CC BY-NC-ND 4.0 · J Lab Physicians 2023; 15(04): 602-607
DOI: 10.1055/s-0043-1770930
Case Report and Review

Edwardsiella tarda Causing Fishbone Injury Cellulitis Leading to Sepsis in a Case of Hematological Malignancy—A Rare Report and Review of Literature

Sushree Sarathi
1   Department of Microbiology, All India Institute of Medical Sciences, Raipur, Chhattisgarh, India
,
Anupam Brahma
2   Department of Hematooncology, All India Institute of Medical Sciences, Bhubaneswar, Odisha, India
,
Prabodha Kumar Das
2   Department of Hematooncology, All India Institute of Medical Sciences, Bhubaneswar, Odisha, India
,
3   Department of Microbiology, All India Institute of Medical Sciences, Bhubaneswar, Odisha, India
,
Bijayini Behera
3   Department of Microbiology, All India Institute of Medical Sciences, Bhubaneswar, Odisha, India
› Author Affiliations
Funding None.
 

Abstract

Edwardsiella tarda (E. tarda), a gram-negative bacillus, a member of order Enterobacterales, is typically a fish pathogen frequently isolated from fresh and brackish water environments. It is very rarely implicated in human infections such as gastroenteritis (most common), cellulitis, gas gangrene, hepatobiliary infections, peritonitis, empyema, and meningitis. Bacteremia/sepsis caused by E. tarda can be fatal in humans, although very rare (<5%). To date, very few cases of E. tarda sepsis have been reported worldwide including India. We report a rare case of cellulitis caused by E. tarda following fishbone injury in a patient with underlying hematological malignancy leading to sepsis.


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Key Message

Appropriate supplemented media and a reliable detection system should be used to identify these fastidious organisms. Clinicians should be aware of the pathogenic potential of Edwardsiella tarda to initiate appropriate therapy in time to prevent fatal extraintestinal manifestations.


#

Introduction

The genus Edwardsiella first described by Ewing et al in 1965 is a member of the family Enterobacterales consisting of three species such as Edwardsiella hoshinae, E. ictaluri, and E. tarda. Their usual habitat is freshwater and marine environments thus commonly pathogenic to cold-blooded vertebrates such as reptiles, amphibians, and fish especially those who are associated with these ecological niches.[1] Among the three, E. tarda is the only species known to cause human infections. Among them, more than 80% are gastroenteritis presenting as acute watery diarrhea resembling that produced by other toxigenic enteropathogens. Extraintestinal and systemic infections like wound infections meningitis, osteomyelitis, cholecystitis, and septicemia are rarely caused and can lead to potentially life-threatening conditions with a 50% risk of mortality.[2] Exposure to aquatic environments/exotic animals, people with underlying illnesses, including liver disease, and the ingestion of raw fish are the major risk factors associated with E. tarda. Other factors that increase the risk of getting E. tarda infection are prolonged contact with water, high iron concentration, and very young or old age.[3]


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Case Report

A 71-year-old male with a known case of diffuse large B cell lymphoma (activated B cell type, stage IIIB with national comprehensive cancer network-international prognostic index prognostic score 4) presented to the outpatient department of medical oncology and hematology for the fifth cycle of intravenous rituximab, cyclophosphamide, doxorubicin, vincristine, and oral prednisolone (R-CHOP) chemotherapy. Chemotherapy was started after reviewing the physical and laboratory parameters (serum creatinine, renal function, liver function, complete blood count) to be completely normal. On the next day, he complained of pain and swelling of the right hand that extended moderately up to the lower forearm over the next 4 to 6 hours and developed a fever.

