Secondary peritonitis differential diagnosis: Difference between revisions

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Revision as of 17:48, 26 April 2017

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.

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]

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.

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.

[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.

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@@ Line 43: / Line 43: @@
 |
 * 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.<ref name="pmid3518442">{{cite journal| author=Runyon BA| title=Bacterial peritonitis secondary to a perinephric abscess. Case report and differentiation from spontaneous bacterial peritonitis. | journal=Am J Med | year= 1986 | volume= 80 | issue= 5 | pages= 997-8 | pmid=3518442 | doi= | pmc= | url=https://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=3518442  }} </ref><ref name="pmid2293571">{{cite journal| author=Akriviadis EA, Runyon BA| title=Utility of an algorithm in differentiating spontaneous from secondary bacterial peritonitis. | journal=Gastroenterology | year= 1990 | volume= 98 | issue= 1 | pages= 127-33 | pmid=2293571 | doi= | pmc= | url=https://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=2293571  }} </ref>
+|}
+{| border="2" cellpadding="4" cellspacing="0" style="margin: 1em 1em 1em 0; background: #f9f9f9; border: 1px #aaa solid; border-collapse: collapse;
+! colspan="2" style="background: #4479BA; text-align: center;" | {{fontcolor|#FFF| '''Disease'''}}
+! colspan="1" style="background: #4479BA; text-align: center;" | {{fontcolor|#FFF| '''Prominent clinical findings'''}}
+! colspan="1" style="background: #4479BA; text-align: center;" | {{fontcolor|#FFF| '''Lab tests'''}}
+! colspan="1" style="background: #4479BA; text-align: center;" | {{fontcolor|#FFF| '''Tratment'''}}
+|-
+| rowspan="3" |'''Primary peritonitis'''
+|'''[[Primary peritonitis|Spontaneous bacterial peritonitis]]'''
+|
+* Absence of GI [[perforation]], most closely associated with [[cirrhosis]] and [[Liver disease|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 [[Ascites|ascitic fluid]] pH (< 7.31) supports the diagnosis. [[Gram staining]] reveals bacteria in only 25% of cases.
+* Diagnosed by analysis of the [[Ascitic|ascitic fluid]] which reveals [[WBC]] > 500/ML, and [[PMN]] >250cells/ml.
+* [[Culture medium|Culture]] of ascitic fluid inoculated immediately into [[blood culture]] media at the bedside usually reveals a single [[Enteric Bacilli|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|lymphocyte predominance]] of [[WBC]].
+* Definitive diagnosis in 80% of cases is by culture. Most patients presenting acutely are diagnosed only by [[laparotomy]].
+|
+* Combination [[Antituberculosis|antituberculosis chemotherapy]] is preferred in chronic cases.
+|-
+|'''[[Continuous ambulatory peritoneal dialysis|Continuous Ambulatory Peritoneal Dialysis]]''' [[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 [[Continuous ambulatory peritoneal dialysis|CAPD]], presumably due to touch contamination or infection via the pericatheter route.
+* Treatment for [[peritoneal dialysis]]-associated peritonitis consists of [[Antimicrobial drug|antimicrobial therapy]], in some cases catheter removal is also warranted.
+* Additional therapies for [[Peritonitis|relapsing or recurrent peritonitis]] may include [[Fibrinolytic agent|fibrinolytic agents]] and [[peritoneal lavage]]. Most episodes of peritoneal dialysis-associated peritonitis resolve with outpatient [[Antibiotic|antibiotic treatment]].
+|
+* Majority of [[peritonitis]] cases are caused by [[bacteria]] (50%-due to [[Gram-positive bacteria|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%.
+|
