatic peritonitis

After blunt abdominal trauma
After penetrating abdominal trauma

Secondary peritonitis^[1]

Acute perforation peritonitis
❑ Gastrointestinal perforation
❑ Intestinal ischemia
❑ Pelviperitonitis and other forms

Postoperative peritonitis
❑ Anastomotic leak
❑ Accidental perforation and devascularization

Post-traumatic peritonitis
❑ After blunt abdominal trauma
❑ After penetrating abdominal trauma

References

↑ ^1.0 ^1.1 Wittmann DH, Schein M, Condon RE (1996). “Management of secondary peritonitis”. Ann Surg. 224 (1): 10–8. PMC 1235241. PMID 8678610.

Pathophysiology

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1] Associate Editor(s)-in-Chief: Shivani Chaparala M.B.B.S [2]

Overview

Secondary bacterial peritonitis is caused by inoculation of bacteria from the (GI lumen or during surgical procedures) in the peritoneal cavity.

Pathophysiology

Bacteria can reach the peritoneal cavity by a variety of pathologic processes:
The initial inoculum of bacteria is determined by the normal flora in the involved portion of the GI tract.

Flora

Microbial organisms causing secondary peritonitis depends on the site of the gut perforation.^[1]

Small bowel perforation: Consist mainly of enterococci and Escherichia coli
Distal small bowel lumen perforation: Mostly Enterobacteriaceae and anaerobic organisms, including the Bacteroides spp.
Colon: Mostly anaerobes (e.g. Peptostreptococcus, Clostridium, and most commonly Bacteroides sis)

Bacteria and digestive enzymes act on the peritoneal serosal surface resulting in enzymatic digestion, necrosis and an outpouring of serum protein and electrolytes from the blood into the peritoneal cavity, together with the formation of an exudate rich in granulocytes. The inflammatory process may be diffuse or confined to an abscess. Systemically, there is paralysis of the bowel, hemoconcentration, and decrease in the cardiac output due to the shift of fluids and later acidosis. Intrapulmonary shunting, hypo/hypercapnia, hypoxemia, progressive azotemia, acute tubular necrosis, weight loss by protein consumption, fall of body temperature, loss of heat production, and exhaustion are other complications that may lead to the death of the patient if the process is not interrupted.

References

↑ Wong PF, Gilliam AD, Kumar S, Shenfine J, O’Dair GN, Leaper DJ (2005). “Antibiotic regimens for secondary peritonitis of gastrointestinal origin in adults”. Cochrane Database Syst Rev (2): CD004539. doi:10.1002/14651858.CD004539.pub2. PMID 15846719.

Causes

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1] Associate Editor(s)-in-Chief: Shivani Chaparala M.B.B.S [2]

Overview

Secondary peritonitis has numerous causes. It most often results from entry of enteric bacteria into the peritoneal cavity through a necrotic defect in th wall of the intestines or other viscus as a result of obstruction, infarction or after rupture of an intra-abdominal visceral abscess. It most often occurs after perforation of appendix. Nonbacterial causes of peritonitis include leakage of blood into the peritoneal cavity due to rupture of a tubal pregnancy, ovarian cyst, or aneurysmal vessel.

Causes

Life-Threatening Causes

Common causes

Common causes of secondary peritonitis include:^[1]^[2]

Causes by Source

Infected Secondary Peritonitis		Non-infected Secondary Peritonitis
Perforation of a hollow viscus organ	Disruption of the peritoneum	Leakage of sterile body fluids into the peritoneum	Sterile abdominal surgery	Rarer non-infectious causes
Perforation of a hollow viscus (most common cause of peritonitis) Perforation of the distal esophagus (Boerhaave syndrome) Perforation of the stomach (peptic ulcer, Gastric carcinoma) Perforation of the duodenum (peptic ulcer) Perforations of the remaining intestine (e.g. Appendicitis, Diverticulitis, Meckel diverticulum, IBD, Intestinal infarction, Intestinal strangulation, Colorectal carcinoma, Meconium peritonitis) Perforation of the gallbladder (cholecystitis) Other possible causes for perforation Trauma Ingestion of a sharp foreign body (such as a fish bone) Perforation by an endoscope or catheter Most common organisms: mixed bacteria Gram-negative bacilli (e.g. Escherichia coli), Anaerobic bacteria (e.g. Bacteroides fragilis)	Trauma Surgical wound Peritoneal dialysis Chemotherapy Most common organisms Mixed bacteria Staphylococcus aureus Coagulase-negative staphylococci Fungi such as Candida	Sterile body fluids such as Blood(e.g.Endometriosis, Blunt abdominal trauma), Gastric juice (e.g.Peptic ulcer, Gastric carcinoma), Bile (e.g. Liver biopsy), Urine (e.g. Pelvic trauma), Menstruum (e.g. salpingitis), Pancreatic juice (pancreatitis), These body fluids are sterile at first, they frequently become infected once they leak out of their organ, leading to infectious peritonitis within 24-48h.	Due to sterile foreign body inadvertently left in the abdomen after surgery (e.g. gauze, sponge)	Familial Mediterranean fever Porphyria Systemic lupus erythematosus