The patient's physical and systemic examinations were unremarkable except he was febrile(38°C). On further interrogation, he gave the history of prick by a raw fishbone over the left thumb 4 days back. Local examination revealed erythema, swelling, tenderness, and local rise of temperature of left hand and forearm including wrist sparing the elbow. There was no loss of movement, sensation, and vascularity. A scanty amount of serosanguinous collection could be aspirated from the swollen area and sent for gram stain and culture. Gram stain revealed few epithelial cells, 10 to 15 polymorphonuclear cells/low power field, fibrinous debris, and few gram-negative bacilli. Initial blood investigations revealed an absolute neutrophil count of 12,510/cu.mm, a high white blood cell count (14. 38 × 103/μL) with polymorphic predominance (87.8%), platelet count: 2,45,000/mm3, hemoglobin: 8.5 g/dL, C-reactive protein: 178.4 mg/L. There was no remaining fishbone on the affected finger as confirmed by radiographic imaging. Left upper limb venous Doppler also showed no abnormality. Blood was sent for automated culture and sensitivity before starting empirical therapy of intravenous meropenem 1 g three times daily + linezolid 600 mg twice daily along with local conservative management of the swelling. Prophylactic acyclovir and cotrimoxazole were also continued with the R-CHOP regimen. Automated blood culture came positive on day 2 (gram-negative bacilli), and yielded pure growth of small nonlactose fermenting colonies (0.5–1 mm) on MacConkey agar ([Fig. 1]). Phenotypic identification was done by putting up a panel of biochemical tests. The isolate was gram-negative motile bacilli, catalase positive, oxidase negative, fermenting only glucose and maltose, negative for nitrate reduction, citrate utilization, Voges Proskauer, phenylpyruvic acid, and urease test. Methyl red, indole, ornithine, and lysine decarboxylase were positive, triple sugar iron-alkaline/acid with H2S and arginine dihydrolase was negative—provisionally identified to be Edwardsiella spp. and further identified to be E. tarda by VITEK 2 compact system. Antimicrobial susceptibility test was performed on Muller Hinton agar by disc diffusion method using Amikacin (30 µg), Gentamicin (10 µg), Trimethoprim/Sulfamethoxazole (25µg), Ampicillin (10µg), Chloramphenicol (30µg), Ciprofloxacin (5µg), Cefotaxime (30 µg), Meropenem (10µg) and polymyxin (300 µg) for identification purpose and interpreted according to Clinical and Laboratory Standards Institute (CLSI, 2021). ATCC Escherichia coli 25922 was used as the control strain. The isolate was susceptible to all the agents tested except ampicillin, cefotaxime, and polymyxin. The same organism with a similar antibiogram was isolated from the aspirate of cellulitis as well. By the time antibiogram was available, the patient had already received the upgraded antibiotic intravenous (IV) meropenem for 48 hours, hence allowed to continue; however, linezolid was deescalated. On day 5, cellulitis was resolved and the complete blood count showed normal parameters. IV meropenem was stopped and the patient was discharged on day 6 with the advice of oral faropenem (200 mg) 1T BD for 10 days. This case of sepsis could be successfully treated by prompt initiation of meropenem.

Zoom Image
Fig. 1 Small nonlactose fermenting translucent colonies of E. tarda on MacConkey agar.

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Discussion

We did the literature search over the past 10 years (2013-2022) by the search engines PubMed using Medical Subjects Headings (MeSH) terms “E. tarda,” “bacteremia,” “catfish injury,” and “underlying malignancy.” Only monomicrobial infections due to E. tarda were included in the review. All articles published in English were included in this analysis. We reviewed 519 kinds of literature on the subject (E. tarda) over the past 10 years (2013–2022) out of which 25 were found relevant and included in the review. Clinical details of all published kinds of literature are compiled in [Table 1].[2] [4] [5] [6] [7] [8] [9] [10] [11] [12] [13] [14] [15] [16] [17] [18] [19] [20] [21] [22] [23] [24] [25] [26] As per the review, E. tarda was found to be the cause of various infections such as sepsis, cholangitis, endocarditis, deep abscess, myonecrosis, osteomyelitis, and pelvic inflammatory disease. Out of these, nine were isolated solely from blood, seven from pus/ tissue fluids along with blood, five solely from pus/tissue/fluids, and three from stool. All reports are from abroad, especially from Japan. Out of all, 12 had a history of either consumption/bite of catfish, and five were positive for Hepatitis C. All were adults/elderly except for one case of zero-day neonatal sepsis. There was one report of soft-tissue infection and sepsis following a catfish bite and one case of deep leg abscess following trauma by the barb of freshwater fish from the United States and one report of bacteremia during chemotherapy for acute lymphoblastic leukemia from Japan ([Table 1]).[2] [4] [5] [6] [7] [8] [9] [10] [11] [12] [13] [14] [15] [16] [17] [18] [19] [20] [21] [22] [23] [24] [25] [26] So, to the best of our knowledge, the present case is a rare report of E. tarda sepsis following fishbone injury cellulitis in an individual with underlying hematological malignancy.