+* [[Antibiotic|Initial empiric antibiotic coverage]] for peritoneal dialysis-associated peritonitis consists of coverage for [[gram-positive]] organisms (by [[vancomycin]] or a [[Cephalosporins|first-generation cephalosporin]]) and [[gram-negative]] organisms (by a [[cephalosporin|third-generation cephalosporin]] or an [[aminoglycoside]]). Subsequently, the regimen should be adjusted based on [[Culture medium|culture]] and [[sensitivity]] data. Cure rates are approximately 75%.
+|-
+| rowspan="2" |'''[[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.
+|-
+|'''[[Biliary]] [[Secondary peritonitis|peritonitis]]'''
+|
+* Most often seen in cases of rupture of pathological [[gallbladder]] or [[bile duct]] or [[Cholangitis|cholangitic abscess]] or secondary to obstruction of  the [[biliary tract]].
+* Seen in alcoholic patients with [[ascites]].
+|
+|
+|-
+| colspan="2" |'''[[Peritonitis|Tertiary peritonitis]]'''
+|
+* Persistence or recurrence of [[Infection|intraabdominal infection]] following apparently adequate therapy of [[Peritonitis|primary or secondary peritonitis]].
+* Associated with [[Mortality|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]].
+|-
+| colspan="2" |'''[[Familial mediterranean fever|Familial Mediterranean fever (periodic peritonitis, familial paroxysmal polyserositis)]]'''
+|
+* Rare [[Genetic disorder|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.
+|-
+| colspan="2" |'''[[Granulomatous peritonitis]]'''
+|
+* A rare condition caused by disposable surgical fabrics or food particles from a [[perforated ulcer]], eliciting a vigorous [[granulomatous]] ([[Hypersensitivity|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 medications|anti-inflammatory agents]].
+|-
+| colspan="2" |'''[[Sclerosing encapsulating peritonitis]]'''
+|
+* Seen in conditions associated with long term [[peritoneal dialysis]], shunts like [[Ventriculoperitoneal shunt|VP shunts]], history of [[Abdominal surgery|abdominal surgeries]], [[liver transplantation]].
+* Symptoms include [[nausea]], [[abdominal pain]], [[diarrhea]], [[anorexia]], bloody [[ascites]].
+|
+|
+|-
+| colspan="2" |'''[[Abscess|Intraperitoneal abscesses]]'''
+|
+* Most common etiologies being [[Perforation|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 [[Peritonitis|generalized peritonitis]].
+* The pathogenic organisms are similar to those responsible for [[peritonitis]], but [[anaerobic]] organisms occupy an important role.
+* The [[mortality rate]] of serious [[Abscesses|intra-abdominal abscesses]] is about 30%.
+|
+* Diagnosed best by [[CT-scans|CT]] scan of the abdomen.
+|
+* Treatment consists of prompt and complete [[CT]] or [[Ultrasound|US]] guided drainage of the [[abscess]], control of the primary cause, and adjunctive use of effective [[Antibiotics|antibiotics.]] Open drainage is reserved for [[abscesses]] for which percutaneous drainage is inappropriate or unsuccessful.
+|-
+| colspan="2" |'''[[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|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.
+|
+* [[Computed tomography|CT]] with [[Contrast|intravenous contrast]] typically demonstrates the thickening of the [[peritoneum]]. [[Laparoscopy]] with tissue biopsy or CT guided tissue biopsy with [[immunohistochemical staining]] for [[calretinin]], [[cytokeratin|cytokeratin 5/6]], [[mesothelin]], and [[WT1|Wilms tumor 1 antigen]] remain the [[Gold standard (test)|gold standard]] for diagnosis.
+|
+* At [[laparotomy]] the goal is cytoreduction with [[excision]]. Debulking surgery and intraperitoneal [[chemotherapy]] improves survival in some cases.
+|-
+| colspan="2" |'''[[peritoneal carcinomatosis]]'''
+|
+* Associated with a history of [[ovarian]] or [[Malignancy|GI tract malignancy]].
+* Symptoms include [[ascites]], [[abdominal pain]], [[nausea]], [[vomiting]].
+|
+|
 |}
 ==References==
 {{Reflist|2}}

Secondary peritonitis differential diagnosis: Difference between revisions

Revision as of 17:48, 26 April 2017

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