Rethinking the Inoculum Used in Animal Models of Implant-Associated Osteomyelitis – The Formation and Application of Bacterial Aggregates

Research output: Contribution to conferenceConference abstract for conferenceResearch

Standard

Rethinking the Inoculum Used in Animal Models of Implant-Associated Osteomyelitis – The Formation and Application of Bacterial Aggregates. / Hartmann, Katrine Top; Nielsen, Regitze Lund; Mikkelsen, Freja Cecilie; Ingmer, Hanne; Kvich, Lasse Andersson; Aalbæk, Bent; Odgaard, Anders; Jensen, Henrik Elvang; Lichtenberg, Mads; Bjarnsholt, Thomas; Jensen, Louise Kruse.

2023. 59 Abstract from EBJIS 2023, Basel, Switzerland.

Research output: Contribution to conferenceConference abstract for conferenceResearch

Harvard

Hartmann, KT, Nielsen, RL, Mikkelsen, FC, Ingmer, H, Kvich, LA, Aalbæk, B, Odgaard, A, Jensen, HE, Lichtenberg, M, Bjarnsholt, T & Jensen, LK 2023, 'Rethinking the Inoculum Used in Animal Models of Implant-Associated Osteomyelitis – The Formation and Application of Bacterial Aggregates', EBJIS 2023, Basel, Switzerland, 12/10/2023 - 14/10/2023 pp. 59.

APA

Hartmann, K. T., Nielsen, R. L., Mikkelsen, F. C., Ingmer, H., Kvich, L. A., Aalbæk, B., Odgaard, A., Jensen, H. E., Lichtenberg, M., Bjarnsholt, T., & Jensen, L. K. (2023). Rethinking the Inoculum Used in Animal Models of Implant-Associated Osteomyelitis – The Formation and Application of Bacterial Aggregates. 59. Abstract from EBJIS 2023, Basel, Switzerland.

Vancouver

Hartmann KT, Nielsen RL, Mikkelsen FC, Ingmer H, Kvich LA, Aalbæk B et al. Rethinking the Inoculum Used in Animal Models of Implant-Associated Osteomyelitis – The Formation and Application of Bacterial Aggregates. 2023. Abstract from EBJIS 2023, Basel, Switzerland.

Author

Hartmann, Katrine Top ; Nielsen, Regitze Lund ; Mikkelsen, Freja Cecilie ; Ingmer, Hanne ; Kvich, Lasse Andersson ; Aalbæk, Bent ; Odgaard, Anders ; Jensen, Henrik Elvang ; Lichtenberg, Mads ; Bjarnsholt, Thomas ; Jensen, Louise Kruse. / Rethinking the Inoculum Used in Animal Models of Implant-Associated Osteomyelitis – The Formation and Application of Bacterial Aggregates. Abstract from EBJIS 2023, Basel, Switzerland.1 p.

Bibtex

@conference{a3439dd920ad434cbb614d4ea9b77521,
title = "Rethinking the Inoculum Used in Animal Models of Implant-Associated Osteomyelitis – The Formation and Application of Bacterial Aggregates",
abstract = "Aim: To make an inoculum for induction of Implant-Associated Osteomyelitis (IAO) in pigs based on bacterial aggregates resembling those found on the human skin, i.e. aggregates of 5-15 µm with low metabolic activity. The aggregates were evaluated and compared to a standard planktonic bacterial inoculum. Method: The porcine Staphylococcus aureus strain S54F9 was cultured in Tryptone Soya Broth for seven days. Subsequently, the culture was filtered through cell strainers with pore sizes of 15 µm and 5 µm, respectively. The fraction of 5-15 µm aggregates in the top of the 5 µm filter was collected as the aggregate-inoculum. The separation of aggregates into different size fractions was evaluated by light microscopy. The metabolism of the aggregate-inoculum and a standard overnight planktonic inoculum was evaluated with isothermal microcalorimetry.In total, six female minipigs were allocated into three groups (n=2), receiving different inoculums. Group A: overnight planktonic inoculum; 104 CFU S. aureus (S54F9), Group B: seven days old 5-15 µm aggregate-inoculum; 104 CFU S. aureus (S54F9), Group C: saline. All inoculums were placed in a pre-drilled implant cavity in the right tibia of the pig and a sterile stainless-steel implant was inserted. The pigs were euthanized seven days after surgery. Postmortem macroscopic pathology, microbiology, computed tomography and histopathology were performed. Results: The separation of aggregates into different size fractions was done successfully by the filtering method. Isothermal microcalorimetry showed, a delayed Time-to-peak metabolic activity of the aggregate-inoculum compared to the planktonic inoculum. S. aureus was isolated from subcutis, bone and implants from all animals in groups A and B. Both group A animals showed osteomyelitis at gross inspection with suppuration and sequestration, while groups B and C animals had no macroscopic lesions. From CT scans, both group A animals also showed positive signs of osteomyelitis, i.e., osteolysis, while only one animal in group B did, and none in group C. Histopathological examination of the bones showed more extensive inflammation in group A animals compared to those in group B, which showed more osteoid formation. Conclusions: Formation and separation of low metabolism bacterial aggregates into different size fractions was possible. The aggregates can be used as inoculum in the porcine IAO model, with microbiological re-isolation from both implants and tissue. Furthermore, the aggregates caused a less aggressive IAO, than the planktonic counterparts. Using aggregated bacteria as inoculum appears to be more relevant to the clinical situation of infecting bacteria.",
author = "Hartmann, {Katrine Top} and Nielsen, {Regitze Lund} and Mikkelsen, {Freja Cecilie} and Hanne Ingmer and Kvich, {Lasse Andersson} and Bent Aalb{\ae}k and Anders Odgaard and Jensen, {Henrik Elvang} and Mads Lichtenberg and Thomas Bjarnsholt and Jensen, {Louise Kruse}",
year = "2023",
language = "English",
pages = "59",
note = "null ; Conference date: 12-10-2023 Through 14-10-2023",

