Post-partum, post-sterilization tubo-ovarian abscess caused by Fusobacterium necrophorum: a case report
© Chayachinda et al.; licensee BioMed Central Ltd. 2012
Received: 4 April 2012
Accepted: 29 August 2012
Published: 2 October 2012
Post-partum, post-sterilization tubo-ovarian abscess is a rare event. Fusobacterium necrophorum subspecies funduliforme, a normal flora found mainly in the oral cavity, appears to be the etiologic organism.
In this case report, a 25-year-old Thai woman had a post-partum, post-sterilization tubo-ovarian abscess caused by the strictly anaerobic bacterium, Fusobacterium necrophorum subspecies funduliforme. Progressively severe symptoms started 3 weeks after her third vaginal delivery with a tubal sterilization on the following day. On admission, she presented with peritonitis and impending shock. An exploratory laparotomy showed a ruptured left tubo-ovarian abscess. A segment of her ileum had to be resected because of severe inflammation.
Fusobacterium necrophorum subspecies funduliforme can be an etiologic organism of a ruptured tubo-ovarian abscess following tubal sterilization in a healthy host.
KeywordsPost-partum Post-sterilization Tubo-ovarian abscess Fusobacterium
Tubo-ovarian abscess (TOA), characterized by an inflammatory complex mass in the pelvis, accounts for 15% of all pelvic inflammatory diseases (PIDs) . A diagnosis of TOA requires the PID criteria and at least one complex pelvic mass . The post-partum period appears to be the least likely time to develop a TOA because ascending infection, which is the major pathophysiology in developing PIDs in most women, rarely occurs during this phase.
Particularly in women who have had tubal sterilization (TS), the incidence of TOA is minimal because the procedure blocks communication between the genital tract and the pelvic cavity . Theoretically this blockage should prevent an ascending transmission of any organisms, if present, from the genital tract proximal to the site of TS into the peritoneal cavity. This view is supported by clinical evidence that a complete or even partial occlusion of tubes appears to lessen the severity of infection when it occurs .
Three possible explanations of TOA after previous occluded tubes (TOAPOT) have been proposed . The most likely cause is the persistent tract or re-connection between the two tubal segments. Secondly, factors related to the operative procedure are possible. Lastly, systemic factors such as a hematogenous or lymphatic bacterial spread with a compromised immunological status of the patient are possible. In this case report, a 25-year-old Thai woman had a TOAPOT caused by Fusobacterium necrophorum subspecies funduliforme.
A 25-year-old Thai woman (gravida 3, para 3) had her third uneventful vaginal delivery followed by TS by modified Pomeroy technique on the following day. She experienced a persistent low-grade fever and abdominal pain that began in the third post-partum week and deteriorated over time. Her medical history was unremarkable. She denied any history of intravenous drug abuse, smoking, alcohol intake, or abdominal trauma. She reported being monogamous. Her partner was healthy and denied any history of sexually transmitted infections. Her previous obstetric history was unremarkable at 8 years and 5 years prior to this delivery. The vaginal delivery of her third baby took place 2 hours after a spontaneous rupture of membranes and progressed uneventfully. Post-partum TS was performed by request without any remarkable findings. She recovered well and was discharged with her baby from the hospital 3 days later.
With a persistent and progressive fever for 1 week, she was admitted to the hospital. On admission, she looked very sick. A physical examination showed a high-grade fever (39°C), tachycardia (pulse rate of 112 beats per minute), tachypnea (respiratory rate of 26 per minute), and a blood pressure of 110/60mmHg. An abdominal examination showed a small transverse subumbilical incision scar (from the TS) without any signs of wound infection. A 16-week, pregnancy-sized, non-mobile pelvic mass was found on the left side of her pelvis. The mass and other areas of her pelvis and abdomen were tender, suggesting peritonitis. A pelvic examination revealed a large amount of purulent vaginal discharge, a marked degree of pain elicited upon cervical excitation, a bulging cul-de-sac, and the tender pelvic mass as described in the abdominal examination findings. The results of the rest of the physical examination were unremarkable.
Ultrasonograms showed a uterus of 10.1×6.2×5.1cm in size and a smooth thin endometrial lining. A multiloculated mass of 6.2×8.2×10.9cm in size was seen over the left adnexal region. The right adnexal region was unremarkable. Approximately 50mL of free fluid was noted in the cul-de-sac. Laboratory testing revealed a hematocrit level of 32.2%, a white blood cell count of 33,170/mm3 (90.2% were polymorphonuclear neutrophils), and a platelet count of 422,000/mm3. Levels of blood urea nitrogen and creatinine were 6.2 and 0.5mg/dL, respectively. Blood electrolytes were as follows: sodium 138mmol/L, potassium 3.4mmol/L, chloride 106mmol/L, and bicarbonate 22mmol/L. A slightly prolonged coagulogram was found: a prothrombin time of 15.3 (10 to 13) seconds and a partial thromboplastin time of 34.7 (21 to 30) seconds. The results of a liver function test were normal. The results of a cervical swab and blood culture were negative.
