- Research article
- Open Access
- Open Peer Review
The role of cross sectional imaging in the management of acute pyogenic inguinal abscess - extrapelvic versus intrapelvic origin
BMC Infectious Diseasesvolume 13, Article number: 155 (2013)
Abscesses involving the inguinal region as manifestations of complex soft-tissue infections are rare, and the infectious route is usually unclear. The purpose of this study was to ascertain the importance of imaging study and whether the clinical presentations differ between the extrapelvic and intrapelvic origin.
Patients who presented with inguinal abscess between January 2003 and December 2010 were evaluated retrospectively. All patients received broad-spectrum antibiotic therapy and debridement. Imaging studies, including computed tomography or magnetic resonance imaging, were performed in all patients to elucidate the origin and extent of infectious disease, and the results were reviewed. Clinical data, laboratory examination findings, and culture results were analyzed.
Twenty-eight patients were enrolled in the study: 13 patients whose infections were of extrapelvic origin (Group 1) and 15 patients of intrapelvic origin (Group 2). Imaging studies yielded information that helped guiding the treatment. Gram-positive coccus infection was more frequent in Group 1 (p < 0.001), while mixed pathogen and anaerobic bacterial infection were more frequent in Group 2 (p = 0.002 and p = 0.006, respectively). Group 2 had a higher incidence of history of malignancy and chronic renal failure (p = 0.044 and p = 0.038, respectively).
Computed tomography and magnetic resonance imaging are helpful in diagnosing cases of inguinal abscess and determining the extent of infection. In patients presenting with acute pyogenic inguinal abscess, a higher prevalence of chronic renal failure and history of malignancy were found in those with an intrapelvic, as compared with an extrapelvic, origin of infection.
Inguinal abscesses as manifestations of deep soft-tissue infections are complex and rare, and the infectious route is usually unclear. The inguinal region communicates with the peritoneal or retroperitoneal space and thigh through several routes, including the psoas sheath, femoral canal, sacrosciatic notch, pudendal canal, and obturator foramen [1, 2]. It has been reported that inguinal abscesses may arise from peritoneal or retroperitoneal abscesses, such as ruptured appendicitis, colonic diverticulitis, and pyelonephritis [3–5]. Hence, the infection may be of extrapelvic or intrapelvic origin [6–11]. Understanding the etiology of the inguinal abscess is helpful in guiding definitive treatment and the prescription of empiric antibiotics. Inguinal abscesses resulting from extrapelvic pyomyositis usually appear as well-defined cavities, while those resulting from intrapelvic infection may be complicated by underlying bowel disease, infective spondylodiskitis, or urinary tract infection [9–20]. Empiric antibiotics and surgical planning should be guided by the pathophysiology of the disease. Computed tomography (CT) and magnetic resonance imaging (MRI) are valuable diagnostic tools. It is currently unclear whether the presentation and prognosis for patients with acute pyogenic inguinal abscess differ according to whether the infection is of extrapelvic versus intrapelvic origin.
A retrospective study was performed to investigate the clinical manifestations and outcomes in patients who presented with acute pyogenic inguinal abscess. Such information may facilitate more accurate prediction of the outcome for patients as well as guide better management of this disease. Approval for this study was obtained from the institutional review board of Chang Gung Memorial Foundation.
Under the approval of institutional board review of Chang Gung Memorial Foundation (100-0667B), the medial records of three hundred and forty six patients diagnosed with the ICD code 6822 (cellulitis and abscess, trunk) from Chang Gung Memorial Hospital at Chia Yi were comprehensively reviewed between January 2003 and December 2010. The inclusion criteria were a presentation groin mass associated with fever greater than 38.3 degree at emergency department that demanded surgical treatment. Twenty-eight patients diagnosed with inguinal abscess and treated with surgical debridement were included in the current study. Medical records, laboratory examination results, and imaging findings were retrospectively reviewed and analyzed. Patients with inguinal abscess presented with a swollen, erythematous, and tender inguinal mass. Most patients experienced a gradual onset of a limping gait, fever, and chills. Inguinal abscess was confirmed by CT or MRI, along with surgical findings. The CT or MRI features in patients with inguinal abscess included the following: (1) asymmetrical enlargement of the underlying affected muscle, (2) “ring sign,” or rim enhancement of the abscess wall with lower central attenuation, and (3) air bubbles.