}

RIS

TY - ABST

T1 - Rethinking the Inoculum Used in Animal Models of Implant-Associated Osteomyelitis – The Formation and Application of Bacterial Aggregates

AU - Hartmann, Katrine Top

AU - Nielsen, Regitze Lund

AU - Mikkelsen, Freja Cecilie

AU - Ingmer, Hanne

AU - Kvich, Lasse Andersson

AU - Aalbæk, Bent

AU - Odgaard, Anders

AU - Jensen, Henrik Elvang

AU - Lichtenberg, Mads

AU - Bjarnsholt, Thomas

AU - Jensen, Louise Kruse

PY - 2023

Y1 - 2023

N2 - Aim: To make an inoculum for induction of Implant-Associated Osteomyelitis (IAO) in pigs based on bacterial aggregates resembling those found on the human skin, i.e. aggregates of 5-15 µm with low metabolic activity. The aggregates were evaluated and compared to a standard planktonic bacterial inoculum. Method: The porcine Staphylococcus aureus strain S54F9 was cultured in Tryptone Soya Broth for seven days. Subsequently, the culture was filtered through cell strainers with pore sizes of 15 µm and 5 µm, respectively. The fraction of 5-15 µm aggregates in the top of the 5 µm filter was collected as the aggregate-inoculum. The separation of aggregates into different size fractions was evaluated by light microscopy. The metabolism of the aggregate-inoculum and a standard overnight planktonic inoculum was evaluated with isothermal microcalorimetry.In total, six female minipigs were allocated into three groups (n=2), receiving different inoculums. Group A: overnight planktonic inoculum; 104 CFU S. aureus (S54F9), Group B: seven days old 5-15 µm aggregate-inoculum; 104 CFU S. aureus (S54F9), Group C: saline. All inoculums were placed in a pre-drilled implant cavity in the right tibia of the pig and a sterile stainless-steel implant was inserted. The pigs were euthanized seven days after surgery. Postmortem macroscopic pathology, microbiology, computed tomography and histopathology were performed. Results: The separation of aggregates into different size fractions was done successfully by the filtering method. Isothermal microcalorimetry showed, a delayed Time-to-peak metabolic activity of the aggregate-inoculum compared to the planktonic inoculum. S. aureus was isolated from subcutis, bone and implants from all animals in groups A and B. Both group A animals showed osteomyelitis at gross inspection with suppuration and sequestration, while groups B and C animals had no macroscopic lesions. From CT scans, both group A animals also showed positive signs of osteomyelitis, i.e., osteolysis, while only one animal in group B did, and none in group C. Histopathological examination of the bones showed more extensive inflammation in group A animals compared to those in group B, which showed more osteoid formation. Conclusions: Formation and separation of low metabolism bacterial aggregates into different size fractions was possible. The aggregates can be used as inoculum in the porcine IAO model, with microbiological re-isolation from both implants and tissue. Furthermore, the aggregates caused a less aggressive IAO, than the planktonic counterparts. Using aggregated bacteria as inoculum appears to be more relevant to the clinical situation of infecting bacteria.

AB - Aim: To make an inoculum for induction of Implant-Associated Osteomyelitis (IAO) in pigs based on bacterial aggregates resembling those found on the human skin, i.e. aggregates of 5-15 µm with low metabolic activity. The aggregates were evaluated and compared to a standard planktonic bacterial inoculum. Method: The porcine Staphylococcus aureus strain S54F9 was cultured in Tryptone Soya Broth for seven days. Subsequently, the culture was filtered through cell strainers with pore sizes of 15 µm and 5 µm, respectively. The fraction of 5-15 µm aggregates in the top of the 5 µm filter was collected as the aggregate-inoculum. The separation of aggregates into different size fractions was evaluated by light microscopy. The metabolism of the aggregate-inoculum and a standard overnight planktonic inoculum was evaluated with isothermal microcalorimetry.In total, six female minipigs were allocated into three groups (n=2), receiving different inoculums. Group A: overnight planktonic inoculum; 104 CFU S. aureus (S54F9), Group B: seven days old 5-15 µm aggregate-inoculum; 104 CFU S. aureus (S54F9), Group C: saline. All inoculums were placed in a pre-drilled implant cavity in the right tibia of the pig and a sterile stainless-steel implant was inserted. The pigs were euthanized seven days after surgery. Postmortem macroscopic pathology, microbiology, computed tomography and histopathology were performed. Results: The separation of aggregates into different size fractions was done successfully by the filtering method. Isothermal microcalorimetry showed, a delayed Time-to-peak metabolic activity of the aggregate-inoculum compared to the planktonic inoculum. S. aureus was isolated from subcutis, bone and implants from all animals in groups A and B. Both group A animals showed osteomyelitis at gross inspection with suppuration and sequestration, while groups B and C animals had no macroscopic lesions. From CT scans, both group A animals also showed positive signs of osteomyelitis, i.e., osteolysis, while only one animal in group B did, and none in group C. Histopathological examination of the bones showed more extensive inflammation in group A animals compared to those in group B, which showed more osteoid formation. Conclusions: Formation and separation of low metabolism bacterial aggregates into different size fractions was possible. The aggregates can be used as inoculum in the porcine IAO model, with microbiological re-isolation from both implants and tissue. Furthermore, the aggregates caused a less aggressive IAO, than the planktonic counterparts. Using aggregated bacteria as inoculum appears to be more relevant to the clinical situation of infecting bacteria.

M3 - Conference abstract for conference

SP - 59

Y2 - 12 October 2023 through 14 October 2023

ER -

ID: 370589258