Search Results (227)

Despite advances in surgery, chemotherapy, and radiation treatments for pancreatic ductal adenocarcinoma (PDAC), 5-year survival rates remain at nearly 11%. Cholangiocarcinoma, while not as severe, also possesses similar survival rates. Fewer than 20% of patients are surgical candidates at time of diagnosis; therefore, it is imperative that alternative therapies are effective for non-surgical patients. There are several thermal ablative techniques, including radiofrequency ablation (RFA), high-intensity focused ultrasound (HIFU), microwave ablation (MWA), alcohol ablation, stereotactic body radiotherapy (SBRT), cryoablation, irreversible electroporation (IRE), biliary intraluminal brachytherapy, and biliary photodynamic therapy (PDT). Emerging literature in animal models and human patients has demonstrated that endoscopic ultrasound (EUS)-guided RFA (EUS-RFA) prevents tumor progression through coagulative necrosis, protein denaturation, and activation of anticancer immunity in local and distant tumor tissue (abscopal effect). RFA treatment has been shown to not only reduce tumor-associated immunosuppressive cells but also increase functional T cells in distant tumor cells not treated with RFA. The remarkable ability to reduce tumor progression and promote tumor microenvironment (TME) remodeling makes RFA a very promising non-surgical therapy technique that has the potential to reduce mortality in this patient population. EUS-RFA offers superior precision and safety compared to other ablation techniques for pancreatic and biliary cancers, due to real-time imaging capabilities and minimally invasive nature. Future research should focus on optimizing RFA protocols, exploring combination therapies with chemotherapy or immunotherapy, and expanding its use in patients with metastatic disease. This review article will explore the current data and underlying pathophysiology of EUS-RFA while also highlighting the role of ablative therapies as a whole in immune activation response. Full article

Background/Objectives: Salvage liver transplantation (SLT) is a well-established option for hepatocellular carcinoma (HCC) recurrence after liver resection. Laparoscopic microwave ablation (L-MWA) represents another curative strategy for early-stage HCC. However, its role within this therapeutic framework remains unexplored. Methods: Between 2014 and 2023, we treated 1341 patients with HCC using L-MWA. From this cohort, patients with Child-Pugh class A liver function, HCC within the Milan criteria, no contraindications to transplantation, and ≥12 months of follow-up were selected. SLT failure was defined as non-transplantable recurrence or death, resulting in the loss of a potentially curative therapeutic opportunity. The primary endpoint was overall survival (OS); secondary endpoints included predictors of survival and SLT failure. Results: A total of 341 patients met the inclusion criteria. Five-year OS was 62%. Independent predictors of poorer survival included the presence of cardiac disease or oesophageal varices, a Child-Pugh score of 6, tumour size, and elevated alpha-fetoprotein (AFP) levels. Treatment was successful in 255 patients (74.8%): 102 (29.9%) underwent SLT, 67 (19.6%) received alternative therapies, and 93 (27.3%) remained recurrence-free. Treatment failure occurred in 86 patients (25.2%) due to non-transplantable recurrence or death. Independent predictors of failure included older age, non-HBV aetiology, and elevated AFP levels. Five-year OS rates were 79% in the success group and 22% in the failure group (p < 0.001). Conclusions: A combined L-MWA and SLT strategy is safe and effective, yielding a 62% 5-year OS rate. This approach supports more efficient graft use with a consequent increase in the population transplant benefit. Improved selection may further reduce failure rates. Full article

Pancreatic ductal adenocarcinoma (PDAC) remains one of the most challenging malignancies to treat, largely due to late diagnosis, limited surgical options, and profound resistance to systemic therapies, all of which contribute to a five-year survival rate of approximately 9%. The dense, hypoxic, and immunosuppressive tumor microenvironment (TME) of PDAC plays a critical role in immune evasion and therapeutic failure. As conventional immunotherapies have shown limited efficacy in PDAC, attention has shifted toward local interventions capable of remodeling the TME to enhance immune responsiveness. Endoscopic ultrasound (EUS)-guided ablative therapies have emerged as promising strategies to overcome these barriers. A range of modalities—including irreversible electroporation, microwave ablation, photodynamic therapy, and cryoablation—are under investigation. Among these, radiofrequency ablation (RFA) stands out as the most promising therapy as it not only induces direct tumor cytoreduction but also promotes antigen release, triggers immunogenic cell death, and may work synergistically with systemic therapies such as immune checkpoint inhibitors and adenosine pathway blockade. This review aims to explore the evolving role of endoscopic ablative therapies with a focus on RFA as a potential platform for immune activation in pancreatic cancer. Full article