Causes by Organ System

Cause of Peforation	Most likely organism
Nonperforation secondary peritonitis
Acute appendicitis	β-Hemolytic Streptococcus Klebsiella pneumoniae Clostridium perfringens Enterococcus
Loculated perforation of gastric ulcer	Escherichia coli Group D Streptococcus Bacillus species
Post operative gastric ulcer perforation	Staphylococcus epidermidis Propionibacterium species Fungi
Loculated perforation of umbilical hernia	Staphylococcus aureus
Colonic ulcer	Enterobacter cloacae Clostridium species Enterococcus Bacteroides fragilis
Loculated perforation of colonic polypectomy	Escherichia coli α-Streptococcus Unidentified Gram-positive organism
Colonic ulcer	Escherichia coli
Infected pancreaticpseudocyst	Escherichia coli
Postoperative in general	Unidentified gram-negative coccobacillus Staphylococcus aureus
Perforation secondary peritonitis
Perforated gastric ulcer	Pseudomonas Enterococcus Candida
Perforated duodenal ulcer	Klebsiella pneumoniae Candida albicans
Perforated bowel	α-streptococcus Clostridium species Candida albicans
Perforated gallbladder	Escherichia coli Klebsiella pneumoniae

References

↑ Akriviadis EA, Runyon BA (1990). “Utility of an algorithm in differentiating spontaneous from secondary bacterial peritonitis”. Gastroenterology. 98 (1): 127–33. PMID 2293571.
↑ Wong PF, Gilliam AD, Kumar S, Shenfine J, O’Dair GN, Leaper DJ (2005). “Antibiotic regimens for secondary peritonitis of gastrointestinal origin in adults”. Cochrane Database Syst Rev (2): CD004539. doi:10.1002/14651858.CD004539.pub2. PMID 15846719.

Differentiating Secondary peritonitis from other Diseases

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1] Associate Editor(s)-in-Chief: Shivani Chaparala M.B.B.S [2]

Overview

Secondary peritonitis has to be differentiated from spontaneous bacterial peritonitis which is also seen in cirrhotics and also from other causes of peritonitis.

Differential Diagnosis

**Differentiating secondary peritonitis from spontaneous bacterial peritonitis**
Characteristic	Spontaneous bacterial peritonitis	Secondary peritonitis
Presentaion	Main manifestations of peritonitis are acute abdominal pain, tenderness, and guarding, which are exacerbated by moving the peritoneum, e.g. coughing, flexing the hips, or elicitingthe Blumberg sign (a.k.a. rebound tenderness)	Similar presentation but insidious onset unlike rapid onset in SBP
Microorganism	Monomicrobial involvement is common No identifiable source of intra-abdominal infection	Polymicrobial involvement is common Identifiable source of intra-abdominal infection, with or without perforation (surgically treatable source)^[1]
Diagnostic criteria	SBP is diagnosed in the presence of:^[2] Ascitic fluid PMN count of ≥250/mm3 No evident intra-abdominal source of infection Positive ascitic fluid bacterial culture	Diagnosed in the presence of Positive ascitic fluid bacterial culture Ascitic fluid PMN count of ≥250/mm3 Evidence of a source of infection (demonstrated at surgery or autopsy], either intra-abdominal or contiguous with the peritoneal cavity
Follow-up paracentesis	Ascitic fluid usually became sterile after one dose of antibiotic	Failure of the ascitic fluid to become culture-negative despite of initial antibiotic treatment, appears to be typical of secondary peritonitis due to continuous spillage of organisms into abdominal cavity which requires surgery.^[3]^[4]