Table 1

Details of infections caused by Edwardsiella tarda around the globe in the last 10 years

Infections caused by Edwardsiella

tarda

Year

Geographical location

Age (years) /sex

Case

Underlying diseases/Past history

Clinical samples

Possible source

References

Bacteremia

2018

Japan

65/F

Psoas abscess, spinal epidural abscess

Total gastrectomy for advanced gastric cancer

Blood (Pus: no growth)

Consumption of sashimi (sliced raw fish) and grilled eel

Suzuki et al[4]

2018

Aurora, Colorado, US

58/M

Septic shock with multiple organ dysfunction and bone marrow suppression

COPD, untreated hepatitis C, remote history of lung cancer

Blood, surgical wound

Suspected catfish sting or stick with a contaminated fish hook

Morrisette et al[5]

2019

Japan

76/M

Bacteremia

Chemotherapy for ALL

Blood

Couldn't access article

Manabe et al[6]

2019

Tennessee, US

58/M

Sepsis, soft-tissue swelling

Lung cancer, diabetes, tuberculosis, alcohol abuse

Blood, knee aspirate

Catfish bite

LeBlond[7]

2020

Tokyo

93/F

Acute cholecystitis, sepsis and DIC

Resection of breast cancer and total hysterectomy for uterine fibroids

Blood

Not described

Tonosaki et al[8]

2021

Florida, USA

59/F

Colitis, septic shock

Advanced lung cancer, cirrhosis of the liver, hepatitis C positivity

Blood

Consumption of raw oysters

Healey et al[9]

Intrauterine infections

2017

Japan

34/F

Septic shock, DIC, postcesarean wound hematoma with abscess

None

Blood, cesarean wound swab

None

Miyazawa et al[10]

2020

Japan

0 days/F

Mimicked respiratory distress syndrome at Bomsel's stage III

Threatened premature labor

Umbilical cord blood, amniotic fluid and maternal venous blood

None

Egashira et al

[11]

Skin infections

2021

Memphis, Tennessee

(USA)

58/M

Bullae with desquamation

Hepatitis C and polysubstance abuse

Bullae fluid

Catfish sting

Peravali and Muddassir[12]

Mycotic aneurysm

2018

Japan

65/F

Ruptured aneurysm

Cirrhosis, hepatocellular carcinoma and diabetes mellitus

Blood

None

Ebisawa et al[13]

Liver abscess

2014

Japan

77/M

Hepatic cyst

Diabetes mellitus and CML

Cyst fluid

Not described

Taguchi et al[14]

2020

Saudi Arabia

37/F

Fulminant septic shock, multiple liver abscess

Laparoscopic cholecystectomy

Blood

None

Bakirova et al[1]

2021

USA

85/M

Perihepatic abscess, chronic cholecystitis

Chronic kidney disease receiving hemodialysis, myelodysplastic syndrome

Pus

None

Pham et al[15]

Cholangitis

2017

Japan

80/F

Lemmel syndrome

Hepatocellular carcinoma and gallbladder cancer

Blood, bile duct fluid

Consumption of contaminated food was suspected as the origin

Miyajima et al[16]

Gastroenteritis

2021

USA

72/F

Diarrhea following, minimal change disease, subacute interstitial nephritis

Hypertension, hyperlipidemia, coronary artery disease, hypothyroidism, and liver cysts