Upon diagnosis of an inguinal abscess, the treatment strategy included broad-spectrum antibiotic therapy, aggressive resuscitation, and adequate debridement. Microbial infection was confirmed by culture results from soft tissue or blood collected in the emergency department (ED) and during surgery. The antibiotic regimen was modified appropriately after the microbial culture results were obtained. Intensive care and aggressive resuscitation, including fluid challenge and inotropic drugs, were administered to maintain mean arterial pressure above 65 mm Hg. Surgical planning was based on imaging findings. If an extrapelvic origin of infection was identified, debridement of the inguinal abscess along with the extrapelvic site was performed by an orthopedic surgeon. If the imaging findings showed an intrapelvic origin of infection, combination surgery involving colorectal or urologic surgeons was performed.
The patients were divided into two groups for further analysis: those with an extrapelvic origin of infection (Group 1) and those with an intrapelvic origin of infection (Group 2). Extrapelvic origin was defined as that thigh represented the primary infectious focus. On the other hand, when the infectious focus was located within the pelvic cavity including intraperitoneal, retroperitoneal and genitourinary pathology, it was defined as intrapelvic origin.
Clinical parameters including age, gender, comorbidities, clinical manifestations, laboratory findings at the time of admission, bacteriologic findings, APACHE II score, length of hospital stay, and mortality were recorded and compared.
All statistical analyses were performed using SPSS, version 10.0 (SPSS Inc, Chicago, IL). The Wilcoxon rank sum test was used for discontinuous variables, and the Fisher exact test was used for continuous variables. Statistical significance was set at a p value of <0.05.
Clinical and demographic data of patients with inguinal abscess
This series consisted of 28 patients. The median patient age was 60.5 years. Nineteen patients (67.9%) were male. Most patients were immunocompromised (78.6%). Diabetes mellitus (77.3%) was the leading disease in immunocompromised patients. Computed tomography and MRI constituted good diagnostic tools in all patients.
Group comparison of clinical characteristics
No significant differences were found between the two groups in age and gender. Although there were no differences in duration of symptoms prior to arrival at the ED, surgery was performed earlier in Group 2 patients that the time from onset of symptoms to first surgical intervention was shorter for patients in Group 2 (p = 0.048). Group 2 patients also presented a more toxic appearance that the mean APACHE II score 24 hours after admission were higher ( p = 0.022). Furthermore, the frequency of surgical debridement were higher for Group 2 (p = 0.009) (Table 1). However, there were no differences between Group 1 and Group 2 in total length of hospitalization or length of ICU stay, and mortality. Diabetes mellitus was both prevalent in Group 1 and Group 2, while patients with a history of malignancy and chronic renal failure were more strongly represented in Group 2 (p = 0.044 and p = 0.038, respectively).
Group comparison of laboratory data and microbiology
Most patients in both groups presented with leukocytosis with left shift, along with a increased C reactive protein level. Severe hypoalbuminemia was frequently observed in both groups. However, anemia and hyponatremia were more frequently observed in Group 2 (p = 0.024 and p = 0.023, respectively), which reflected the chronic deliberated status in these patients (Table 2).
Gram-positive coccus infection was more frequent in Group 1 (p < 0.001), while mixed pathogen and anaerobic bacterial infection were more common in Group 2 (p = 0.002 and p = 0.006, respectively). In patients with inguinal abscess of intrapelvic origin, Escherichia coli was the most common pathogen (40%), followed by Bacteroides fragilis (33.3%). Staphylococcus aureus was the most common pathogen (69.2%) in those with infection of extrapelvic origin, and the occurrence of oxacillin-resistant staphylococcal infection was predominant (33.3%) (Table 3).
One patient in each group died in severe sepsis and multi-organ failure despite of broad spectrum antibiotics and surgical debridment.
The most significant finding of the current study was that patients with inguinal abscess of extrapelvic versus intrapelvic origin had different pathogenic findings and clinical presentations. The differentiation between these two origins could be accurately achieved by computed tomography and MRI in a timely fashion that helped guide empiric antibiotic treatment and surgical planning. Extrapelvic origin usually presented a tubular, thickened wall structure with extention to the involved musculature, such as adductor or rectus femoris. (Figures 1, 2) Intrapelvic origin presented a thicken wall with retroperitoneal or intrapertoneal extension to the involved structures (Figures 3, 4). While intrapelvic origin was identified, Group 2 patients presented with a shorter time between the admission and the first surgical intervention. This phenomenon reflected the importance of the timely imaging study as well as the more fulminant infections respresented by the higher APACHE II scores within 24 hours of admission. On the other hand, the longer time of first surgical intervention in patients with extrapelvic origin1 might result from the insidious onset of symptoms over the thigh despite imaging has shown the pathology. Although mortality rate did not increase, hospital stay became similar to those for patients with an intrapelvic origin of infection who presented higher APACHE II scores.