The clinical diagnosis was a ruptured TOA. After counseling for a diagnosis and a plan for an urgent exploratory laparotomy, intravenous clindamycin 2700mg per day and gentamicin 240mg per day were initiated. Fluid resuscitation and preparation of blood components were executed.
A total hysterectomy with left salpingo-oophorectomy, ileal resection with end-to-end anastomosis, abdominal toileting, and Penrose drain placement were performed. The operation took 4 hours, and the estimated blood loss was 2000mL. A Gram stain of pus from the abdominal cavity demonstrated numerous polymorphonuclear cells and numerous coccoid pleomorphic Gram-negative rods. An abdominal fluid culture revealed no growth, whereas the pus culture showed Fusobacterium necrophorum. The organism was identified as F. necrophorum subsp. funduliforme by microscopic examination, biochemical characteristics, and 16S ribosomal deoxyribonucleic acid (rDNA) sequencing. The isolate was designated as SIRD333. The 658 base-pair fragment of SIRD333 16S rDNA was submitted to GenBank (accession number JX103157). The surgical pathology showed chronic endometritis, TOA, and ileitis.
Our patient recovered well after the operation and had further treatment with intravenous antibiotics (clindamycin and gentamicin) until being clinically stable for 48 hours (4 days of intravenous antibiotics in total). She was discharged on the 10th post-operative day. She continued oral antibiotics (clindamycin) for six more weeks. She was clinically well during all of her follow-up visits.
To the best of our knowledge, this is the first case report of F. necrophorum as the etiologic organism of TOA developing during the post-partum period in a patient who had undergone TS. At our institution, where more than 5000 TS procedures are performed annually by using the modified Pomeroy technique, post-sterilization TOAs are rarely encountered.
Time intervals from tubal occlusion to TOAPOT had been reported to range from as early as 36 hours to up to 12 years . Our patient presented with a gradual onset of systemic inflammatory response syndrome (tachycardia, tachypnea, high-grade fever, and high count of white blood cells) and peritonitis starting from the third week after sterilization. Since post-partum sexual intercourse had not been engaged in and the history was unremarkable, systemic factors such as hematogenous or lymphatic bacterial spread  or pelvic infection from adjacent organs  appeared to be the most probable mechanisms. The partially resected fallopian tubes might promote favorable conditions for anaerobic invasion and growth .
Fusobacterium is a strictly anaerobic, Gram-negative bacillus. Among this group, F. necrophorum is the most virulent species. This species has been divided into two subspecies: F. necrophorum subsp. funduliforme and F. necrophorum subsp. necrophorum. The former subspecies is usually associated with human infection, whereas the latter is usually associated with other mammals .
F. necrophorum subsp. funduliforme normally colonizes in the oral cavity  but can be found in abdomino-pelvic viscera and the female genital tract . It can cause infection in a variety of human viscera such as the head and neck, the respiratory tract, the abdomen and pelvis, and the female genital tract . Transient bacteremia of F. necrophorum has been found to be related to preterm labor, chorioamnionitis, dead fetus in utero, and TOA . As our patient denied a history of a sore throat in the previous 4 weeks, the source of the etiologic organism was likely to have been from the adjacent organs or the genital tract itself. The breakage of the fallopian tubes from the TS was the most likely pathogenesis because the procedure might allow the spreading of organisms into the peritoneal cavity.
In general, TOA responds well to the empirical antibiotic regimen recommended by the Centers for Disease Control and Prevention . However, approximately 25% of TOA cases need surgical intervention or drainage . Four principal indications for laparotomy/laparoscopy among these patients are suspicion of a surgical emergency (rupture of the abscess or organs), unsuccessful drainage of the abscess, poor response to treatment with drainage and antibiotics, and uncertainty about the diagnosis . Kuo et al.  found that, among multiparous patients, hysterectomies were more commonly performed. The reported case required an exploratory laparotomy because of the suspicion of a ruptured TOA. The hysterectomy had to be performed in order to get rid of all sources of infection.
F. necrophorum subsp. funduliforme can be an etiologic organism of a ruptured TOA following TS in a healthy host. Early detection and early treatment by a multidisciplinary care team can significantly reduce the maternal mortality and morbidity.
Written informed consent was obtained from the patient for publication of this case report and any accompanying images. A copy of the written consent is available for review by the Editor-in-Chief of this journal.
pelvic inflammatory disease
ribosomal deoxyribonucleic acid
tubo-ovarian abscess after previous occluded tubes
The authors would like to thank Chanchai Vantanasiri, head of the Department of Obstetrics and Gynecology, and Pattarachai Kiratisin, head of the Department of Microbiology, for their kind support throughout the management process of this reported case.
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