Stool

Consumption of oyster

Bui et al[17]

2021

Ukraine

22/M

Gastroenteritis

None

Feces

Seafood soup

Sydorchuk et al[18]

Endocarditis

2021

Japan

28/F

Infective endocarditis

Nonimmunocompromised host)

Blood

Couldn't be traced

Koike et al[19]

Deep abscess

2020

Ohio

9/M

Deep leg abscess following trauma by barb of freshwater fish

None

Pus

Sundaram et al[20]

Myonecrosis/necrotizing fasciitis

2013

Nashville, Tennessee

(USA)

57/M

Necrotizing fasciitis

Pulmonary hypertension, hepatitis C, and cirrhosis

Debrided tissue

Puncture injury from a wild catfish

Crosby et al[21]

2019

Japan

64/F

Necrotizing fasciitis, septicemia with gastroenteritis

None

Blood, debrided tissue (no growth)

None

Yamamuro

et al[22]

Gastric submucosal abscess

2020

Japan

74/M

Gastric wall abscess and intra-abdominal abscess around the spleen

Chronic alcohol consumption and hepatobiliary diseases

Blood, pus

None

Ota et al[23]

Osteomyelitis

2019

Singapore

79/M

Chronic osteomyelitis

Atrial fibrillation postpercutaneous coronary intervention

Sinus discharge, debridement tissue

None

Ng et al[24]

Pelvic inflammatory disease

2019

Taiwan

45/F

PID (uterine rupture), splenomegaly

Hepatitis C carrier, with type 2 diabetes mellitus and uterine leiomyoma

Blood

Raw fish/sushi consumption

Tai et al[25]

E. tarda sepsis

(5 cases)

2004–2013

Japan

46–88 years

Sepsis

Cholecystitis, end-stage cancer, liver abscess

Blood

One case had dietary history of eating Sushi

Hirai et al[2]

E. tarda

Superinfection in relapse of ulcerative colitis

2005–2013

Japan

24–63 years

Ulcerative colitis

3 (33.3%) were steroid-dependent

Stool

All 9 patients were Japanese with dietary habits of eating raw freshwater fish

Koido et al[26]

Abbreviations: ALL, acute lymphoblastic leukemia; CML, chronic myelogenous leukemia; COPD, chronic obstructive pulmonary disease; DIC, disseminated intravascular coagulation; PID, pelvic inflammatory disease.


The genus Edwardsiella, although belongs to the family Enterobacterales, strongly differs in habitats, pathogenic, biochemical, and physiological properties and is weakly related to other members of the family with a genetically distinct taxon. Further, unlike other members, Edwardsiella species are susceptible to commonly used antibiotics including penicillin that is very unusual for Enterobacterales. E. tarda is a normal gut flora of fish and humans, can cause opportunistic infections, especially in immunocompromised patients, and infection may range from mild gastroenteritis to fatal sepsis.[27]

E. tarda has two genomic strains—ATCC23685 strain commonly found in normal human gut flora, while EIB 202 is a virulent strain that causes disease in freshwater/ marine fish.[28] E. tarda produces several virulence factors as shown by different studies such as—invasive to HEp-2 cell monolayers, hemolysin, and siderophore production. They have a high affinity for red blood cells due to specific fimbriae and thus have hemagglutination properties.[29] Few studies show that it releases dermato toxins that damage the skin and a high propensity for causing cellulitis. Further, flagellar genes of E. tarda—fliC12, fliA, and flhDC—are essential for the length and number of flagellar filaments to facilitate their swimming and swarming ability.[30] Our patient was a known case of diffuse large B cell lymphoma and received the fifth cycle of chemotherapy (R-CHOP). In addition, he had a history of prick by a raw fishbone over his left thumb leading to cellulitis that may have allowed the bacteria to enter the bloodstream more easily. The underlying comorbidity of malignancy and chemotherapy might have facilitated for rapid development of systemic infection (sepsis) following a fishbone injury cellulitis. Thus, clinicians should be aware of the pathogenic potential of this bacteria. As per literature, the majority of E. tarda infections have been reported from abroad involving soft tissue and sepsis and had multiple comorbidities with high potential for mortality. To the best of our knowledge, there was only one report of sepsis with multiple liver abscesses associated with Cushing's syndrome because of recreational aquatic exposure from Vellore, India.[31] Thus, early identification and initiation of intravenous broad-spectrum antibiotic treatment are key to saving the patient from fatal systemic illness.