Patients with pyogenic inguinal abscess of extrapelvic origin presented with different predisposing comorbidities as compared with patients with abscess of intrapelvic origin. Patients with an intrapelvic origin of infection were more likely to have chronic renal failure and history of malignancy than patients with an extrapelvic origin of infection. This finding was consistent with previous reports that immunodeficiency, chronic renal insufficiency, and malignancy predisposed patients to intrapelvic infection [12, 21]. Patients with an intrapelvic origin of infection had higher incidences of anemia and hyponatremiam, which might result from intra-abdominal or pelvic abscesses [22–24]. Decreased hemoglobin and serum sodium were found to be factors in poor prognosis in cases of pelvic infection [25, 26]. More aggressive resuscitation, intensive care, and debridement are therefore recommended when an inguinal abscess of intrapelvic origin is suspected based on coexisting disease, clinical manifestations, and laboratory findings.
Treatment includes antibiotic therapy and surgical drainage of the abscess. Broad-spectrum antibiotic therapies should be chosen based on clinical presentation and cross sectional images in the ED. Penicillin or ampicillin plus an aminoglycoside is the typical antibiotic regimen . Anaerobic coverage (metronidazole or clindamycin) is added when infection of intrapelvic origin is suspected. Computed tomography and MRI are helpful in diagnosing cases of possible abscess and determining the extent of infection [12, 28].
The present study was limited by the small number of patients and the retrospective design. However, the occurrence of inguinal abscess was not common, with only 28 patients over an 8-year period.
Computed tomography or MRI is helpful in determining the extent of the abscess and guiding the treatment plan. Higher APACHE II scores within 24 hours of hospital admission, higher incidences of anemia and hyponatremia, and a higher prevalence of chronic renal failure and history of malignancy were observed in patients with abscess of intrapelvic, as compared with extrapelvic, origin. Treatment protocols including aggressive resuscitation, rapid administration of antibiotics, and immediate surgical intervention are recommended for all patients presenting with acute pyogenic inguinal abscess.
Allon Amitai MaRS DO: Necrotizing fasciitis as the clinical presentation of a retroperitoneal abscess. J Emerg Med. 2008, 34: 37-40. 10.1016/j.jemermed.2007.03.048.
Simons GW, Sty JR, Starshak RJ: Retroperitoneal and retrofascial abscesses. A review. J Bone Joint Surg Am. 1983, 65: 1041-1058.
Chankowsky JDP, Gordon PH: Sigmoid diverticulitis presenting as a lower extremity abscess: report of a case. Dis Colon Rectum. 2001, 44: 1711-1713. 10.1007/BF02234396.
Hsu SC, Huang JJ, Wang MC: Gas-forming retroperitoneal abscess associated with crepitant myositis of right buttock and thigh. J Infect. 2000, 40: 295-297. 10.1053/jinf.1999.0631.
Ushiyama T, Nakajima R, Maeda T: Perforated appendicitis causing thigh emphysema: a case report. J Orthop Surg (Hong Kong). 2005, 13: 93-95.
Donovan PJ, Zerhouni EA, Siegelman SS: cT of the psoas compartment of the retroperitoneum. Semin Roentgenol. 1981, 16: 241-250. 10.1016/0037-198X(81)90024-9.
Nadeem RD, Hadden WA: Inguinal abscess: an unusual presentation of infection around total hip replacement. J Arthroplasty. 1999, 14: 630-632. 10.1016/S0883-5403(99)90088-8.
Benfatto G, Catania G, Tenaglia L: Abscess and cecum carcinoma in inguinal hernia: case report. G Chir. 2006, 27: 262-264.
Ikeda S, Takeda H, Yoshimitsu M: Abscess in the inguinal hernial sac after peritonitis surgery: a case report. World J Gastroenterol. 2009, 15: 1007-1009. 10.3748/wjg.15.1007.