**Differentiating Secondary peritonitis from other causes of peritonitis**
Disease		Prominent clinical findings	Lab tests	Tratment
Primary peritonitis	Spontaneous bacterial peritonitis	Absence of GI perforation, most closely associated with cirrhosis and advanced liver disease. Presents with abrupt onset of fever, abdominal pain, distension, and rebound tenderness.	Most have clinical and biochemical manifestations of advanced cirrhosis or nephrosis like leukocytosis,hypoalbuminemia, a prolonged prothrombin time. SAAG >1.1 g/dL, increased serum lactic acid level, or a decreased ascitic fluid pH (< 7.31) supports the diagnosis. Gram staining reveals bacteria in only 25% of cases. Diagnosed by analysis of the ascitic fluid which reveals WBC > 500/ML, and PMN >250cells/ml. Culture of ascitic fluid inoculated immediately into blood culture media at the bedside usually reveals a single enteric organism, most commonly Escherichia coli, Klebsiella, or streptococci.	Once diagnosed,it is treated with Ceftriaxone.
	Tuberculous peritonitis	Seen in 0.5% of new cases of tuberculosis particularly in young women in endemic areas as a primary infection. Presents with abdominal pain and distension, fever, night sweats, weight loss, and altered bowel habits.	Ascites is present in about half of cases. Abdominal mass may be felt in a third of cases. The peritoneal fluid is characterized by a protein concentration > 3 g/dL with < 1.1 g/dL SAAG and lymphocyte predominance of WBC. Definitive diagnosis in 80% of cases is by culture. Most patients presenting acutely are diagnosed only by laparotomy.	Combination antituberculosis chemotherapy is preferred in chronic cases.
	Continuous Ambulatory Peritoneal Dialysis (CAPD peritonitis)	Peritonitis is one of the major complications of peritoneal dialysis & 72.6% occurred within the first six months of peritoneal dialysis. Historically, coagulase-negative staphylococci were the most common cause of peritonitis in CAPD, presumably due to touch contamination or infection via the pericatheter route. Treatment for peritoneal dialysis-associated peritonitis consists of antimicrobial therapy, in some cases catheter removal is also warranted. Additional therapies for relapsing or recurrent peritonitis may include fibrinolytic agents and peritoneal lavage. Most episodes of peritoneal dialysis-associated peritonitis resolve with outpatient antibiotic treatment.	Majority of peritonitis cases are caused by bacteria (50%-due to gram positive organisms, 15% to gram negative organisms,20% were culture negative.2% of cases are caused by fungi, mostly Candida species. Polymicrobial infection in 4%.Exit-site infection was present in 13% and a peritoneal fluid leak in 3 % and M.tuberculosis 0.1%.	Initial empiric antibiotic coverage for peritoneal dialysis-associated peritonitis consists of coverage for gram-positive organisms (by vancomycin or a first-generation cephalosporin) and gram-negative organisms (by a third-generation cephalosporin or an aminoglycoside). Subsequently, the regimen should be adjusted based on culture and sensitivity data. Cure rates are approximately 75%.
Secondary peritonitis	Acute bacterial secondary peritonitis	Occurs after perforating, penetrating, inflammatory, infectious, or ischemic injuries of the GI or GU tracts. Most often follows disruption of a hollow viscus→chemical peritonitis→bacterial peritonitis(polymicrobial, includes aerobic gram negative {E coli, Klebsiella, Enterobacter, Proteus mirabilis} and gram positive { Enterococcus, Streptococcus} and anaerobes {Bacteroides, clostridia}). Presents with abdominal pain, tenderness, guarding or rigidity, distension, free peritoneal air, and diminished bowel sounds. Signs that reflect irritation of the parietal peritoneum resulting ileus. Systemic findings include fever, chills or rigors, tachycardia, sweating, tachypnea, restlessness, dehydration, oliguria, disorientation, and, ultimately, refractory shock.		Peritoneal lavage, Laparoscopy are the treatment of choice.
Secondary peritonitis	Biliary peritonitis	Most often seen in cases of rupture of pathological gallbladder or bile duct or cholangitic abscess or secondary to obstruction of the biliary tract. Seen in alcoholic patients with ascites.
Tertiary peritonitis		Persistence or recurrence of intraabdominal infection following apparently adequate therapy of primary or secondary peritonitis. Associated with high mortality due to multi organ dysfunction. It presents in a similar way as other peritonitis but is recognized as an adverse outcome with poor prognosis.	Enterococcus, Candida, Staphylococcus epidermidis, and Enterobacter being the most common organisms.	Characterized by lack of response to appropriate surgical and antibiotic therapy due to disturbance in the hosts immune response.
Familial Mediterranean fever (periodic peritonitis, familial paroxysmal polyserositis)		Rare genetic condition which affects individuals of Mediterranean genetic background. Etiology is unclear. Presents with recurrent bouts of abdominal pain and tenderness along with pleuritic or joint pain. Fever and leukocytosis are common.		Colchicine prevents but does not treat acute attacks.
Granulomatous peritonitis		A rare condition caused by disposable surgical fabrics or food particles from a perforated ulcer, eliciting a vigorous granulomatous (delayed hypersensitivity) response in some patients 2-6 weeks after laparotomy. Presents with abdominal pain, fever, nausea and vomiting, ileus, and systemic complaints, mild and diffuse abdominal tenderness.	Diagnosed by the demonstration of diagnostic Maltese cross pattern of starch particles.	The disease is self-limiting. Treated with corticosteroids or anti-inflammatory agents.
Sclerosing encapsulating peritonitis		Seen in conditions associated with long term peritoneal dialysis, shunts like VP shunts, history of abdominal surgeries, liver transplantation. Symptoms include nausea, abdominal pain, diarrhea, anorexia, bloody ascites.
Intraperitoneal abscesses		Most common etiologies being Gastrointestinal perforations, postoperative complications, and penetrating injuries. Signs and symptoms depend on the location of the abscess within the peritoneal cavity and the extent of involvement of the surrounding structures. Diagnosis is suspected in any patient with a predisposing condition. In a third of cases it occurs as a sequela of generalized peritonitis. The pathogenic organisms are similar to those responsible for peritonitis, but anaerobic organisms occupy an important role. The mortality rate of serious intra-abdominal abscesses is about 30%.	Diagnosed best by CT scan of the abdomen.	Treatment consists of prompt and complete CT or US guided drainage of the abscess, control of the primary cause, and adjunctive use of effective antibiotics. Open drainage is reserved for abscesses for which percutaneous drainage is inappropriate or unsuccessful.
Peritoneal mesothelioma		Arises from the mesothelium lining the peritoneal cavity. Its incidence is approximately 300-500 new cases being diagnosed in the United States each year. As with pleural mesothelioma, there is an association with an asbestos exposure. Most commonly affects men at the age of 50-69 years. Patients most often present with abdominal pain and later increased abdominal girth and ascites along with anorexia, weight loss and abdominal pain. Mean time from diagnosis to death is less than 1 year without treatment.	CT with intravenous contrast typically demonstrates the thickening of the peritoneum. Laparoscopy with tissue biopsy or CT guided tissue biopsy with immunohistochemical staining for calretinin, cytokeratin 5/6, mesothelin, and Wilms tumor 1 antigen remain the gold standard for diagnosis.	At laparotomy the goal is cytoreduction with excision. Debulking surgery and intraperitoneal chemotherapy improves survival in some cases.
peritoneal carcinomatosis		Associated with a history of ovarian or GI tract malignancy. Symptoms include ascites, abdominal pain, nausea, vomiting.

