Journal Information
Vol. 20. Issue 4.
Pages 389-392 (July - August 2016)
Share
Share
Download PDF
More article options
Visits
4804
Vol. 20. Issue 4.
Pages 389-392 (July - August 2016)
Brief communication
Open Access
Fusarium spp infections in a pediatric burn unit: nine years of experience
Visits
4804
María Teresa Rosanovaa,
Corresponding author
margris2@yahoo.com.ar

Corresponding author.
, Martín Brizuelaa, Mabel Villasboasb, Fabian Guarracinob, Veronica Alvareza, Patricia Santosc, Jorge Finquelievicha
a Hospital de Pediatría “Prof. Dr. Juan P. Garrahan” , Departamento de Enfermedades Infecciosas, Buenos Aires, Argentina
b Hospital de Pediatría “Prof. Dr. Juan P. Garrahan” , Unidad de Cuidados Intensivos de Quemados, Buenos Aires, Argentina
c Hospital de Pediatría “Prof. Dr. Juan P. Garrahan”, Departmento de Microbiología, Buenos Aires, Argentina
This item has received

Under a Creative Commons license
Article information
Abstract
Full Text
Bibliography
Download PDF
Statistics
Tables (2)
Table 1. Patients characteristics.
Table 2. Infection characteristics.
Show moreShow less
Abstract
Introduction

Fusarium spp are ubiquitous fungi recognized as opportunistic agents of human infections, and can produce severe infections in burn patients. The literature on Fusarium spp infections in pediatric burn patients is scarce.

Objectives

To describe the clinical and epidemiological features as well as outcome of Fusarium spp infections in pediatric burn patients.

Patients and methods

Retrospective, descriptive study of Fusarium spp infections in a specialized intensive care burn unit.

Results

In 15 patients Fusarium spp infections were diagnosed. Median age was 48 months. Direct fire injury was observed in ten patients. The median affected burn surface area was 45%. Twelve patients had a full thickness burn. Fourteen patients had a Garces Index ≥3. Fungal infection developed at a median of 11 days after burn injury. Fungi were isolated from burn wound in 14 patients and from the bone in one patient.

Amphotericin B was the drug of choice for treatment followed by voriconazole. Median time of treatment completion was 23 days. One patient (7%) died of fungal infection-related causes.

Conclusion

In our series Fusarium spp was an uncommon pathogen in severely burnt patients. The burn wound was the most common site of infection and mortality was low.

Keywords:
Burn
Fusarium spp
Fungal infections
Full Text
Introduction

Infection is the most common and severe cause of morbidity and mortality in burn patients.1 The longer survival of this population has increased the frequency of fungal infections. The most commonly isolated species is Candida spp and in recent times there has been an increase in filamentous fungi such as Aspergillus spp, Mucor spp, and Fusarium spp.2Fusarium spp – a filamentous fungus – is ubiquitous in the environment and can be found in water and in the soil.3 It mainly produces infections in individuals with immune disorders caused by tumors, use of cytostatics, steroids, presence of diabetes mellitus, and HIV infection among others. Burn patients are the most commonly affected immunocompetent hosts.1,4

Commonly isolated Fusarium spp are F. solani, F. oxysporum, F. proliferatum, F. verticilliodes, etc.5

The literature on Fusarium spp infections in pediatric patients with burns is limited. Most publications are case reports of disseminated Fusarium spp infections in cancer patients or fungal keratitis infections.6–8

The aim of this study was to describe the epidemiological, clinical, and microbiological features as well as outcome of infections due to Fusarium spp in pediatric burn patients.

Patients and methods

This was a retrospective, descriptive and observational study of Fusarium spp infections in a specialized burn intensive care unit between January 2006 and March 2015.

Inclusion criteria

All burn patients with clinical and microbiological evidence of fungal infection by Fusarium spp documented from representative samples, such as deep burn tissue, and/or blood, and/or other sterile sites with positive cultures were included.

Definition

Clinical evidence was defined by local signs of infection such as drainage of pus, redness or swelling at the margin of the burn, scar separation, localized necrosis, vesicular lesions, and/or poor adherence of the graft.

Microbiological evidence was defined by the isolation of Fusarium spp in deep tissue samples or sterile materials (blood, purulent materials, and/or urine).

Infection types

Infections were defined according to the American Burn Association9:

The Garces’ Index – an index of prediction of severity and mortality calculated as follows: 40patient age×1 percentage burn (if type A), ×2 (if type AB), ×3 (if type B).

  • 0–60 points: Grade 1 (slight risk);

  • 61–90 points: Grade 2 (moderate risk);

  • 91–120 points: Grade 3 (severe risk);

  • >121 points: Grade 4 (critical risk).

Depth of burn

  • Type A: superficial burn with erythema and hyperalgesia;

  • Type AB: pink-white intermediate-color scar, and hypoalgesia;

  • Type B or “full thickness”: deep, white or black scar and analgesia.

