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. 2021 Sep 20;26:111. doi: 10.1186/s40001-021-00582-y

Eggerthella lenta bacteremia successfully treated with ceftizoxime: case report and review of the literature

Shuming Jiang 1,#, Jianfei E 2,#, Dengchao Wang 2, Yanjiao Zou 2, Xiao Liu 2, Hualiang Xiao 2, Yuan Wen 2, Zongyao Chen 2,
PMCID: PMC8454090  PMID: 34544476

Abstract

Eggerthella lenta is a normal human microflora that is anaerobic, non-sporulating, and Gram positive. However, an increasing number of studies have shown that it could also be an important pathogen for humans, even causing life-threatening infection under certain conditions. However, understanding its pathogenic mechanism and treatment options still need to be improved; more clinical data are needed to explore it further. In this article, we report a case of ceftizoxime-cured E. lenta bacteremia and review the recent literature to provide more clinical data for the diagnosis of E. lenta bacteremia. Our report suggests that the frequency of E. lenta bacteremia is increased in patients with hematologic or solid organ cancer, diabetes mellitus and also in those with appendicitis.

Keywords: Eggerthella lenta, Bacteremia, Ceftizoxime, Appendicitis

Introduction

Eggerthella lenta was first described by Arnold Eggerth in 1935 [1], which was originally named Eubacterium lentum. E. lenta is a normal bacterium that can colonize the human gut, female reproductive tract, oral cavity, and prostate gland [2]. Due to the nature of strictly anaerobic and slow growth, E. lenta is difficult to culture and identify. Although, until recently, several microbial identification techniques, particularly mass spectrometry, were used to identify bacteria [3, 4], an increasing number of E. lenta infections in humans have been reported, referring to bloodstream infection [57], liver abscess [8], bacterial vaginosis [9] and meningitis [10]. However, a unified standard treatment and its pathogenic mechanism have not yet been recognized. Here, we report cases of E. lenta bacteremia cured by ceftizoxime and review the existing recent literature. This article aims to add to existing data for the timely diagnosis and treatment of E. lenta bacteremia.

Materials and methods

Case presentation

A 32-year-old man was admitted to our hospital with metastatic right lower abdominal pain for more than 20 h. He had a healthy history. On admission, he had fever (39.8 ℃), laboratory tests showed elevated C-reactive protein (127 mg/L), elevated white blood cell count (20.67 × 109/mL with 87.3% neutrophils), elevated procalcitonin (0.95 ng/mL) and normal biochemical and coagulation parameters. Color Doppler ultrasound suggested appendicitis. Two sets of blood cultures (four blood culture bottles) were consecutively taken and incubated for pathogenic detection before the use of ceftizoxime (3 g, ivgtt, q8h) in empirical anti-infective therapy. The patient underwent an appendectomy. The patient’s temperature and white blood cell count gradually dropped to normal 2 days later, but procalcitonin was still abnormal (0.35 ng/mL).

Blood culture (two anaerobic bottles) appeared positive in the BacT/ALERT 3D blood culture system (bioMerieux, France) for 49.8 and 56.0 h, respectively. Furthermore, positive broth culture was incubated in an anaerobic airbag (bioMerieux, Lyon, France) for 72 h, and small transparent gray colonies can be seen. The isolated strain was identified as Eggerthella lenta with the help of MALDI-TOF (Bruker Daltonik GmbH, Germany), with a value of 2.08, indicating a high confidence result. Additionally, 16S rRNA sequencing was performed to further confirm the precision of our identification. The result showed that our strain had the highest identity with the Eggerthella lenta DSM 2243 strain. The result of 16S rRNA sequencing was submitted to the NCBI database with accession number MW295842.

From the results of the microbiological examination, the clinicians believed that the current antibacterial agent (ceftizoxime) is effective and should not be replaced. Seven days after surgery, the patient recovered and was discharged from the hospital.

Literature search

We searched the literature in PUBMED from 2000 to 2020, using the search terms “eggerthella lenta and bacteremia” or “eggerthella lenta and blood”. From the retrieved literature, we selected the literature with a detailed description of the case and summarized the patient's clinical characteristics.

Discussion

In recent years, Eggerthella lenta has received increasing attention as a human pathogen. However, due to its fastidious nature, some cases of E. lenta infection could previously have been undiagnosed by conventional biochemical methods [11]. Methods such as 16S ribosomal RNA (16S rRNA) gene sequencing techniques were considered the most accurate method. However, this method is costly and may not be readily available. Newer methods, such as MALDI-TOF MS, can quickly identify E. lenta and are more readily available at relatively low cost [4].

Several reports have shown that E. lenta can be isolated from humans at multiple sites [1215], which presented a greater challenge for its clinical diagnosis and treatment. Recent research has attempted to summarize the determinants of E. lenta bacteremia. An earlier study showed that most E. lenta bacteremia exhibited serious intra-abdominal pathology [16]. Our case, the patient admitted to the hospital due to appendicitis, was also consistent with this observation. E. lenta, which colonizes the intestinal tract, could easily invade the bloodstream through the damaged mucosa and cause bacteremia. However, other studies showed that patients with cancer, decubitus ulcers, and diabetes mellitus were more likely to suffer from E. lenta bacteremia [17, 18]. All of these investigations showed different results due to the different populations involved.

