DIVERSITY OF CUTIBACTERIUM STRAINS INVOLVED IN PROSTHETIC JOINT INFECTIONS AND ABILITY TO PRODUCE BIOFILM: CUTIBACTERIUM ACNES IA1 AND II PHYLOTYPES BELONGING TO SLST-TYPE D1 OR K1 PRODUCE MORE BIOFILM!

M. Dagnelie; P. Bemer; L. R. d'Epenoux; S. Corvec

doi:10.1302/1358-992X.2019.14.021

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DIVERSITY OF CUTIBACTERIUM STRAINS INVOLVED IN PROSTHETIC JOINT INFECTIONS AND ABILITY TO PRODUCE BIOFILM: CUTIBACTERIUM ACNES IA1 AND II PHYLOTYPES BELONGING TO SLST-TYPE D1 OR K1 PRODUCE MORE BIOFILM!

European Bone and Joint Infection Society (EBJIS) meeting, Antwerp, Belgium, September 2019.

M. Dagnelie
P. Bemer
L. R. d'Epenoux
S. Corvec

DIVERSITY OF CUTIBACTERIUM STRAINS INVOLVED IN PROSTHETIC JOINT INFECTIONS AND ABILITY TO PRODUCE BIOFILM: CUTIBACTERIUM ACNES IA1 AND II PHYLOTYPES BELONGING TO SLST-TYPE D1 OR K1 PRODUCE MORE BIOFILM!

Dagnelie M, Bemer P, d'Epenoux LR, Corvec S. DIVERSITY OF CUTIBACTERIUM STRAINS INVOLVED IN PROSTHETIC JOINT INFECTIONS AND ABILITY TO PRODUCE BIOFILM: CUTIBACTERIUM ACNES IA1 AND II PHYLOTYPES BELONGING TO SLST-TYPE D1 OR K1 PRODUCE MORE BIOFILM!. Orthop Procs. 2019;101-B(SUPP_14):21-21. doi:10.1302/1358-992X.2019.14.021

Dagnelie, M., et al. “DIVERSITY OF CUTIBACTERIUM STRAINS INVOLVED IN PROSTHETIC JOINT INFECTIONS AND ABILITY TO PRODUCE BIOFILM: CUTIBACTERIUM ACNES IA1 AND II PHYLOTYPES BELONGING TO SLST-TYPE D1 OR K1 PRODUCE MORE BIOFILM!.” Orthopaedic Proceedings, vol. 101-B, no. SUPP_14, 2019, pp. 21-21., https://doi.org/10.1302/1358-992X.2019.14.021

Dagnelie, M., Bemer, P., d'Epenoux, L. R., & Corvec, S. (2019). DIVERSITY OF CUTIBACTERIUM STRAINS INVOLVED IN PROSTHETIC JOINT INFECTIONS AND ABILITY TO PRODUCE BIOFILM: CUTIBACTERIUM ACNES IA1 AND II PHYLOTYPES BELONGING TO SLST-TYPE D1 OR K1 PRODUCE MORE BIOFILM!. Orthopaedic Proceedings, 101-B(SUPP_14), 21-21. https://doi.org/10.1302/1358-992X.2019.14.021

Dagnelie, M., Bemer, P., d'Epenoux, L. R. and Corvec, S. (2019) “DIVERSITY OF CUTIBACTERIUM STRAINS INVOLVED IN PROSTHETIC JOINT INFECTIONS AND ABILITY TO PRODUCE BIOFILM: CUTIBACTERIUM ACNES IA1 AND II PHYLOTYPES BELONGING TO SLST-TYPE D1 OR K1 PRODUCE MORE BIOFILM!.” Orthopaedic Proceedings, 101-B(SUPP_14), pp. 21-21. Available at: https://doi.org/10.1302/1358-992X.2019.14.021

Dagnelie, M., P. Bemer, L. R. d'Epenoux, and S. Corvec. “DIVERSITY OF CUTIBACTERIUM STRAINS INVOLVED IN PROSTHETIC JOINT INFECTIONS AND ABILITY TO PRODUCE BIOFILM: CUTIBACTERIUM ACNES IA1 AND II PHYLOTYPES BELONGING TO SLST-TYPE D1 OR K1 PRODUCE MORE BIOFILM!.” Orthopaedic Proceedings 101-B, no. SUPP_14 (2019): 21-21. https://doi.org/10.1302/1358-992X.2019.14.021

Dagnelie M, Bemer P, d'Epenoux LR, Corvec S. DIVERSITY OF CUTIBACTERIUM STRAINS INVOLVED IN PROSTHETIC JOINT INFECTIONS AND ABILITY TO PRODUCE BIOFILM: CUTIBACTERIUM ACNES IA1 AND II PHYLOTYPES BELONGING TO SLST-TYPE D1 OR K1 PRODUCE MORE BIOFILM!. Orthop Procs. 2019 Dec 1;101-B(SUPP_14):21-21. https://doi.org/10.1302/1358-992X.2019.14.021

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Abstract

Aim

Cutibacterium acnes (CA) is one of the crucial actors in spine instrumentation or shoulder prosthesis. Its population is subdivided into 6 major phylotypes: IA1, IA2, IB, IC, II and III. Recent methods for discriminating subpopulations within CA phylotypes highlight the predominance of SLST types H1 to 6 or K1 to 20 in bone and joint infection (BJI). The impact of their ability to produce a biofilm during the development of the infection (with resistance / tolerance to antibiotics used for treatment) remains little studied.

Method

The purpose of this study was to determine whether the ability to establish a biofilm varied according to the different subtypes of clinical strains of CA previously characterized and involved in BJI (hip, knee and shoulder prosthesis). The BioFilm ring test (BioFilm Control®) method with index determination, called BFI (BioFilm Index) inversely proportional to the level of biofilm production was used (BFI = 0.00 indicates a high production of biofilm versus BFI = 20.00 indicates zero production). The BFI was determined after 3 h (T3) and 6 h (T6) incubation. The strains used came from patients, 5 belonging to the IA1 phylotype (SLST A1 and D1 types) and 4 to different phylotypes (IA2, IB, II and III).

Results

The results show that the kinetics of establishment of an early CA biofilm turns out to be phylotype dependent. The most productive strains are those belonging to phylotype II (BFI T3 = 5.73, BFI T6 = 0.00) and to type SLST D1 belonging to phylotype IA1 (BFI T3 = 4.07, BFI T6 = 0.00). The other strains did not demonstrate saturated BFI, even after 6 h of incubation

Conclusions

The exact role of CA, as well as its ability to produce a biofilm in the pathophysiology of BJI, remains poorly understood and the prolonged use of antibiotics to treat these infections is necessary, especially if devices have not been removed, with potential risk of increasing antibiotic resistance and therapeutic failures. CA's different phylotypes demonstrate different biofilm production capabilities, which could have an impact on the antibiotic efficacy suggesting the interest of effective anti-biofilm molecules on metabolically less active strains.

E-mail: stephane.corvec@chu-nantes.fr