Microbiology

In addition to regular bacteriological study, all materials were processed for mycological study.

Results

A total of 15 patients were infected by Fusarium spp during the study period. The mechanism of burn was direct fire in 10 patients (66%), hot liquids in four (27%), and electricity in one case (7%); 87% (n=13) were male. Median age was 48 months (IQR 12–108 months). The median body surface area burned was 45% (IQR 30–60%). Eighty percent of patients (n=12) had deep burns (type B); 60% (n=9) had a Garces’ index of 3, 33% (n=5) an index of 4, and the remaining 7% (n=1) an index of 2.

The median time from burn injury to onset of fungal infection was 11 days (IQR 4–24 days). All patients had central lines with a median dwell time of 20 days (IQR 12–30). Of all patients, 87% (n=13) required mechanical ventilation with a median of 16 days (IQR 10–30). The most common site of microbiological isolation was the burn wound in 15 patients (100%) and bone in one patient (7%). In one patient (7%) Fusarium spp was isolated from blood cultures. In 87% of cases (n=13) concomitant bacterial infections were found. Empirical antifungal treatment was started with amphotericin B deoxycholate in 14 patients (93%) and voriconazole in one patient (7%). All patients were switched to treatment with voriconazole after microbiological isolation of Fusarium spp. Median antifungal treatment was 23 days (IQR 17–42 days). No adverse events related to the use of antifungal agents were reported. The combination of medical treatment using amphotericin B, voriconazole, and surgical removal of infectious foci was effective in all cases. The median length of hospital stay was 55 days (IQR 22–60 days). Only one patient (7%) died, 14 days after admission due to septic shock related to Fusarium spp infection (Tables 1 and 2).

Table 1.

Patients characteristics.

Variable  N (IQR)  Percentage (IQR) 
Patients  15  100 
Age  48m (12–108)   
Male sex  11  73 
Burn surface    45 (30–60) 
Garces index >3  60 
Full thickness  12  80 
Inhalatory injury  11  73 
Mechanical respiratory assistance  13  87 
Central venous catheter  15  100 
Vesical catheter  15  100 
Time between injury and infection  11 (4–24)   
Concomitant infection with bacteria  13  87 
Time of treatment  23 (17–42)   
Mortality 
Days of hospitalization  55 (22–60)   
Table 2.

Infection characteristics.

Variable  n  Percentage 
Wounds infection  15  100 
Bloodstream 
Bone 
Discussion

Infections remain the leading cause of mortality in burn patients.1 The use of topical and systemic antimicrobials along with infection-control measures has reduced the incidence of bacterial infections1; however, fungal infections have remained stable showing an incidence between 6 and 40% in different series.1,5,6

In a previous study conducted at our center we reported on 128 infections in 84 patients of which 53 cases (20%) had a documented fungal etiology.4 Some risk factors for developing fungal infections in burn patients are extremes of age, large body surface burned (≥40%), inhalation syndrome, requirement for mechanical ventilation, use of broad spectrum antibiotics, prolonged use of central venous and bladder catheters, presence of diabetes mellitus, and parenteral nutrition.2,3,10,11

Progression from fungal colonization to infection of the wound is directly related to the body surface area burned. Therefore, close monitoring of patients with large surfaces burned (≥40%) is recommended to establish early therapeutic measures.12

Different studies in the literature have reported a higher incidence of fungal infections in more severe burns.1,3,4,6 In this series, the median body surface area burned was 45%, reflecting the severity of the study sample at high risk for the occurrence of fungal infections in line with published literature.6,10

Candida spp is the most frequently involved species in fungal infections in burns. In recent times the incidence of filamentous fungi such as Aspergillus spp, and to a lesser extent Mucor spp and Fusarium spp, has increased.2 In a previous study on fungal infections in our center the most frequently isolated fungus was Candida albicans (3.4%).13 In this study fungal infections occurred from the second week of hospitalization (median 11 days), coinciding with several other reports.2,3,11

Fusarium can be isolated by tissue biopsies that may show the presence of filamentous fungi in and around vessels of the dermis, thrombosis, and tissue necrosis. Blood cultures may be positive in 50–70% of cases in immunocompromised host infections.14,15

The most common site of infection is the burn wound.1,3,4,14 In this study 100% of patients had infection of the burn wound and only one (7%) had bone involvement. Additionally, fungemia was detected in only one patient (7%).

Early treatment of localized forms is essential to prevent the spread of Fusarium spp. Mortality rates have been reduced with early debridement of injuries combined with antifungal treatment.15–17

In our burn unit, amphotericin B deoxycholate or lipid formulations are used as empirical treatment against filamentous fungi. When Fusarium spp is isolated voriconazole is the drug of choice. The total duration of treatment varies according to the extension of the infection. Some studies reported a treatment duration of at least two weeks after the last fungal isolation coinciding with the management approach in our burn unit.2,11,18 Mortality due to fungal infections varies between 75 and 90% and is associated with a burned surface area between 40% and 60%.1,10,19 Some studies found no difference in mortality rates according to the fungal agent involved. In contrast, the study by Schaal et al.20 found that patients with Aspergillus spp infections had a 30% mortality whereas none of those infected with Fusarium spp died, in line with the low mortality rate found in our study.

