Az osztott dózisú trimodális kezelés első hazai alkalmazása nagy kockázatú húgyhólyagdaganat esetében

Összefoglaló. Az izominvazív vagy nagyon nagy kockázatú, felületes hólyagdaganatok kezelésének arany standardja a radikális húgyhólyag-eltávolítás (cystectomia). Válogatott betegek esetében hasonló hatékonyságú kezelés lehet az osztott dózisú (split-course) trimodális terápia, az endoszkópos tumorreszekció és a kemoirradiáció megszakított ciklusokkal történő alkalmazása. A split-course trimodális terápia a radikális cystectomiához hasonló eredményességű, a későbbi életminőség szempontjából pedig ígéretes kezelési lehetőség lehet megfelelően kiválasztott betegek esetében. Hazánkban első alkalommal végzett kezelést ismertetünk a téma szakirodalmi áttekintése mellett. A húgyhólyagtumor transurethralis reszekciója, maximális eradikációja után kemoirradiáció kezdődik, melyet 45 Gy sugárdózis elérésekor ismételt szövettani mintavétel szakít meg. Negatív szövettani eredmény esetén a megkezdett terápia a teljes dózis eléréséig folytatandó. Amennyiben a reszekció során élő tumor észlelhető, a radikális műtét elvégzése javasolt. A korábban transurethralis daganatreszekción négyszer átesett 54 éves beteg lokális immunterápia utáni recidívájának szövettana pT1, ’high grade’ urothelialis carcinoma volt. A jól informált, kiváló fizikális statusú beteg kérését figyelembe véve split-course trimodális kezelést végeztünk. Negatív ’staging’ vizsgálatok után maximális endoszkópos reszekció, majd kemoirradiáció következett. A 45 Gy besugárzás elérésekor elvégzett ismételt mintavétel azonnal feldolgozott szövettana negatív eredményt mutatott, így késedelem nélkül folytatódott a kemoirradiációs kezelés. Az eddigi kontrollvizsgálatok alapján a beteg komplett remisszióban van. A split-course trimodális terápia a radikális hólyageltávolítás megfelelő alternatívája jól informált, gondosan megválogatott betegek esetében. A szervmegtartó eljárás jobb életminőséget eredményezhet, ugyanakkor a beteget feltétlenül tájékoztatni kell, hogy sikertelenség esetén a radikális műtét is szükségessé válhat. A kezelés sikeres menedzselése csak a társszakmák szoros, jól tervezett együttműködésével lehetséges. Orv Hetil. 2021; 162(50): 2017–2022. Summary. While radical cystectomy remains the gold standard to treat muscle-invasive or very high risk superficial bladder cancer, well selected patients can be offered split-course multimodal treatment as a similarly effective alternative, combining endoscopic tumor resection and split-course chemoradiotherapy. In highly selected patients, split-course trimodality therapy can lead to survival rates comparable to radical cystectomy with better quality of life outcomes. We present our experience with split-course trimodality treatment used for the very first time in Hungary. Maximal transurethral resection of bladder neoplasm is followed by chemoradiotherapy with repeated bladder biopsy after 45 Gy of irradiation. With negative biopsy results, chemoirradiation should be continued until full dose given. Salvage cystectomy is recommended if viable tumor is detected. Our patient (54), who previously underwent four transurethral bladder tumor resections and local immunotherapy, presented with pT1, high grade urothelial carcinoma recurrence. The well-informed, high performance status patient opted for split-course trimodality treatment. After negative staging scan results, the patient underwent complete endoscopic tumor eradication, followed by chemoradiotherapy. After 45 Gy of irradiation, repeated bladder biopsy was performed. The immediate histopathological examination found no viable tumor, therefore chemoradiotherapy was completed. Follow-up examinations suggest our patient in complete remission. Split-course trimodality treatment can be offered to well-informed and selected patients as a reasonable alternative to radical cystectomy. Though the bladder-sparing approach results in better quality of life, patients must know that in the case of treatment failure, radical cystectomy will likely be offered. Excellent multidisciplinary cooperation is a key to conduct this treatment alternative successfully. Orv Hetil. 2021; 162(50): 2017–2022.

Intra-Tumoral Pharmacokinetics of Pazopanib in Combination with Radiotherapy in Patients with Non-Metastatic Soft-Tissue Sarcoma

There is a lack of understanding whether plasma levels of anticancer drugs (such as pazopanib) correlate with intra-tumoral levels and whether the plasma compartment is the best surrogate for pharmacokinetic and pharmacodynamic evaluation. Therefore, we aimed to quantify pazopanib concentrations in tumor tissue, to assess the correlation between tumor concentrations and plasma concentrations and between tumor concentrations and efficacy. In this clinical trial, non-metastatic STS patients were treated with neo-adjuvant concurrent radiotherapy and pazopanib. Plasma samples and tumor biopsies were collected, and pazopanib concentrations were measured using liquid chromatography-tandem mass spectrometry. Twenty-four evaluable patients were included. The median pazopanib tumor concentration was 19.2 µg/g (range 0.149–200 µg/g). A modest correlation was found between tumor concentrations and plasma levels of pazopanib (ρ = 0.41, p = 0.049). No correlation was found between tumor concentrations and percentage of viable tumor cells (p > 0.05); however, a trend towards less viable tumor cells in patients with high pazopanib concentrations in tumor tissue was observed in a categorical analysis. Possible explanations for the lack of correlation might be heterogeneity of the tumors and timing of the biopsy procedure.