Background: Hepatocellular carcinoma (HCC) is a major cause of cancer-related death worldwide. Percutaneous thermal ablation is an effective treatment, but standard ultrasound (US) guidance is limited in cases of inconspicuous nodules. Ultrasound fusion imaging (USFI), which overlays cross-sectional imaging onto real-time US is an emerging technique that improves tumor visibility and technical feasibility. This study reports real-life outcomes of USFI-guided microwave ablation (MWA) for HCC in two Italian centers. Materials and Methods: In this multicentric retrospective study, 56 patients with 73 poorly or non-visible HCC nodules underwent USFI-guided percutaneous MWA with no visibility or poor visibility on B-mode US. Technical success, complications, and local tumor control were evaluated, with follow-up imaging at 1 month and every 3 months thereafter. Results: Complete response (CR) at 1 month was observed in 78.1% of nodules, with residual disease (RD) more common in poorly visible nodules than non-visible nodules (18.1% vs. 4.2%, p = 0.019). During a median 13-month follow-up, local tumor progression (LTP) occurred in 9.6% of patients. No significant association was found with difficult tumor location. Conclusions: USFI-guided MWA is a safe and effective option for treating HCC nodules not adequately visualized with conventional US, expanding eligibility to complex cases. Full article

Objectives: Low tidal volume ventilation (LTVV) is a ventilatory strategy with the advantages of minimizing diaphragm movements and reducing hypercapnia and barotrauma risks. This preliminary study aims to report on the safety and effectiveness of LTVV applied during percutaneous US-guided liver ablations of focal malignancies. Methods: Patients affected by focal liver malignancies treated with percutaneous microwaves ablation were retrospectively included in this single-center analysis. Arterial gas analysis was performed immediately before and after ablation to evaluate the arterial pH, partial pressure of carbon dioxide (pCO₂), partial pressure of oxygen (pO₂), and plasma lactate levels. The primary endpoint of this study was to evaluate the safety and efficacy of LTVV during percutaneous liver cancer ablation. The secondary endpoint was to assess the procedural technical success in terms of correct needle probe targeting without the need for repositioning. Results: Ten patients affected by a single liver lesion had been analyzed. The ASA score was three in all patients, with three patients also suffering from COPD. The procedural technical success was 100%: ablations were performed with a single liver puncture without the need for changing access or repositioning the needle. No variations in post-ablation arterial gas analysis requiring anesthesiological management remodulation occurred. Lactate levels remained stable and hemodynamic balance was preserved during all procedures. No switch to standard volume ventilation was required. Conclusions: In this preliminary study, LTVV was a safe and effective anesthesiological protocol in patients treated with percutaneous ablations of liver malignancies, offering an ideal balance between patient safety and percutaneous needle probe positioning precision. Larger prospective studies are needed to confirm these findings. Full article

There is growing interest in measuring the temperature-dependent dielectric properties of bio-tissues using dual-mode techniques (scattering measurements and thermal treatment). Uncooled coaxial antennas are preferred for their direct contact with the measured medium and reduced complexity; however, they exhibit structural changes during ablation due to the thermal expansion of polytetrafluoroethylene (PTFE). This paper presents an experimental study on PTFE expansion in an uncooled coaxial insulated monopole antenna in response to changes in the tissue’s thermal environment. Furthermore, it presents a methodology to mitigate these effects through coaxial annealing. The investigation consists of two distinct experiments: characterising PTFE expansion and assessing the effects of annealing through microwave ablation. This was achieved by simulating the thermal effects experienced during ablation by immersing the test antenna in heated peanut oil. PTFE expansion was measured through camera monitoring and using a toolmaker’s microscope, revealing two expansion modalities: linear PTFE expansion and non-linear plastic deformation from manufacturing processes. The return loss during ablation and consequential changes in the ablated lesion were also assessed. Antenna pre-annealing increased resilience against structural changes in the antenna, improving lesion ellipticity. Therefore, this study establishes a fabrication method for achieving an uncooled thermally stable antenna, leading to an optimised dual-mode ablation procedure, enabling quasi-real-time permittivity measurement of the surrounding tissue. Full article