Nir Paz et al.3 reported an 11% mortality rate in Fusarium spp infections in different inmunocompromised patients with a higher risk in patients with burns.

In our series, one patient died of septic shock due to infection by Fusarium spp, representing a mortality rate of 7% in the study period, which is lower than that found in the literature.11–20

Conclusions

Fusarium spp was a rarely isolated pathogen in burned patients in our unit. The burn wound was the most frequent site of isolation. Mortality was low.

Conflicts of interest

The authors declare no conflicts of interest.

References
[1]
C.K. Murray, F.L. Loo, D.R. Hospenthal.
Incidence of systemic fungal infection and related mortality following severe burns.
Burns, 34 (2008), pp. 1108-1112
[2]
D. Church, S. Elsayed, O. Reid, et al.
Burn wound infection.
Clin Microbiol Rev, 19 (2006), pp. 403-434
[3]
R. Nir-Paz, J. Strahilevitz, M. Shapiro, et al.
Clinical and epidemiological aspects of infections caused by Fusarium species: a collaborative study from Israel.
J Clin Microbiol, 42 (2004), pp. 3456-3461
[4]
M.T. Rosanova, D. Stamboulin, R. Lede.
Infecciones en los niños quemados: análisis epidemiológico y de los factores de riesgo.
Arch Argent Pediatr, 111 (2013), pp. 303-308
[5]
B.A. Latenser.
Fusarium infections in burns patients: a case report and review of the literature.
J Burn Care Rehabil, 24 (2003), pp. 285-288
[6]
N. Litvinov, M.T. da Silva, I.M. van der Heijden, et al.
An outbreak of invasive fusariosis in a children's cancer hospital.
Clin Microbiol Infect, 21 (2015), pp. 268
[7]
N.S. Cooke, C. Feighery, D.K.B. Armstrong.
Cutaneous Fusarium solani infection in childhood acute lymphoblastic leukaemia.
Clin Exp Dermatol, 34 (2009), pp. 117-119
[8]
X. Song, L. Xu, S. Sun, et al.
Pediatric microbial keratitis: a tertiary hospital study.
Eur J Ophthamol, 22 (2012), pp. 136-141
[9]
D.G. Greenhalgh, J.R. Saffle, J.H. Holmes, et al.
American Burn Association consensus conference to define sepsis and infection in burns.
J Burn Care Res, 28 (2007), pp. 776-790
[10]
H.G. Lee, J. Jang, J.E. Choe, et al.
Bloodstream infections in patients in the burn intensive care unit.
Infect Chemother, 45 (2013), pp. 194-201
[11]
M. Muhammed, T. Anagnostou, A. Desalermos, et al.
Fusarium infection: report of 26 cases and review of 97 cases from the literature.
Medicine (Baltim), 92 (2013), pp. 305-316
[12]
C.M. Schofield, C.K. Murray, E.E. Horvath, et al.
Correlation of culture with histopathology in fungal burn wound colonization and infection.
[13]
M.T. Rosanova, H. Basilico, M. Villasboas, et al.
Infecciones fúngicas en una unidad de quemados pediátrica.
Arch Argent Pediatr, 109 (2011), pp. 437-444
[14]
P. Martino, R. Gastalsi, R. Raccah, et al.
Clinical patterns of Fusarium infections in immunocompromised patients.
J Infect, 28 (1994), pp. 7-15
[15]
S. Sarabahi, V.K. Tiwari, S. Arora, et al.
Changing pattern of fungal infection in burn patients.
[16]
J. Soares de Macedo, J.B. Santos.
Bacterial and fungal colonization of burn wounds.
Mem Inst Oswaldo Cruz, Rio J, 100 (2005), pp. 535-539
[17]
A.K. Gupta, R. Baran, R.C. Summerbell.
Fusarium infections of the skin.
Curr Opin Infect Dis, 13 (2000), pp. 121-128
[18]
J.R. Perfect, K.A. Marr, T.J. Walsh, et al.
Voriconazole treatment for less common, emerging, or refractory fungal infections.
Clin Infect Dis, 36 (2003), pp. 1122-1131
[19]
M.C. Dignani, E. Anaissie.
Human fusariosis.
Clin Microbiol Infect, 10 (2004), pp. 67-75
[20]
J.V. Schaal, T. Leclerc, C. Soler, et al.
Epidemiology of filamentous fungal infections in burned patients: a French retrospective study.
Copyright © 2016. Elsevier Editora Ltda.. All rights reserved
The Brazilian Journal of Infectious Diseases
Article options
Tools