Differentiating secondary peritonitis from other diseases that may cause abdominal pain

Classification of acute abdomen based on etiology		Presentation	Symptoms			Signs			Diagnosis		Comments
Classification of acute abdomen based on etiology		Presentation	Fever	Abdominal Pain	Jaundice	Guarding	Rebound Tenderness	Bowel sounds	Lab Findings	Imaging	Comments
Common causes of Peritonitis	Primary Peritonitis	Spontaneous bacterial peritonitis	+	Diffuse	–	–	–	Hypoactive	Ascitic fluid PMN>250 cells/mm³ Culture: Positive for single organism	Ultrasound for evaluation of liver cirrhosis	–
	Secondary Peritonitis	Perforated gastric and duodenal ulcer	+	Diffuse	–	+	+	N	Ascitic fluid LDH > serum LDH Glucose < 50mg/dl Total protein > 1g/dl	Air under diaphragm in upright CXR	Upper GI endoscopy for diagnosis
		Acute cholangitis	+	RUQ	+	–	–	N	Abnormal LFT	Ultrasound shows biliary dilatation	Biliary drainage (ERCP) + IV antibiotics
		Acute cholecystitis	+	RUQ	+	–	–	Hypoactive	Hyperbilirubinemia Leukocytosis	Ultrasound shows gallstone and evidence of inflammation	Murphy’s sign
		Acute pancreatitis	+	Epigastric	+/-	–	–	N	Increased amylase / lipase	Ultrasound shows evidence of inflammation	Pain radiation to back
		Acute appendicitis	+	RLQ	–	+	+	Hypoactive	Leukocytosis	Ultrasound shows evidence of inflammation	Nausea & vomiting, decreased appetite
		Acute diverticulitis	+	LLQ	+/-	+	–	Hypoactive	Leukocytosis	CT scan and ultrasound shows evidence of inflammation
		Acute salpingitis	+	LLQ/ RLQ	–	+/-	+/-	N	Leukocytosis	Pelvic ultrasound	Vaginal discharge
Hollow Viscous Obstruction		Small intestine obstruction	–	Diffuse	–	+	+/-	Hyperactive then absent	Leukocytosis	Abdominal X ray	Nausea & vomiting associated with constipation, abdominal distention
		Volvulus	–	Diffuse	–	+	–	Hypoactive	Leukocytosis	CT scan and abdominal X ray	Nausea & vomiting associated with constipation, abdominal distention
		Biliary colic	–	RUQ	+	–	–	N	Increased bilirubin and alkaline phosphatase	Ultrasound	Nausea & vomiting
		Renal colic	–	Flank pain	–	–	–	N	Hematuria	CT scan and ultrasound	Colicky abdominal pain associated with nausea & vomiting
Vascular Disorders	Ischemic causes	Mesenteric ischemia	+/-	Periumbilical	–	–	–	Hyperactive	Leukocytosis and lactic acidosis	CT scan	Nausea & vomiting, normal physical examination
	Ischemic causes	Acute ischemic colitis	+/-	Diffuse	–	+	+	Hyperactive then absent	Leukocytosis	CT scan	Nausea & vomiting
	Hemorrhagic causes	Ruptured abdominal aortic aneurysm	–	Diffuse	–	–	–	N	Normal	CT scan	Unstable hemodynamics
	Hemorrhagic causes	Intra-abdominal or retroperitoneal hemorrhage	–	Diffuse	–	–	–	N	Anemia	CT scan	History of trauma
Gynaecological Causes	Ovarian Cyst Complications	Torsion of the cyst	–	RLQ / LLQ	–	+/-	+/-	N	Increased ESR and CRP	Ultrasound	Sudden onset sever pain with nausea and vomiting
	Ovarian Cyst Complications	Cyst rupture	–	RLQ / LLQ	–	+/-	+/-	N	Increased ESR and CRP	Ultrasound	Sudden onset sever pain with nausea and vomiting
	Pregnancy	Ruptured ectopic pregnancy	–	RLQ / LLQ	–	–	–	N	Positive pregnancy test	Ultrasound	History of missed period and vaginal bleeding