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Conflict of Interest

None declared.

Acknowledgements

We would like to thank Mrs Alakananda Mahapatra Lab Technician for technical help.

  • References

  • 1 Bakirova GH, Alharthy A, Corcione S. et al. Fulminant septic shock due to Edwardsiella tarda infection associated with multiple liver abscesses: a case report and review of the literature. J Med Case Reports 2020; 14 (01) 144
  • 2 Hirai Y, Asahata-Tago S, Ainoda Y, Fujita T, Kikuchi K. Edwardsiella tarda bacteremia. A rare but fatal water- and foodborne infection: review of the literature and clinical cases from a single centre. Can J Infect Dis Med Microbiol 2015; 26 (06) 313-318
  • 3 Janda JM, Abbott SL, Kroske-Bystrom S. et al. Pathogenic properties of Edwardsiella species. J Clin Microbiol 1991; 29 (09) 1997-2001
  • 4 Suzuki K, Yanai M, Hayashi Y, Otsuka H, Kato K, Soma M. Edwardsiella tarda bacteremia with psoas and epidural abscess as a food-borne infection: a case report and literature review. Intern Med 2018; 57 (06) 893-897
  • 5 Morrisette T, Hewgley WP, Hewgley H. Edwardsiella tarda bacteremia in untreated hepatitis C: alterations in antimicrobial therapy for a pan-susceptible pathogen in a critically ill patient. Am J Ther 2019; 26 (04) e530-e533
  • 6 Manabe M, Matsumoto Y, Uchida T, Momose D, Sugano Y, Koh KR. [Bacteremia due to Edwardsiella tarda emerging after chemotherapy for recurrent pH-positive acute lymphoblastic leukemia]. Gan To Kagaku Ryoho 2019; 46 (12) 1903-1905
  • 7 LeBlond L. Catfish bite case report. Wilderness Environ Med 2019; 30 (03) 291-294
  • 8 Tonosaki K, Yonenaga K, Mikami T, Mizuno T, Oyama S. Acute cholecystitis, sepsis, and disseminated intravascular coagulation caused by Edwardsiella tarda in an elderly woman. Tokai J Exp Clin Med 2021; 46 (01) 51-53
  • 9 Healey KD, Rifai SM, Rifai AO, Edmond M, Baker DS, Rifai K. Edwardsiella tarda: a classic presentation of a rare fatal infection, with possible new background risk factors. Am J Case Rep 2021; 22: e934347
  • 10 Miyazawa Y, Murakami K, Kizaki Y, Itaya Y, Takai Y, Seki H. Maternal peripartum septic shock caused by intrauterine infection with Edwardsiella tarda: a case report and review of the literature. J Obstet Gynaecol Res 2018; 44 (01) 171-174
  • 11 Egashira M, Higuchi N, Shichijo A, Egashira T, Takayanagi T. Early-onset Edwardsiella tarda septicemia in an extremely preterm infant. Pediatr Int 2020; 62 (07) 860-861
  • 12 Peravali R, Muddassir K. A rare but fatal waterborne infection. Am J Med 2021; 134 (05) e329-e330
  • 13 Ebisawa KF, Nishimura S, Yamamoto S, Ohji G, Iwata K. Mycotic aneurysm caused by Edwardsiella tarda successfully treated with stenting and suppressive antibiotic therapy: a case report and systematic review. Ann Clin Microbiol Antimicrob 2018; 17 (01) 21
  • 14 Taguchi H, Tamai T, Numata M. et al. Endoscopic ultrasonography-guided transmural drainage of an infected hepatic cyst due to Edwardsiella tarda: a case report. Clin J Gastroenterol 2014; 7 (05) 422-428