We summarized 175 patients with E. lenta bacteremia from the literature [57, 10, 1931], along with the case reported here. The clinical characteristics of these 176 cases in total are presented in Table 1. Males (102/176) and individuals around 60 years of age (mean age = 61.2) were highly likely to be infected with E. lenta, while 63.3% had fever, 46.7% abdominal pain, 27.8% vomiting, and 16.1% diarrhea. This suggests that about 36.7% of the patients did not show fever symptoms in the case of E. lenta bacteremia, making it a great challenge for clinicians to accurately diagnose the bloodstream infection caused by this bacillus. Our data showed that the most common underlying health conditions for E. lenta bacteremia were solid or hematologic organ cancer (31.1%), diabetes mellitus (25.6%), and cardiovascular diseases (15.0%). These three conditions represented 71.7% of the total of 176 patients, while the main sources of infection in all of these patients were the gastrointestinal tract (65.0%), skin and soft tissues (19.4%), and abscess (8.9%). Of all initial symptoms, appendicitis accounts for the highest proportion, 21.8%, much higher than colitis, the second largest, 9.4%. Appendicitis is often accompanied by perforation or even peritonitis. E. lenta, normally colonized in the gastrointestinal tract, could invade the bloodstream more easily. Therefore, patients with tumors, diabetes mellitus, and appendicitis should pay more attention to bloodstream infection by E. lenta.

Table 1.

Clinical features of 176 patients with E. lenta bacteremia

Characteristic Number of patients Percentage (%)
Male/female 102/74
Mean age, year 61.6 (19–86)
Presenting symptoms at admission
 Fever 114 63.3
 Abdominal pain 84 46.7
 Emesis 50 27.8
 Diarrhea 29 16.1
Underlying health status
 Hematologic or solid organ cancer 56 31.1
 Diabetes mellitus 46 25.6
 Cardiovascular diseases 27 15.0
 Chronic kidney disease 19 10.6
 Dementia 15 8.3
 Chronic pulmonary disease 13 7.2
 Peripheral vascular disease 10 5.6
 Cerebral vascular disease 9 5.0
 Liver cirrhosis 7 3.9
None 7 3.9
 HIV infection 6 3.3
 Rheumatologic disease 4 2.2
 Crohn’s disease 1 0.6
Likely source of infection
 Gastrointestinal 117 65.0
  Appendicitis 39 21.7
  Colitis 17 9.4
  Diverticulitis 16 8.9
  Small bowel obstruction 9 5.0
  Colon cancer 7 3.9
  Gastrointestinal bleeding 3 1.7
  Other 9 5.0
 Skin and soft tissues 35 19.4
 Decubitus ulcer 9 5.0
 Sacral ulcers 9 5.0
Other 17 9.4
 Abscess 16 8.9
  Intra-abdominal abscess 10 5.6
  Liver abscess 3 1.7
  Other 3 1.7
Pulmonary 2 1.1
Pancreatitis 1 0.6
Blunt trauma 2 1.1
Bacteremia caused by an unknown source 24 13.3
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The most efficient antibacterial drugs against E. lenta infection are metronidazole, amoxicillin–clavulanate, and carbapenems; it is resistant to ceftriaxone [7, 16, 18, 20, 32]. Our patients empirically used ceftizoxime without clear pathogenic bacteria and showed good efficacy, which to our knowledge, has not been reported so far in the literature. Although both ceftizoxime and cefotaxime belong to the third generation of cephalosporins, ceftizoxime has a higher antianaerobic activity than cefotaxime [33], which may be the reason why our patients have a better response to ceftizoxime. However, there could be other reasons. An earlier study divided 29 patients infected with E. lenta into two groups and found one susceptible to beta-lactam drugs, while the other was completely resistant to beta-lactam antibiotics [34]. From this, we could speculate that our strain belonged to the group that was sensitive to beta-lactam antibiotics. It was unfortunate that we were unable to perform antimicrobial susceptibility tests due to the limitations of our conditions. Although more tangible evidence is needed to confirm, our findings also contribute to a better understanding of the resistance characteristics of E. lenta.

To conclude, the frequency of E. lenta bacteremia is increased in patients with hematologic or solid organ cancer, diabetes mellitus and also in those with appendicitis. E. lenta bacteremia in our study was successfully treated with ceftizoxime; however, this needs to be further confirmed in future research.

Acknowledgements

Special thanks to the editors and the reviewers for insightful suggestions on this work. We are indebted to Dr. Liangyou Tang for his excellent suggestions on the revision of the manuscript.

Authors' contributions

ZC and SJ were involved in concept and writing. JE and DW were involved in literature searching and manuscript revision. YZ, XL, HX and YW were involved in data analysis. All authors read and approved the final manuscript.

Funding

Our study was supported by Deyang Science and Technology Program (2018SZS076).

Availability of data and materials

Not applicable.

Declarations

Ethics approval and consent to participate

The case report was approved and supervised by the ethics committee of the People's Hospital of Deyang City.

Consent for publication

Waiver of informed consent.

Competing interests

The authors declare that they have no competing interests.

Footnotes

Publisher's Note

Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Shuming Jiang and Jianfei E contributed equally to this work

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