References

↑ Runyon BA, Hoefs JC (1984). “Ascitic fluid analysis in the differentiation of spontaneous bacterial peritonitis from gastrointestinal tract perforation into ascitic fluid”. Hepatology. 4 (3): 447–50. PMID 6724512.
↑ Runyon BA, Hoefs JC (1986). “Spontaneous vs secondary bacterial peritonitis. Differentiation by response of ascitic fluid neutrophil count to antimicrobial therapy”. Arch Intern Med. 146 (8): 1563–5. PMID 3729637.
↑ Runyon BA (1986). “Bacterial peritonitis secondary to a perinephric abscess. Case report and differentiation from spontaneous bacterial peritonitis”. Am J Med. 80 (5): 997–8. PMID 3518442.
↑ Akriviadis EA, Runyon BA (1990). “Utility of an algorithm in differentiating spontaneous from secondary bacterial peritonitis”. Gastroenterology. 98 (1): 127–33. PMID 2293571.

Epidemiology and Demographics

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1] Associate Editor(s)-in-Chief: Shivani Chaparala M.B.B.S [2]

Overview

Despite the recent advances in treatment modalities, morbidity and mortality rates caused by peritonitis remain high.

Epidemiology and Demographics

Incidence

The incidence of secondary peritonitis can not be measured accurately as it occurs in the context of a wide spectrum of diseases and conditions.
At one study, the incidence of diffuse postoperative peritonitis was 25% in the surgical ICU especially in patients with multi-organ failure.^[1]

Case Fatality Rate

Morbidity and mortality of patient with secondary peritonitis is ~30%.^[2]^[3].
Despite the development of antibiotics and significant improvement in intensive care support, morbidity is high and mortality rates remain between 30-66%.

Age

The mean age of perforation peritonitis is more than 60 years.

References

↑ Krastev N, Djurkov V, Murdjeva M, Akrabova P, Karparova T, Penkov V, Kiprin G, Asenov K, Krastev N, Djurkov V, Murdjeva M, Akrabova P, Karparova T, Penkov V, Kiprin G, Asenov K (2013). “Diagnosis of spontaneous and secondary bacterial peritonitis in patients with hepatic cirrhosis and ascites”. Khirurgiia (Sofiia) (in Bulgarian) (3): 20–5. PMID 24459763.
↑ Christou NV, Barie PS, Dellinger EP, Waymack JP, Stone HH (1993). “Surgical Infection Society intra-abdominal infection study. Prospective evaluation of management techniques and outcome”. Arch Surg. 128 (2): 193–8, discussion 198-9. PMID 8431120.
↑ Wacha H, Hau T, Dittmer R, Ohmann C (1999). “Risk factors associated with intraabdominal infections: a prospective multicenter study. Peritonitis Study Group”. Langenbecks Arch Surg. 384 (1): 24–32. PMID 10367626.

Risk Factors

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1] Associate Editor(s)-in-Chief: Shivani Chaparala M.B.B.S [2]

Overview

Risk factors of Secondary peritonitis are numerous intraabdominal disorders involving the gastrointestinal or genitourinary tract with spillage of material into the peritoneal space.