  • 15 Pham K, Wu Y, Turett G. et al. Edwardsiella tarda, a rare human pathogen isolated from a perihepatic abscess: implications of transient versus long term colonization of the gastrointestinal tract. IDCases 2021; 26: e01283
  • 16 Miyajima S, Yamakawa G, Ohana M. Edwardsiella tarda-associated cholangitis associated with Lemmel syndrome. IDCases 2018; 11: 94-96
  • 17 Bui A, Cortese C, Libertin CR, Porter II IE. Minimal change disease and subacute interstitial nephritis in association with Edwardsiella tarda gastroenteritis following oyster consumption. IDCases 2021; 25: e01236
  • 18 Sydorchuk AS, Bogachyk NA, Venhlovska YV. Clinical case of Edwardsiellosis in Ukraine. Wiad Lek 2021; 74 (01) 165-167
  • 19 Koike M, Doi T, Iba Y, Yuda S. Edwardsiella tarda native valve infective endocarditis in a young and non-immunocompromised host: a case report. Am J Case Rep 2021; 22: e932387
  • 20 Sundaram K, Ohliger E, Hoban C, Gurd DP. Treatment of an abscess of the leg in a febrile child after incidental trauma from the barb of a freshwater fish: a case report. JBJS Case Connect 2020; 10 (02) e0464
  • 21 Crosby SN, Snoddy MC, Atkinson CT, Lee DH, Weikert DR. Upper extremity myonecrosis caused by Edwardsiella tarda resulting in transhumeral amputation: case report. J Hand Surg Am 2013; 38 (01) 129-132
  • 22 Yamamuro T, Fukuhara A, Kang J, Takamatsu J. A case of necrotizing fasciitis following Edwardsiella tarda septicemia with gastroenteritis. J Infect Chemother 2019; 25 (12) 1053-1056
  • 23 Ota K, Yamanoue H, Aizawa N, Suzuki N, Ota K, Takasu A. Gastric submucosal abscess caused by Edwardsiella tarda infection: a case report. BMC Gastroenterol 2020; 20 (01) 299
  • 24 Ng QX, Seng C, Chan FZY, Yeo WS. Zoonosis: an unusual case of chronic osteomyelitis. Singapore Med J 2019; 60 (07) 379-381
  • 25 Tai CH, Kuo SF, Lee CH. Concurrency of splenomegaly and numerous enlarged mesenteric and retroperitoneal lymph nodes in a patient with pelvic inflammatory disease caused by Edwardsiella tarda: mimicking lymphoma. Kaohsiung J Med Sci 2019; 35 (07) 446-447
  • 26 Koido S, Ohkusa T, Kato K. et al. Edwardsiella tarda superinfection in relapse of ulcerative colitis. J Clin Gastroenterol 2014; 48 (02) 191-193
  • 27 Verjan N, Hirono I, Aoki T. Genetic loci of major antigenic protein genes of Edwardsiella tarda. Appl Environ Microbiol 2005; 71 (09) 5654-5658
  • 28 Du M, Chen J, Zhang X, Li A, Li Y, Wang Y. Retention of virulence in a viable but nonculturable Edwardsiella tarda isolate. Appl Environ Microbiol 2007; 73 (04) 1349-1354
  • 29 Sakai T, Kanai K, Osatomi K, Yoshikoshi K. Identification of a 19.3-kDa protein in MRHA-positive Edwardsiella tarda: putative fimbrial major subunit. FEMS Microbiol Lett 2003; 226 (01) 127-133
  • 30 Xu T, Su Y, Xu Y. et al. Mutations of flagellar genes fliC12, fliA and flhDC of Edwardsiella tarda attenuated bacterial motility, biofilm formation and virulence to fish. J Appl Microbiol 2014; 116 (02) 236-244
  • 31 John AM, Prakash JA, Simon EG, Thomas N. Edwardsiella tarda sepsis with multiple liver abscesses in a patient with Cushing's syndrome. Indian J Med Microbiol 2012; 30 (03) 352-354

