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. 2015 Aug 17;8:7–9. doi: 10.1016/j.nmni.2015.08.003

Enterococcus hirae, an unusual pathogen in humans causing urinary tract infection in a patient with benign prostatic hyperplasia: first case report in Algeria

N Bourafa 1,2,3, L Loucif 1,4, N Boutefnouchet 2, J-M Rolain 1,
PMCID: PMC4590716  PMID: 26543562

Abstract

Enterococcus hirae is a zoonotic pathogen rarely isolated from human infections. This case is the first description of E. hirae causing urinary tract infection in a diabetic man with benign prostatic hyperplasia from Algeria. The clinical isolate was identified by MALDI-TOF MS and displayed a multisensitivity antibiotic profile.

Keywords: Algeria, Enterococcus hirae, MALDI-TOF MS, prostate enlargement, urinary tract infection

Introduction

Enterococci are important opportunistic pathogens and have become increasingly known as a significant cause of nosocomial and community-acquired infections; Enterococcus faecalis and E. faecium are the most common species implicated [1]. E. hirae is known to cause infections in animals but is rarely isolated from human clinical samples [2]. In the present report, we describe a case of E. hirae causing urinary tract infection in a diabetic man with benign prostatic hyperplasia. This case represents the first report of infection by this organism in Algeria.

Case report

A 50-year-old man presented with a medical history of diabetes mellitus type 2 and had prostate enlargement for approximately 1 year. He was previously hospitalized twice as a result of an inability to fully empty his bladder. He underwent urinary catheterization; however, no antibacterial therapy was administered. The last hospitalization was 2 months before this present admission.

Clinically, the patient presented with symptoms shared between benign prostatic hyperplasia, including straining to urinate, weak urine stream and inability to fully empty the bladder, and symptomatic lower urinary tract infection, including dysuria with cloudy urine, suprapubic pain, urinary frequency and urgency. The patient had a negative blood culture; however, the microscopic analysis of urine indicated the presence of white blood cells (>10 leukocytes per high-power field). The urine culture was positive, and the isolate was identified at the genus level using phenotypic methods including Gram staining, catalase test and growth on bile esculin azide agar and 6.5% NaCl media. The primary bacteriologic diagnosis indicated that the isolated strain belonged to the genus Enterococcus. The biochemical identification using an API 20 Strep system (bioMérieux, Marcy l’Etoile, France) could not identify the species involved. Characterization of the clinical isolate to the species level was achieved by MALDI-TOF MS (matrix-assisted laser desorption/ionization time-of-flight mass spectrometry) (Microflex; Bruker Daltonics, Bremen, Germany) using Flex Control and Biotyper 3.0 software (Bruker Daltonics) as previously described [3]. The identification of the strain by MALDI-TOF MS revealed the E. hirae species, with a correct identification score of 2.263. The isolate was multisensitive against nearly all antibiotics tested, including high-level (HL) aminoglycosides (HL gentamicin and HL kanamycin), ampicillin, linezolid, ciprofloxacin, nitrofuran and vancomycin. However, the strain presented resistance only to trimethoprim/sulfamethoxazole. The patient received oral treatment with antimicrobial combinations of ampicillin and gentamicin for 10 days. A urethral catheter was inserted for 5 days to empty the bladder. Urine samples were analyzed during treatment until the culture result was negative. The clinical status of the patient improved after 5 days of hospitalization, and the patient was discharged and continued antibiotic therapy at home.

Discussion

Urinary tract infection (UTI) caused by enterococci is very common and is primarily due to E. faecalis and E. faecium species [4]. Most cases of urinary tract infections occur in women and are uncommon in men [5]. Prostate enlargement, also called benign prostatic hyperplasia, represents an important risk factor for UTI and bacterial prostatitis in men [5,6]. This structural abnormality is mainly associated with aging and most often affects men who are 60 years of age and older [7]. This chronic condition can prevent the bladder from emptying completely, which increases the likelihood that bacteria will grow and trigger an infection [6].

In our case, we report the occurrence of symptomatic lower UTI in a diabetic man with an enlarged prostate caused by an unusual pathogen in humans, E. hirae. Clinical diagnosis of our patient showed that the infection was limited to the lower urinary tract based on the absence of clinical signs related to upper UTI, such as flank pain, vomiting and nausea [4], and to prostatitis, such as prostate pain, fever, chills, body aches and perineal pain [5,8]. Notably, in addition to prostate enlargement, urinary tract instrumentation, infection with HIV, interventions of the male urogenital tract and underlying illnesses, such as diabetes, are the main predisposing risk factors for UTI in men [8,9]. In the current case, benign prostatic hyperplasia was the main factor for the occurrence of UTI. Nonetheless, diabetes and urinary catheter indwelling performed for this patient during the previous hospitalizations represent also two other factors that may increase the risk of UTI.