Risk Factors

Life Threatening Risk Factors

Ruptured gastric ulcer, appendicular abscess or diverticular abscess^[1]
Recent surgical procedures
Recent trauma to the abdomen (e.g. Stab injury or gun shot injury)

Common Risk Factors

Common risk factors for peritonitis include:^[2]

References

↑ Wacha H, Hau T, Dittmer R, Ohmann C (1999). “Risk factors associated with intraabdominal infections: a prospective multicenter study. Peritonitis Study Group”. Langenbecks Arch Surg. 384 (1): 24–32. PMID 10367626.
↑ Laroche M, Harding G (1998). “Primary and secondary peritonitis: an update”. Eur J Clin Microbiol Infect Dis. 17 (8): 542–50. PMID 9796651.

Screening

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1] Associate Editor(s)-in-Chief: Shivani Chaparala M.B.B.S [2]

Overview

There are no specific screening studies for secondary peritonitis.

Screening

There are no specific screening studies for secondary peritonitis.

References

Natural History, Complications and Prognosis

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1] Associate Editor(s)-in-Chief: Shivani Chaparala M.B.B.S [2]

Overview

With treatment, patients usually do well. Without treatment, the outcome is usually poor. However, in some cases, patients do poorly even with prompt and appropriate treatment.

Natural History

With treatment, patients usually do well. Without treatment, the outcome is usually poor. However, in some cases, patients do poorly even with prompt and appropriate treatment.

Complications

Hypotension, hypothermia and shock:

With the progression of infection, septicaemia ensues with its classic symptoms and signs. Septicaemia and shock are associated with very bad prognosis.

Altered mental status:

With the progression of shock, blood supply to the brain might be compromised leading to altered mental status. Associated comorbidities and poor general status make the development of altered mental status more likely.

Paralytic ileus:

Peritoneal inflammation can be complicated with paralytic ileus. Paralytic ileus is a very poor prognostic sign with increased mortality rate.

Diarrhea:

Diarrhea occurs due to peritoneal inflammation and secondary irritation of the intestines.

Renal failure

Shock and septicemia can develop into renal failure. Renal failure can be reversible if proper management is done at timeproper .

Prognosis

Peritonitis is a frequent cause of morbidity.The prognosis greatly depends on the degree of intra-abdominal contamination, the severity of underlying disease, the immune response of the host and associated organ dysfunction.^[1] Associated mortality rates vary from less than 1% to more than 60% Factors affecting prognosis are:

Age
Blood pressure
Cause of infection
Site of origin of peritonitis
Number of organs involved in multi-organ-failure (MOF)
Pre-operative organ failure
Presence of metabolic acidosis
Serum albumin
New York Heart Association cardiac function status
Malnutrition
Malignoma
Fecal peritonitis
Immunosuppression

The prognosis risk of peritonitis may be stratified using the Mannheim’s Peritoneal index score (MPI) as shown below:^[2]^[3]

Riskfactor	Score
Age >50 years	5
Female sex	5
Organ failure	7
Malignancy	4
Origin of sepsis not colonic	4
Diffuse generalized peritonitis	6
Preoperative duration of peritonitis >24h	4
Intraperitoneal exudates Clear Cloudy, purulent Fecal	0 6 12

Assessment of the prognosis of patients with peritonitis using Mannheim Peritonitis Index (MPI)

For a score of 27, the sensitivity was 66.67%, specificity was 100%, and positive predictive value for mortality is 100% at an accuracy of 94%.^[2]

Score	Mortality rate	Morbidity rate
Assessment of severity of peritonitis using MPI
<21	0%	13.33%
21-27	27.28%	65.71%
>27	100%	100%

Factors that were found to be independently significant factors in predicting the mortality:

Duration of pain for >24 h
Organ failure on admission
Female sex and
Feculent exudate
Early prognostic evaluation of abdominal sepsis is useful in the assessment of the severity of the disease and to select high-risk patients for early surgical reintervention.

References

↑ Mulier, Stefaan; Penninckx, Freddy; Verwaest, Charles; Filez, Ludo; Aerts, Raymond; Fieuws, Steffen; Lauwers, Peter (2003). “Factors Affecting Mortality in Generalized Postoperative Peritonitis: Multivariate Analysis in 96 Patients”. World Journal of Surgery. 27 (4): 379–384. doi:10.1007/s00268-002-6705-x. ISSN 0364-2313.
↑ ^2.0 ^2.1 Sharma S, Singh S, Makkar N, Kumar A, Sandhu MS (2016). “Assessment of Severity of Peritonitis Using Mannheim Peritonitis Index”. Niger J Surg. 22 (2): 118–122. doi:10.4103/1117-6806.189009. PMC 5013738. PMID 27843277.
↑ Pacelli F, Doglietto GB, Alfieri S, Piccioni E, Sgadari A, Gui D; et al. (1996). “Prognosis in intra-abdominal infections. Multivariate analysis on 604 patients”. Arch Surg. 131 (6): 641–5. PMID 8645072.