Address for correspondence

Ashoka Mahapatra, MD (Microbiology)
Additional Professor, Department of Microbiology, All India Institute of Medical Sciences
Bhubaneswar, Odisha 751019
India   

Publication History

Received: 27 March 2023

Accepted: 18 May 2023

Article published online:
13 July 2023

© 2023. The Indian Association of Laboratory Physicians. This is an open access article published by Thieme under the terms of the Creative Commons Attribution-NonDerivative-NonCommercial License, permitting copying and reproduction so long as the original work is given appropriate credit. Contents may not be used for commercial purposes, or adapted, remixed, transformed or built upon. (https://creativecommons.org/licenses/by-nc-nd/4.0/)

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  • References

  • 1 Bakirova GH, Alharthy A, Corcione S. et al. Fulminant septic shock due to Edwardsiella tarda infection associated with multiple liver abscesses: a case report and review of the literature. J Med Case Reports 2020; 14 (01) 144
  • 2 Hirai Y, Asahata-Tago S, Ainoda Y, Fujita T, Kikuchi K. Edwardsiella tarda bacteremia. A rare but fatal water- and foodborne infection: review of the literature and clinical cases from a single centre. Can J Infect Dis Med Microbiol 2015; 26 (06) 313-318
  • 3 Janda JM, Abbott SL, Kroske-Bystrom S. et al. Pathogenic properties of Edwardsiella species. J Clin Microbiol 1991; 29 (09) 1997-2001
  • 4 Suzuki K, Yanai M, Hayashi Y, Otsuka H, Kato K, Soma M. Edwardsiella tarda bacteremia with psoas and epidural abscess as a food-borne infection: a case report and literature review. Intern Med 2018; 57 (06) 893-897
  • 5 Morrisette T, Hewgley WP, Hewgley H. Edwardsiella tarda bacteremia in untreated hepatitis C: alterations in antimicrobial therapy for a pan-susceptible pathogen in a critically ill patient. Am J Ther 2019; 26 (04) e530-e533
  • 6 Manabe M, Matsumoto Y, Uchida T, Momose D, Sugano Y, Koh KR. [Bacteremia due to Edwardsiella tarda emerging after chemotherapy for recurrent pH-positive acute lymphoblastic leukemia]. Gan To Kagaku Ryoho 2019; 46 (12) 1903-1905
  • 7 LeBlond L. Catfish bite case report. Wilderness Environ Med 2019; 30 (03) 291-294
  • 8 Tonosaki K, Yonenaga K, Mikami T, Mizuno T, Oyama S. Acute cholecystitis, sepsis, and disseminated intravascular coagulation caused by Edwardsiella tarda in an elderly woman. Tokai J Exp Clin Med 2021; 46 (01) 51-53
  • 9 Healey KD, Rifai SM, Rifai AO, Edmond M, Baker DS, Rifai K. Edwardsiella tarda: a classic presentation of a rare fatal infection, with possible new background risk factors. Am J Case Rep 2021; 22: e934347
  • 10 Miyazawa Y, Murakami K, Kizaki Y, Itaya Y, Takai Y, Seki H. Maternal peripartum septic shock caused by intrauterine infection with Edwardsiella tarda: a case report and review of the literature. J Obstet Gynaecol Res 2018; 44 (01) 171-174
  • 11 Egashira M, Higuchi N, Shichijo A, Egashira T, Takayanagi T. Early-onset Edwardsiella tarda septicemia in an extremely preterm infant. Pediatr Int 2020; 62 (07) 860-861
  • 12 Peravali R, Muddassir K. A rare but fatal waterborne infection. Am J Med 2021; 134 (05) e329-e330
