Directional microwave ablation in spine: experimental assessment of computational modeling.

BACKGROUND: Despite the theoretical advantages of treating metastatic bone disease with microwave ablation (MWA), there are few reports characterizing microwave absorption and bioheat transfer in bone. This report describes a computational modeling-based approach to simulate directional microwave ablation (dMWA) in spine, supported by ex vivo and pilot in vivo experiments in porcine vertebral bodies. MATERIALS AND METHODS: A 3D computational model of microwave ablation within porcine vertebral bodies was developed. Ex vivo porcine vertebra experiments using a dMWA applicator measured temperatures approximately 10.1 mm radially from the applicator in the direction of MW radiation (T1) and approximately 2.4 mm in the contra-lateral direction (T2). Histologic assessment of ablated ex vivo tissue was conducted and experimental results compared to simulations. Pilot in vivo experiments in porcine vertebral bodies assessed ablation zones histologically and with CT and MRI. RESULTS: Experimental T1 and T2 temperatures were within 3-7% and 11-33% of simulated temperature values. Visible ablation zones, as indicated by grayed tissue, were smaller than those typical in other soft tissues. Posthumous MRI images of in vivo ablations showed hyperintensity. In vivo experiments illustrated the technical feasibility of creating directional microwave ablation zones in porcine vertebral body. CONCLUSION: Computational models and experimental studies illustrate the feasibility of controlled dMWA in bone tissue.

In vitro antimicrobial activity of equine platelet lysate and mesenchymal stromal cells against common clinical pathogens.

Septic arthritis is considered a medical emergency. Disease following bacterial colonization can lead to significant morbidity and mortality and requires costly treatment. Antimicrobial properties of regenerative therapies, including mesenchymal stromal cells and platelet products, have been researched extensively in human medicine. Although fewer studies have been conducted in veterinary species, they have shown promising results. The purpose of this study was to evaluate bacterial suppression by equine platelet lysate (EPL) and adipose-derived mesenchymal stromal cells (ASCs) in vitro. We hypothesized that both products would significantly inhibit the growth of Staphylococcus aureus and Escherichia coli. Pooled blood from 10 horses was used for production of EPL. Mesenchymal stromal cells were isolated from adipose tissue harvested from the gluteal region of 3 horses. The study evaluated 3 treatment groups: 10 × EPL, 1.6 million ASCs, and a control, using an incomplete unbalanced block design with repeated measurements. Optical density readings and colony-forming units/mL were calculated at 0, 3, 6, 9, 12, 18, and 24 hours. Decreased bacterial growth was seen at multiple time points for the S. aureus-ASC and S. aureus-EPL treatments, supporting our hypothesis. Increased bacterial growth was noticed in the E. coli-EPL group, with no difference in the E. coli-ASC treatment, which opposed our hypothesis. A clear conclusion of antimicrobial effects of EPL and ASCs cannot be made from this in vitro study. Although it appears that ASCs have a significant effect on decreasing the growth of S. aureus, further studies are needed to explore these effects, particularly in Gram-positive bacteria.

L'arthrite septique est considérée comme une urgence médicale. La maladie consécutive à une colonisation bactérienne peut entraîner une morbidité et une mortalité importantes et nécessite un traitement coûteux. Les propriétés antimicrobiennes des thérapies régénératives, y compris les cellules stromales mésenchymateuses et les produits plaquettaires, ont fait l'objet de recherches approfondies en médecine humaine. Bien que moins d'études aient été menées chez les espèces animales, elles ont montré des résultats prometteurs. Le but de cette étude était d'évaluer la suppression bactérienne par le lysat plaquettaire équin (EPL) et les cellules stromales mésenchymateuses adipeuses (ASC) i n vitro. Nous avons émis l'hypothèse que les deux produits inhiberaient de manière significative la croissance de Staphylococcus aureus et d'Escherichia coli. Un pool de sang de 10 chevaux a été utilisé pour la production d'EPL. Des cellules stromales mésenchymateuses ont été isolées à partir de tissu adipeux prélevé dans la région fessière de trois chevaux. L'étude a évalué trois groupes de traitement : 10 × EPL, 1,6 million d'ASC et un témoin, en utilisant un design en blocs non équilibrés incomplets avec des mesures répétées. Les lectures de densité optique et les unités formatrices de colonie/mL ont été calculées à 0, 3, 6, 9, 12, 18 et 24 heures. Une diminution de la croissance bactérienne a été observée à plusieurs moments pour les traitements S. aureus-ASC et S. aureus-EPL, soutenant notre hypothèse. Une croissance bactérienne accrue a été remarquée dans le groupe E. coli-EPL, sans différence dans le traitement E. coli-ASC, ce qui s'opposait à notre hypothèse. Une conclusion claire des effets antimicrobiens de l'EPL et des ASC ne peut pas être tirée de cette étude in vitro. Bien qu'il semble que les ASC aient un effet significatif sur la diminution de la croissance de S. aureus, d'autres études sont nécessaires pour explorer ces effets, en particulier chez les bactéries à Gram positif.(Traduit par Docteur Serge Messier).

Safety and efficacy of cold atmospheric plasma for the sterilization of a Pasteurella multocida-contaminated subcutaneously implanted foreign body in rabbits.

OBJECTIVE: To determine whether a stainless steel implant sterilized with a novel cold atmospheric plasma sterilization (CAPS) device adversely affects local tissues in rabbits and whether CAPS was as effective as steam sterilization with an autoclave to inactivate Pasteurella multocida. ANIMALS: 31 healthy New Zealand White rabbits. PROCEDURES: Steam-autoclaved stainless steel implants inoculated with P multocida underwent a second steam autoclave sterilization (AIA) or CAPS (AICAPS). One AIA implant and 3 AICAPS implants were randomly placed subcutaneously at 4 sites in 21 rabbits (84 implants). These rabbits were monitored daily for 5 days for evidence of systemic illness and local tissue reactions at the implantation sites and then euthanized. Samples were taken from each implant site for bacterial culture and histologic examination. RESULTS: Cultures of samples obtained from all sites were negative for bacterial growth. No significant difference was observed in mean skin thickness or erythema between AIA and AICAPS implant sites on any observed day. Also, individual histologic grades for the epidermis, dermis, subcutis, and muscle and total histologic grade were not significantly different between AIA and AICAPS implant sites. CONCLUSIONS AND CLINICAL RELEVANCE: Cold atmospheric plasma sterilization was noninferior to steam sterilization of P multocida-contaminated stainless steel implants in the rabbits in the present study. However, studies of the efficacy of CAPS for inactivation of other important bacteria are needed.