Diagnosis

Treatment

Medical Therapy | Surgery | Primary Prevention | Secondary Prevention | Cost-Effectiveness of Therapy

Template:Gastroenterology

Template:WikiDoc Sources

[pmid16003060-1] Calandra T, Cohen J, International Sepsis Forum Definition of Infection in the ICU Consensus Conference (2005) The international sepsis forum consensus conference on definitions of infection in the intensive care unit. Crit Care Med 33 (7):1538-48. PMID: 16003060

[pmid8678610-2] Wittmann DH, Schein M, Condon RE (1996). “Management of secondary peritonitis”. Ann Surg. 224 (1): 10–8. PMC 1235241. PMID 8678610.

[pmid6724512-3] Runyon BA, Hoefs JC (1984). “Ascitic fluid analysis in the differentiation of spontaneous bacterial peritonitis from gastrointestinal tract perforation into ascitic fluid”. Hepatology. 4 (3): 447–50. PMID 6724512.

[pmid3729637-4] Runyon BA, Hoefs JC (1986). “Spontaneous vs secondary bacterial peritonitis. Differentiation by response of ascitic fluid neutrophil count to antimicrobial therapy”. Arch Intern Med. 146 (8): 1563–5. PMID 3729637.

[pmid3518442-5] Runyon BA (1986). “Bacterial peritonitis secondary to a perinephric abscess. Case report and differentiation from spontaneous bacterial peritonitis”. Am J Med. 80 (5): 997–8. PMID 3518442.

[pmid2293571-6] Akriviadis EA, Runyon BA (1990). “Utility of an algorithm in differentiating spontaneous from secondary bacterial peritonitis”. Gastroenterology. 98 (1): 127–33. PMID 2293571.

[Rau2007-7] Rau, Bettina M. (2007). “Evaluation of Procalcitonin for Predicting Septic Multiorgan Failure and Overall Prognosis in Secondary Peritonitis”. Archives of Surgery. 142 (2): 134. doi:10.1001/archsurg.142.2.134. ISSN 0004-0010.

[MulierPenninckx2003-8] Mulier, Stefaan; Penninckx, Freddy; Verwaest, Charles; Filez, Ludo; Aerts, Raymond; Fieuws, Steffen; Lauwers, Peter (2003). “Factors Affecting Mortality in Generalized Postoperative Peritonitis: Multivariate Analysis in 96 Patients”. World Journal of Surgery. 27 (4): 379–384. doi:10.1007/s00268-002-6705-x. ISSN 0364-2313.

[pmid12730034-9] Holzheimer RG, Gathof B (2003). “Re-operation for complicated secondary peritonitis – how to identify patients at risk for persistent sepsis”. Eur J Med Res. 8 (3): 125–34. PMID 12730034.

[pmid6703892-10] Harbrecht PJ, Garrison RN, Fry DE (1984). “Early urgent relaparotomy”. Arch Surg. 119 (4): 369–74. PMID 6703892.

[pmid15544075-11] Mulari K, Leppäniemi A (2004). “Severe secondary peritonitis following gastrointestinal tract perforation”. Scand J Surg. 93 (3): 204–8. doi:10.1177/145749690409300306. PMID 15544075.

[pmid8678610-1] Wittmann DH, Schein M, Condon RE (1996). “Management of secondary peritonitis”. Ann. Surg. 224 (1): 10–8. PMC 1235241. PMID 8678610.

[pmid8678610-1] 1.0 ^1.1 Wittmann DH, Schein M, Condon RE (1996). “Management of secondary peritonitis”. Ann Surg. 224 (1): 10–8. PMC 1235241. PMID 8678610.

[pmid15846719-1] Wong PF, Gilliam AD, Kumar S, Shenfine J, O’Dair GN, Leaper DJ (2005). “Antibiotic regimens for secondary peritonitis of gastrointestinal origin in adults”. Cochrane Database Syst Rev (2): CD004539. doi:10.1002/14651858.CD004539.pub2. PMID 15846719.

[pmid2293571-1] Akriviadis EA, Runyon BA (1990). “Utility of an algorithm in differentiating spontaneous from secondary bacterial peritonitis”. Gastroenterology. 98 (1): 127–33. PMID 2293571.

[pmid15846719-2] Wong PF, Gilliam AD, Kumar S, Shenfine J, O’Dair GN, Leaper DJ (2005). “Antibiotic regimens for secondary peritonitis of gastrointestinal origin in adults”. Cochrane Database Syst Rev (2): CD004539. doi:10.1002/14651858.CD004539.pub2. PMID 15846719.

[pmid6724512-1] Runyon BA, Hoefs JC (1984). “Ascitic fluid analysis in the differentiation of spontaneous bacterial peritonitis from gastrointestinal tract perforation into ascitic fluid”. Hepatology. 4 (3): 447–50. PMID 6724512.