The causative agent isolated in this case was identified as E. hirae. This species causes infections in animals, but reported cases in humans are rare [2]. This species was identified for the first time in young chickens [4]. The first report of a human infection caused by E. hirae was described in 1998 by Gilad et al. [10] in a case of septicemia in a 49-year-old man with renal insufficiency treated with hemodialysis. Since then, few cases have been described in humans [2,4] (Table 1). Notably, among all enterococcal infections in humans, the low incidence of E. hirae species has previously been described [1,4]. The bacterium may be underdiagnosed or misdiagnosed by standard identification approaches [4]. Our case demonstrates that MALDI-TOF MS is an important tool useful for rapidly and correctly identifying the pathogen at the species level without any complementary tests. The ability of MALDI-TOF MS to identify bacterial colonies from agar was evaluated for a broad range of clinically relevant bacterial strains. The proper identification to the species level is achieved in 80–95% of bacterial isolates [11]. Although the strain isolated in our patient showed a sensitive profile against the majority of antibiotics tested, the study of Robredo et al. [12] showed that this species may harbour vancomycin resistance genes and may participate in their transmission to other species of enterococci. The resistance of E. hirae to ampicillin and high-level gentamicin has also been reported [13]. More importantly, enterococci long-term urinary tract colonization can worsen and can lead to subsequent invasive infections, such as bacteraemia [4,14].

Table 1.

Case reports of Enterococcus hirae in human infections

Patient no. Age (years)/sex, country Diagnosis Predisposing factors Method of E. hirae identification Source of sample Antibiotic treatment Reference

1 49/M, Israel Septicemia Hemodialysis catheter Rapid ID 32 Strep system (bioMérieux, Marcy l’Etoile, France) Blood VAN [10]
2 72/M, France Native valve
Endocarditis
Coronary artery disease (sodAint gene)b sequencing Blood AMP, GEN, RIF, VAN [15]
3 55/M, Spain Spondylodiscitis Diabetes mellitus VITEK 2 automated system (bioMérieux); 16S rRNA gene sequencing Blood AMP, GEN, LEV, SXT [13]
4 78/F, France Infective endocarditis Diabetes mellitus, bioprosthetic valve 16S rRNA sequencing; sodAint gene sequencing Blood AMP, GEN, RIF [16]
5 62/F, Taiwan Acute pyelonephritis Unidentified BD Phoenix ID/AST Panel Inoculation System (Becton Dickinson, Franklin Lakes, NJ, USA); mur-2 genea sequencing Blood
Urine
AMX [4]
6 86/F, Taiwan Acute cholangitis Unidentified BD Phoenix ID/AST Panel Inoculation System (Becton Dickinson); mur-2 genea sequencing Blood CFM [4]
7 61/M, Korea Bacterial peritonitis Liver cirrhosis Automated MicroScan
WalkAway system; sugar fermentation tests
Blood
Ascetic fluid
AMP [17]
8 44/M, France Bacteremia Pyonephrosis Alcoholic liver disease Undetermined Blood
Urine
Kidney biopsy
AMX, CFT, AMK [14]
9 56/M, Brazil Native Valve Endocarditis Diabetes, cardiac arrhythmia with surgical ablation Undetermined Blood AMP, RIF, AMX [2]
10 50/M, Algeria Symptomatic
lower UTI
BPH, diabetes mellitus, urinary catheterization MALDI-TOF MS Urine AMP, GEN This study

AMK, amikacin; AMP, ampicillin; AMX, amoxicillin; BPH, benign prostatic hyperplasia; CFM, cefmetazole; CFT, ceftriaxone; CIP, ciprofloxacin; GEN, gentamicin; LEV, levofloxacin; MALDI-TOF MS, matrix-assisted laser desorption/ionization time-of-flight mass spectrometry; RIF, rifampin; SXT, trimethoprim/sulfamethoxazole; VAN, vancomycin.

a

Muramidase gene (mur-2) of E. hirae.

b

Gene encoding manganese-dependent superoxide dismutase.

In conclusion, we report the first case of symptomatic UTI involving E. hirae in a patient with benign prostatic hyperplasia from Algeria; this is the first report describing E. hirae in this country. This case emphasizes that MALDI-TOF MS is a powerful diagnostic tool for fast and accurate identification of this unusual pathogen at the species level.

Conflict of interest

None declared.

Acknowledgements

We are grateful to L. Hadjadj for technical assistance. We thank American Journal Experts for English-language editing. This work was partly funded by CNRS (CNRS 7278) and IHU Méditerranée Infection.

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