  • 13 Ebisawa KF, Nishimura S, Yamamoto S, Ohji G, Iwata K. Mycotic aneurysm caused by Edwardsiella tarda successfully treated with stenting and suppressive antibiotic therapy: a case report and systematic review. Ann Clin Microbiol Antimicrob 2018; 17 (01) 21
  • 14 Taguchi H, Tamai T, Numata M. et al. Endoscopic ultrasonography-guided transmural drainage of an infected hepatic cyst due to Edwardsiella tarda: a case report. Clin J Gastroenterol 2014; 7 (05) 422-428
  • 15 Pham K, Wu Y, Turett G. et al. Edwardsiella tarda, a rare human pathogen isolated from a perihepatic abscess: implications of transient versus long term colonization of the gastrointestinal tract. IDCases 2021; 26: e01283
  • 16 Miyajima S, Yamakawa G, Ohana M. Edwardsiella tarda-associated cholangitis associated with Lemmel syndrome. IDCases 2018; 11: 94-96
  • 17 Bui A, Cortese C, Libertin CR, Porter II IE. Minimal change disease and subacute interstitial nephritis in association with Edwardsiella tarda gastroenteritis following oyster consumption. IDCases 2021; 25: e01236
  • 18 Sydorchuk AS, Bogachyk NA, Venhlovska YV. Clinical case of Edwardsiellosis in Ukraine. Wiad Lek 2021; 74 (01) 165-167
  • 19 Koike M, Doi T, Iba Y, Yuda S. Edwardsiella tarda native valve infective endocarditis in a young and non-immunocompromised host: a case report. Am J Case Rep 2021; 22: e932387
  • 20 Sundaram K, Ohliger E, Hoban C, Gurd DP. Treatment of an abscess of the leg in a febrile child after incidental trauma from the barb of a freshwater fish: a case report. JBJS Case Connect 2020; 10 (02) e0464
  • 21 Crosby SN, Snoddy MC, Atkinson CT, Lee DH, Weikert DR. Upper extremity myonecrosis caused by Edwardsiella tarda resulting in transhumeral amputation: case report. J Hand Surg Am 2013; 38 (01) 129-132
  • 22 Yamamuro T, Fukuhara A, Kang J, Takamatsu J. A case of necrotizing fasciitis following Edwardsiella tarda septicemia with gastroenteritis. J Infect Chemother 2019; 25 (12) 1053-1056
  • 23 Ota K, Yamanoue H, Aizawa N, Suzuki N, Ota K, Takasu A. Gastric submucosal abscess caused by Edwardsiella tarda infection: a case report. BMC Gastroenterol 2020; 20 (01) 299
  • 24 Ng QX, Seng C, Chan FZY, Yeo WS. Zoonosis: an unusual case of chronic osteomyelitis. Singapore Med J 2019; 60 (07) 379-381
  • 25 Tai CH, Kuo SF, Lee CH. Concurrency of splenomegaly and numerous enlarged mesenteric and retroperitoneal lymph nodes in a patient with pelvic inflammatory disease caused by Edwardsiella tarda: mimicking lymphoma. Kaohsiung J Med Sci 2019; 35 (07) 446-447
  • 26 Koido S, Ohkusa T, Kato K. et al. Edwardsiella tarda superinfection in relapse of ulcerative colitis. J Clin Gastroenterol 2014; 48 (02) 191-193
  • 27 Verjan N, Hirono I, Aoki T. Genetic loci of major antigenic protein genes of Edwardsiella tarda. Appl Environ Microbiol 2005; 71 (09) 5654-5658
  • 28 Du M, Chen J, Zhang X, Li A, Li Y, Wang Y. Retention of virulence in a viable but nonculturable Edwardsiella tarda isolate. Appl Environ Microbiol 2007; 73 (04) 1349-1354
  • 29 Sakai T, Kanai K, Osatomi K, Yoshikoshi K. Identification of a 19.3-kDa protein in MRHA-positive Edwardsiella tarda: putative fimbrial major subunit. FEMS Microbiol Lett 2003; 226 (01) 127-133
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Zoom Image
Fig. 1 Small nonlactose fermenting translucent colonies of E. tarda on MacConkey agar.