Objectives: The aim of this study was to investigate the feasibility of contrast-enhanced ultrasound (CEUS)-guided microwave ablation for managing iatrogenic hepatic hemorrhage following percutaneous liver puncture. Materials and methods: This retrospective study analyzed six patients (5 males, 1 female; mean age 56.8 ± 12.3 years) with CEUS-confirmed active hepatic hemorrhage refractory to 10 min compression and Agkistrodon halflorum hemagglutinase administration after percutaneous liver puncture (2023–2024). Etiologies included portal vein cavernous transformation (n = 4) and therapeutic intervention complications (n = 2). All patients underwent CEUS-guided microwave ablation comprising three phases: bleeding site localization, real-time ultrasound-guided ablation, and immediate postprocedural verification (CEUS: n = 6; DSA: n = 2). The protocol was approved by the institutional ethics committee with written informed consent. Results: All six patients achieved immediate hemostasis (mean 2.8 min) through CEUS-guided microwave ablation with 100% technical/clinical success. Preprocedural localization combined color Doppler and CEUS, while intraoperative real-time guidance ensured precise microwave needle placement. Post-ablation verification relied on CEUS (n = 6) with DSA confirmation in two cases. No major complications occurred; one patient reported transient abdominal pain resolving spontaneously. All patients remained stable during 7-day follow-up with no delayed complications. Conclusions: This study suggests that CEUS-guided microwave ablation is a rapid, minimally invasive, and effective option for iatrogenic hepatic hemorrhage, warranting further validation in larger cohorts. Full article

Pancreatic neuroendocrine tumors (PNETs) are a rare subset of pancreatic neoplasms with diverse biological behavior and clinical presentations. Traditional treatment approaches, such as surgery and targeted therapies, have significantly improved outcomes. However, advancements in molecular biology, immunotherapy, and minimally invasive techniques have ushered in a new era of treatment possibilities. This manuscript explores the emerging modalities in PNET management, emphasizing the need for a multidisciplinary approach tailored to individual patient profiles. Full article

Hepatocellular carcinoma (HCC) is a commonly diagnosed malignancy, with the treatment for transplant-ineligible localized disease traditionally relying on locoregional therapies, such as surgical resection, transarterial chemoembolization (TACE), and transarterial radioembolization (TARE). Systemic therapy has historically been reserved for advanced, unresectable HCC. However, lenvatinib, an oral multikinase inhibitor, has recently gained traction as part of a multimodal approach for localized HCC in combination with locoregional treatments. An upfront TACE or TARE can induce tumor hypoxia, leading to the upregulation of hypoxia-inducible factor-1 alpha (HIF-1α) and vascular endothelial growth factor (VEGF), which promotes tumor angiogenesis and progression. The rationale for combining lenvatinib with a locoregional therapy is to enhance tumor shrinkage while preserving liver function before a definitive intervention. Clinical trials, such as TACTICS and LAUNCH, have demonstrated improved outcomes with this approach. Additionally, retrospective studies, including those incorporating immune checkpoint inhibitors, have reported further benefits. This review explores the combination of lenvatinib with various locoregional modalities, including TARE, microwave ablation (MWA), and radiofrequency ablation (RFA), highlighting their indications and clinical outcomes. Furthermore, we discuss the ongoing and upcoming clinical trials investigating the integration of systemic agents with locoregional therapies for intermediate-stage HCC, including EMERALD-1, EMERALD-3, LEAP-012, and CheckMate 74W. Full article