[pmid3729637-2] Runyon BA, Hoefs JC (1986). “Spontaneous vs secondary bacterial peritonitis. Differentiation by response of ascitic fluid neutrophil count to antimicrobial therapy”. Arch Intern Med. 146 (8): 1563–5. PMID 3729637.

[pmid3518442-3] Runyon BA (1986). “Bacterial peritonitis secondary to a perinephric abscess. Case report and differentiation from spontaneous bacterial peritonitis”. Am J Med. 80 (5): 997–8. PMID 3518442.

[pmid2293571-4] Akriviadis EA, Runyon BA (1990). “Utility of an algorithm in differentiating spontaneous from secondary bacterial peritonitis”. Gastroenterology. 98 (1): 127–33. PMID 2293571.

[pmid24459763-1] Krastev N, Djurkov V, Murdjeva M, Akrabova P, Karparova T, Penkov V, Kiprin G, Asenov K, Krastev N, Djurkov V, Murdjeva M, Akrabova P, Karparova T, Penkov V, Kiprin G, Asenov K (2013). “Diagnosis of spontaneous and secondary bacterial peritonitis in patients with hepatic cirrhosis and ascites”. Khirurgiia (Sofiia) (in Bulgarian) (3): 20–5. PMID 24459763.

[pmid8431120-2] Christou NV, Barie PS, Dellinger EP, Waymack JP, Stone HH (1993). “Surgical Infection Society intra-abdominal infection study. Prospective evaluation of management techniques and outcome”. Arch Surg. 128 (2): 193–8, discussion 198-9. PMID 8431120.

[pmid10367626-3] Wacha H, Hau T, Dittmer R, Ohmann C (1999). “Risk factors associated with intraabdominal infections: a prospective multicenter study. Peritonitis Study Group”. Langenbecks Arch Surg. 384 (1): 24–32. PMID 10367626.

[pmid10367626-1] Wacha H, Hau T, Dittmer R, Ohmann C (1999). “Risk factors associated with intraabdominal infections: a prospective multicenter study. Peritonitis Study Group”. Langenbecks Arch Surg. 384 (1): 24–32. PMID 10367626.

[pmid9796651-2] Laroche M, Harding G (1998). “Primary and secondary peritonitis: an update”. Eur J Clin Microbiol Infect Dis. 17 (8): 542–50. PMID 9796651.

[MulierPenninckx2003-1] Mulier, Stefaan; Penninckx, Freddy; Verwaest, Charles; Filez, Ludo; Aerts, Raymond; Fieuws, Steffen; Lauwers, Peter (2003). “Factors Affecting Mortality in Generalized Postoperative Peritonitis: Multivariate Analysis in 96 Patients”. World Journal of Surgery. 27 (4): 379–384. doi:10.1007/s00268-002-6705-x. ISSN 0364-2313.

[pmid27843277-2] 2.0 ^2.1 Sharma S, Singh S, Makkar N, Kumar A, Sandhu MS (2016). “Assessment of Severity of Peritonitis Using Mannheim Peritonitis Index”. Niger J Surg. 22 (2): 118–122. doi:10.4103/1117-6806.189009. PMC 5013738. PMID 27843277.

[pmid8645072-3] Pacelli F, Doglietto GB, Alfieri S, Piccioni E, Sgadari A, Gui D; et al. (1996). “Prognosis in intra-abdominal infections. Multivariate analysis on 604 patients”. Arch Surg. 131 (6): 641–5. PMID 8645072.

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Secondary peritonitis

Overview

Definition

Historical perspective

Classification

Pathophysiology

Causes

Causes by source

Differentiating Secondary peritonitis from other conditions

Epidemiology and Demographics

Risk Factors

Natural History, Complications and Prognosis

Diagnosis

History and Symptoms

Physical Examination

Laboratory Findings

Chest X Ray

CT Scan

Ultrasound

Diagnostic Evaluation of Secondary Peritonitis

Treatment

Medical Therapy

Surgery

Prevention

References

Overview

Historical Perspective

References

Overview

Classification

Acute perforation peritonitis

Postoperative peritonitis

Post-traumatic peritonitis

References

Overview

Pathophysiology

Flora

References

Overview

Causes

Life-Threatening Causes

Common causes

Causes by Source

Causes by Organ System

References

Overview

Differential Diagnosis

Differentiating secondary peritonitis from other diseases that may cause abdominal pain

References

Overview

Epidemiology and Demographics

Incidence

Case Fatality Rate

Age

References

Overview

Risk Factors

Life Threatening Risk Factors

Common Risk Factors

References

Overview

Screening

References

Overview

Natural History

Complications

Hypotension, hypothermia and shock:

Altered mental status:

Paralytic ileus:

Diarrhea:

Renal failure

Prognosis

Assessment of the prognosis of patients with peritonitis using Mannheim Peritonitis Index (MPI)

References

Diagnosis

Treatment

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