Jaiswal P, Challacombe B, Dasgupta P: Groin abscess: a vesico-cutaneous fistula to the groin. A rare complication of open prostatectomy. Int J Clin Pract Suppl. 2005, 147: 113-114.
Rivera-Herrera JL, Otheguy JN, Nieves-Ortega J: Painful inguinal mass: uncommon presentation of a retroperitoneal abscess. Bol Asoc Med P R. 1991, 83: 402-403.
Huang JJ, Ruaan MK, Lan RR: Acute pyogenic iliopsoas abscess in Taiwan: clinical features, diagnosis, treatments and outcome. J Infect. 2000, 40: 248-255. 10.1053/jinf.2000.0643.
Bhosale PR, Patnana M, Viswanathan C: The inguinal canal: anatomy and imaging features of common and uncommon masses. Radiographics. 2008, 28: 819-835. 10.1148/rg.283075110. quiz 913
Isaacs LE, Felsenstein CH: Acute appendicitis in a femoral hernia: an unusual presentation of a groin mass. J Emerg Med. 2002, 23: 15-18. 10.1016/S0736-4679(02)00455-9.
Kolias AG, Nikolaou S, Bilal KO: Chronic groin sinus: an unusual complication of sterilisation clips. Ann R Coll Surg Engl. 2010, 92: W13-W14.
Marsh F, Rogerson L: Groin abscess secondary to trans obturator tape erosion: Case report and literature review. Neurourol Urodyn. 2007, 26: 543-546. 10.1002/nau.20239.
Ray K, Tonsi AE, Woods WG: An isolated lump in right groin: an unusual initial presentation of Crohn’s disease. Acta Chir Belg. 2009, 109: 98-100.
Ryan SP, Harte PJ: Suppurative inflammation of vas deferens: an unusual groin mass. Urology. 1988, 31: 245-246. 10.1016/0090-4295(88)90151-3.
Saha S, Wright G, Arulampalam T: An unusual groin mass. Seminal vesicle abscess: a case report. Cases J. 2009, 2: 6531-10.1186/1757-1626-2-6531.
Tsai HL, Hsieh JS, Yu FJ: Perforated colonic cancer presenting as intra-abdominal abscess. Int J Colorectal Dis. 2007, 22: 15-19.
Hosseini SJ, Rahmani M, Razzaghi M: Fournier gangrene: a series of 12 patients. Urol J. 2006, 3: 165-170.
Navarro JF, Mora-Fernandez C, Hoffmann G: Erythropoietin response is blunted in critically ill patients. Intensive Care Med. 1997, 23: 920-921.
Brook I: Microbiology and management of abdominal infections. Dig Dis Sci. 2008, 53: 2585-2591. 10.1007/s10620-007-0194-6.
Czymek R, Hildebrand P, Kleemann M: New insights into the epidemiology and etiology of Fournier’s gangrene: a review of 33 patients. Infection. 2009, 37: 306-312. 10.1007/s15010-008-8169-x.
Laor E, Palmer LS, Tolia BM: Outcome prediction in patients with Fournier’s gangrene. J Urol. 1995, 154: 89-92. 10.1016/S0022-5347(01)67236-7.
Yeniyol CO, Suelozgen T, Arslan M: Fournier’s gangrene: experience with 25 patients and use of Fournier’s gangrene severity index score. Urology. 2004, 64: 218-222. 10.1016/j.urology.2004.03.049.
Elliott D, Kufera JA, Myers RA: The microbiology of necrotizing soft tissue infections. Am J Surg. 2000, 179: 361-366. 10.1016/S0002-9610(00)00360-3.
Cantasdemir M, Kara B, Cebi D: Computed tomography-guided percutaneous catheter drainage of primary and secondary iliopsoas abscesses. Clin Radiol. 2003, 58: 811-815. 10.1016/S0009-9260(03)00274-5.
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Sources of funding
There are no external funding.
The authors declare that they have no competing interests.
WHH conceived the study, participated in its design and drafted the manuscript. CYL collected data and performed the statistical analysis. LJL participated in the study design and helped to draft the manuscript. TYH participated in the design of the study. KTP participated the study design and intellectual input. All authors read and approved the final manuscript.
Wei-Hsiu Hsu, Ching-Yu Lee contributed equally to this work.