The most recent comparisons between liver resection (LR) and percutaneous thermal ablation (PTA) reported similar efficacy and survival outcomes for primary and secondary liver tumors ≤ 3 cm in size. Nevertheless, LR still remains the most popular treatment strategy worldwide, and percutaneous ablation is usually reserved to patients who are not surgical candidates. However, in our opinion, the debate should no longer be what is the most effective treatment for patients with resectable small liver cancer who are not candidates for liver transplantation, but rather when LR or PTA are best suited to the individual patient. Subcapsular tumors or tumors closely adjacent to critical structures or vulnerable organs should undergo LR because ablation can often not achieve an adequate safety margin. Conversely, PTA should be considered the first choice to treat central tumors because it has lower complication rates, lower costs, and shorter hospital stay. Furthermore, recent technical improvements in tumor targeting and accurate assessment of the extent of the safety margin, such as stereotactic navigation, fusion imaging and software powered by Artificial Intelligence enabling the immediate comparison between the pre-procedure planned margins and the ablation area, are also changing the approach to tumors larger than 3 cm. The next trials should be aimed at investigating up to what tumor size PTA supported by these advanced technologies can achieve outcomes comparable to LR. Full article

Background/Objectives: Pancreatic cancer remains one of the most aggressive and lethal malignancies, with limited effective treatment options for advanced stages. Microwave Ablation (MWA) has emerged as a minimally invasive therapeutic modality, offering potential benefits in tumor control. This review aims to critically assess the safety and efficacy of MWA in the treatment of pancreatic cancer, focusing on its application in various pancreatic lesions. Methods: We systematically reviewed studies published between 2010 and 2023 that evaluated the use of MWA in pancreatic tumors, including locally advanced pancreatic cancer (LAPC), pancreatic neuroendocrine tumors (PNETs), and pancreatic metastases from renal cell carcinoma (RCC). Due to limited data on survival rates and long-term outcomes, our analysis concentrated primarily on the technical aspects and immediate procedural outcomes of MWA. Results: MWA was technically feasible in all cases. The overall complication rate was approximately 16.7% (nine patients), with higher incidences in tumors located in the pancreatic head. Reported complications included pancreatitis and pseudocyst formation. Procedural parameters varied, with applied energy ranging from 20 to 80 watts and ablation times between 2 to 15 min, depending on the microwave generator type and approach (percutaneous, intraoperative or endoscopic). All cases demonstrated effective necrosis of the target tissue, and several studies reported notable tumor size reductions, averaging up to 70%. Conclusions: MWA shows promise as a therapeutic option for pancreatic cancer, achieving high technical success rates and significant tumor reductions. However, the procedure is associated with a moderate complication rate, particularly in tumors located in the pancreatic head. Full article

Background/Objectives: To evaluate the prognostic value of easily obtainable biomarkers for patients undergoing percutaneous microwave ablation (MWA) for colorectal liver metastases (CLMs). Prior studies showed that simple biomarkers, such as the lymphocyte-to-monocyte ratio (LMR), albumin-to-globulin ratio (AGR), platelet-to-lymphocyte ratio (PLR), and neutrophil-to-lymphocyte ratio (NLR), as well as cancer-specific markers, like carcinoembryonic antigen (CEA), might have a prognostic role in various malignancies; however, none of these were assessed in patients undergoing MWA for CLMs. Methods: Based on the simple laboratory results, which were determined prior to the ablation, several biomarkers, including the LMR, AGR, PLR, and NLR, were calculated. The log-rank test’s optimal cutoff points for continuous variables were determined. Subsequently, univariable and multivariable Cox regression models were utilized to determine the association between various features and overall survival (OS). Results: This study included 57 CLM patients with a mean age of 63 ± 12.5 years at the time of ablation with a mean follow up of 30.9 months. The univariable model demonstrated that a high level of CEA (cutoff: 29.1 ng/mL; HR: 3.70) and a high LMR (cutoff: 5.32; HR: 4.05) were related to worse OS, whereas a high NLR (cutoff: 2.05; HR: 0.31) and primary left-sided colon cancer (HR: 0.36) were positive prognostic factors. The multivariable regression model confirmed these findings, with the exception of the LMR, which was no longer significantly associated with OS. Conclusions: This study demonstrates the feasibility of overall survival prediction and thus patient stratification based on easily obtainable biomarkers and clinicopathological features in CLM patients undergoing MWA. Full article

