8 research outputs found
RFA Guardian: Comprehensive Simulation of Radiofrequency Ablation Treatment of Liver Tumors
The RFA Guardian is a comprehensive application for high-performance patient-specific simulation of radiofrequency ablation of liver tumors. We address a wide range of usage scenarios. These include pre-interventional planning, sampling of the parameter space for uncertainty estimation, treatment evaluation and, in the worst case, failure analysis. The RFA Guardian is the first of its kind that exhibits sufficient performance for simulating treatment outcomes during the intervention. We achieve this by combining a large number of high-performance image processing, biomechanical simulation and visualization techniques into a generalized technical workflow. Further, we wrap the feature set into a single, integrated application, which exploits all available resources of standard consumer hardware, including massively parallel computing on graphics processing units. This allows us to predict or reproduce treatment outcomes on a single personal computer with high computational performance and high accuracy. The resulting low demand for infrastructure enables easy and cost-efficient integration into the clinical routine. We present a number of evaluation cases from the clinical practice where users performed the whole technical workflow from patient-specific modeling to final validation and highlight the opportunities arising from our fast, accurate prediction techniques
RFA Guardian
The RFA Guardian is a comprehensive application for high-performance patient-specific simulation of radiofrequency ablation of liver tumors. We address a wide range of usage scenarios. These include pre-interventional planning, sampling of the parameter space for uncertainty estimation, treatment evaluation and, in the worst case, failure analysis. The RFA Guardian is the first of its kind that exhibits sufficient performance for simulating treatment outcomes during the intervention. We achieve this by combining a large number of high-performance image processing, biomechanical simulation and visualization techniques into a generalized technical workflow. Further, we wrap the feature set into a single, integrated application, which exploits all available resources of standard consumer hardware, including massively parallel computing on graphics processing units. This allows us to predict or reproduce treatment outcomes on a single personal computer with high computational performance and high accuracy. The resulting low demand for infrastructure enables easy and cost-efficient integration into the clinical routine. We present a number of evaluation cases from the clinical practice where users performed the whole technical workflow from patient-specific modeling to final validation and highlight the opportunities arising from our fast, accurate prediction techniques.Peer reviewe
A comparative study assessing the efficacy and safety of radiofrequency ablation versus surgical treatment for osteoid osteoma: retrospective analysis in a single institution
Abstract Objective We aim to evaluate the efficacy of CT-guided percutaneous radiofrequency ablation (RFA) and surgical treatment in osteoid osteoma (OO) treated at the Medical University of Graz. Materials and methods In a single-institution study, we analysed data from January 2005 to January 2021 of patients with histological/radiological diagnosis of OO. CT and MRI scans were reviewed for typical findings. Means (with SD) and medians (with IQR) were reported for normally and non-normally distributed variables. Differences between groups were assessed using chi-squared tests and t-tests. Results One hundred nineteen patients (mean age: 21.6 ± 10.9 years; 63.9% males) with confirmed OO were retrospectively evaluated. 73 and 43 patients underwent RFA and surgery, respectively. In three cases, RFA combined with surgery was performed. Pre-intervention, 103 patients (88.8%) had undergone CT, and 101 had an MRI (87.1%). The nidus was confirmed in 82.5% of cases with CTs (85/103) and 63.4% with MRIs (64/101). The majority of nidi were located cortically (n = 96; 82.8%), most frequently in the femur (38 patients, 33.3%) with a median size of 8.0 mm (IQR: 5.0–12.0 mm). Median symptom duration before treatment was 6.0 (IQR: 4.0–13.0) months. The complication rate was 12.1% (14/116; 15.1% RFA vs. 7.0% surgery; p = 0.196). In total, 11.2% of patients had persistent symptoms after one week with clinical success rates of RFA and surgery, 86.3% and 90.7% (p = 0.647), respectively. Conclusion Compared to surgical treatment, CT-guided percutaneous RFA is a safe, minimally invasive, reliable, and efficient treatment option for OO. Critical relevance statement This article critically assesses the diagnosis and treatment of osteoid osteoma, emphasising accurate imaging, and detailing a non-invasive option for effective management. Key points • This study analyses 116 cases of OO at one institution, focusing on symptom persistence, recurrence in short-term follow-up, and complications in two study groups. • Surgery showed higher, though not statistically significant, success despite comparable symptom persistence; CT displayed typical OO features more than MRI, regardless of the intramedullary, cortical and subperiosteal location as well as the site of the affected bone. • CT-guided RFA is an effective therapeutic alternative for OO compared to surgical intervention. In case of atypical OO appearance, RFA is not the first-line treatment. Graphical Abstrac
Immunohistochemical and radiological characterization of wound healing in porcine liver after radiofrequency ablation
Background: Radiofrequency ablation (RFA)
is a minimal invasive therapeutic option for patients with
hepatocellular carcinoma or liver metastases. We
investigated RFA-induced cellular changes in the liver of
pigs.
Material and Methods: Healthy pigs (n=18) were
sacrificed between day 0 and 3 months after RFA. The
wound healing process was evaluated by computed
tomography (CT), chromotrope anilinblue (CAB)
staining of large-scale and standard tissue sections.
Immunohistochemistry (IHC) for heat shock protein 70,
Caspase-3, Ki67, Reelin, Vinculin, Vimentin and αSMA was perfomed.
Results: One day after RFA, CAB staining showed
cell damage and massive hyperaemia. All IHC markers
were predominantly expressed at the outer borders of the
lesion, except Reelin, which was mainly detected in
untreated liver regions. By staining for Hsp70, the heat
stress during RFA was monitored, which was most
distinct 1-2 days after RFA. CT revealed decreased
lesion size after one week. Development of a Vimentin
and α-SMA positive fibrotic capsule was observed.
Conclusion: In the early phase signs of cell damage,
apoptosis and proliferation are dominant. Reduced
expression of Reelin suggests a minor role of hepatic
stellate cells in the RFA zone. After one week
myofibroblasts become prominent and contribute to the
development of the fibrotic capsule. This elucidates the
pathophysiology of RFA and could contribute to the
future optimization of RFA procedures