Percutaneous image-guided ablation (IGA) has emerged as an established alternative to surgical management for small renal masses. This comprehensive review examines traditional and emerging indications, energy sources, techniques, and future developments in IGA for renal cancer treatment. Traditionally, IGA has been indicated for frail or comorbid patients, those with solitary kidneys or chronic kidney disease, and those with histologically proven renal cell carcinomas less than 4 cm in size. Recent evidence supports expanding these indications to include T1b or T2 tumours and hereditary or recurrent renal cell carcinomas. The use of IGA combined with pre-ablation transarterial embolisation is discussed herein. This review then explores traditional energy sources including radiofrequency ablation, cryoablation, and microwave ablation, highlighting their respective advantages and limitations. Emerging technologies such as irreversible electroporation and histotripsy, as promising alternatives, are then presented, highlighting their advantage of being able to treat tumours near critical structures. Future research priorities highlight the need to establish high-quality evidence through innovative trial designs, as well as taking patient-reported outcome measures into account. Health economic considerations are key to ensuring that ablation therapies are cost-effective. The integration of artificial intelligence and radiomics shows vast potential for improving patient selection and treatment outcomes. Additionally, the immunomodulatory effects of ablative therapies suggest possible synergistic benefits when combined with immunotherapy which also require exploration in future research. Technological advancement and research developments will continue to broaden the role of IGA in clinical practice. Full article

This work presents a comparative analysis of microwave ablation applicators, including both antenna-based and open waveguide designs, which are guided and inserted into tumors via catheters. Applicators previously proposed in the literature are evaluated through both electromagnetic and thermal simulations. The objective is to assess temperature distribution within the tumor and surrounding healthy tissues; with a focus on identifying patterns of heat diffusion. Although a variety of applicators have been designed, each typically operates at different central frequency or targets specific tumor shapes and tissue types. In this study, we standardize conditions by analyzing multiple applicators’ designs for the same tumor type. The results highlight the shape of the ablation zone and corresponding temperature distribution, offering insights into potential healthy tissue damage. This comparative analysis provides critical information for optimizing microwave ablation applicators for more precise and effective treatment. Full article

Objectives: This study aimed to assess the performance of the LI-RADS tumor response algorithm in analyzing inter-reader agreement in patients with hepatocellular carcinoma (HCC) treated with Microwave Ablation (MWA) and Transarterial Embolization (TAE) and the relationship between inter-reader agreement and Neutrophils to Lymphocytes ratio dynamic variations at different time points to explore how inflammation influences tumor response and its interpretation on imaging. Methods: A retrospective analysis was conducted on 78 HCC patients treated with MWA or TAE. Two independent radiologists evaluated pre- and post-treatment imaging and assigned categories according to the LR-TRA. Inter-reader agreement was assessed with a focus on subgroup analysis considering the different locoregional treatments. NLR values, measured at baseline (T0), 72 h (T1), and 30 days post-procedure (T2), were compared with patients with concordant and discordant LR-TRA assessments. This analysis aimed to identify any association between NLR dynamics and inter-reader agreement on treatment response. Results: The inter-reader agreement in the LR-TRA application was “substantial” in the cases of MWA treatment evaluation (κ = 0.65), and “moderate” in the cases of TAE treatment evaluation (κ = 0.51). The differences in inter-reader agreement were found to be expressions of different levels of NLR mean values in the different time frames evaluated. Three days after treatment, NLR increased significantly in TAE groups. At 30 days, NLR had returned close to baseline levels but with NLR persisting higher in the TAE group. There was a statistically significant difference in NLR between the “mismatch” group (those with discrepant LR-TRA readings) and the “match” group at 3 days (p = 0.004) and late evaluation (30+ days). Conclusions: This study has shown that NLR levels can predict inter-reader discrepancies in LR-TRA assessment and may be translated into different levels of difficult imaging interpretation. Combining LR-TRA and NLR is promising for a more comprehensive assessment of tumor response and inflammatory dynamics. Full article