NIMG-03. TUMOR HABITAT ANALYSIS BY MAGNETIC RESONANCE IMAGING DISTINGUISHES TUMOR PROGRESSION FROM RADIATION NECROSIS IN BRAIN METASTASES AFTER STEREOTACTIC RADIOSURGERY

OBJECTIVES Identification of viable tumor after stereotactic radiosurgery (SRS) is important for future targeted therapy. This study aimed to determine whether tumor habitat on structural and physiologic MRI can distinguish viable tumor from radiation necrosis of brain metastases after SRS. METHOD Multiparametric contrast-enhanced T1-and T2-weighted imaging, apparent diffusion coefficient (ADC), and cerebral blood volume (CBV) were obtained from 52 patients with 69 metastases, showing enlarging enhancing masses after SRS. Voxel-wise clustering identified three structural MRI habitats (enhancing, solid low-enhancing, and nonviable) and three physiologic MRI habitats (hypervascular cellular, hypovascular cellular, and nonviable). Habitat-based predictors for viable tumor or radiation necrosis were identified by logistic regression. Performance was validated using the area under the curve (AUC) of the receiver-operating-characteristics curve in an independent dataset with 24 patients. RESULTS None of the physiologic MRI habitats were indicative of viable tumor. Viable tumor was predicted by a high-volume fraction of solid low-enhancing habitat (low T2-weighted and low CE-T1-weighted values; odds ratio [OR] 1.74, P< .001) and a low-volume fraction of nonviable tissue habitat (high T2-weighted and low CE-T1-weighted values; OR, 0.55, P< .001). Combined structural MRI habitats yielded good discriminatory ability in both development (AUC 0.85, 95% confidence interval [CI]: 0.77–0.94) and validation sets (AUC 0.86, 95% CI:0.70–0.99), outperforming single ADC (AUC 0.64) and CBV (AUC 0.58) values. The site of progression matched with the solid low-enhancing habitat (72%, 8/11). CONCLUSION Solid low-enhancing and nonviable tissue habitats on structural MRI can help to localize viable tumor in patients with brain metastases after SRS.

Hsp70 in Liquid Biopsies—A Tumor-Specific Biomarker for Detection and Response Monitoring in Cancer

In contrast to normal cells, tumor cells of multiple entities overexpress the Heat shock protein 70 (Hsp70) not only in the cytosol, but also present it on their plasma membrane in a tumor-specific manner. Furthermore, membrane Hsp70-positive tumor cells actively release Hsp70 in small extracellular vesicles with biophysical characteristics of exosomes. Due to conformational changes of Hsp70 in a lipid environment, most commercially available antibodies fail to detect membrane-bound and vesicular Hsp70. To fill this gap and to assess the role of vesicular Hsp70 in circulation as a potential tumor biomarker, we established the novel complete (comp)Hsp70 sandwich ELISA, using two monoclonal antibodies (mAbs), that is able to recognize both free and lipid-associated Hsp70 on the cell surface of viable tumor cells and on small extracellular vesicles. The epitopes of the mAbs cmHsp70.1 (aa 451–461) and cmHsp70.2 (aa 614–623) that are conserved among different species reside in the substrate-binding domain of Hsp70 with measured affinities of 0.42 nM and 0.44 nM, respectively. Validation of the compHsp70 ELISA revealed a high intra- and inter-assay precision, linearity in a concentration range of 1.56 to 25 ng/mL, high recovery rates of spiked liposomal Hsp70 (>84%), comparable values between human serum and plasma samples and no interference by food intake or age of the donors. Hsp70 concentrations in the circulation of patients with glioblastoma, squamous cell or adeno non-small cell lung carcinoma (NSCLC) at diagnosis were significantly higher than those of healthy donors. Hsp70 concentrations dropped concomitantly with a decrease in viable tumor mass upon irradiation of patients with approximately 20 Gy (range 18–22.5 Gy) and after completion of radiotherapy (60–70 Gy). In summary, the compHsp70 ELISA presented herein provides a sensitive and reliable tool for measuring free and vesicular Hsp70 in liquid biopsies of tumor patients, levels of which can be used as a tumor-specific biomarker, for risk assessment (i.e., differentiation of grade III vs. IV adeno NSCLC) and monitoring of therapeutic outcomes.

Insight into the Web of Stress Responses Triggered at Gene Expression Level by Porphyrin-PDT in HT29 Human Colon Carcinoma Cells

Photodynamic therapy (PDT), a highly targeted therapy with acceptable side effects, has emerged as a promising therapeutic option in oncologic pathology. One of the issues that needs to be addressed is related to the complex network of cellular responses developed by tumor cells in response to PDT. In this context, this study aims to characterize in vitro the stressors and the corresponding cellular responses triggered by PDT in the human colon carcinoma HT29 cell line, using a new asymmetric porphyrin derivative (P2.2) as a photosensitizer. Besides investigating the ability of P2.2-PDT to reduce the number of viable tumor cells at various P2.2 concentrations and fluences of the activating light, we assessed, using qRT-PCR, the expression levels of 84 genes critically involved in the stress response of PDT-treated cells. Results showed a fluence-dependent decrease of viable tumor cells at 24 h post-PDT, with few cells that seem to escape from PDT. We highlighted following P2.2-PDT the concomitant activation of particular cellular responses to oxidative stress, hypoxia, DNA damage and unfolded protein responses and inflammation. A web of inter-connected stressors was induced by P2.2-PDT, which underlies cell death but also elicits protective mechanisms that may delay tumor cell death or even defend these cells against the deleterious effects of PDT.

Automatic Detection of Osteosarcoma Based on Integrated Features and Feature Selection Using Binary Arithmetic Optimization Algorithm

Osteosarcoma is one of the most common malignant bone tumor mostly found in children and teenagers. Manual detection of osteosarcoma requires expertise and is a labour-intensive process. If detected on time, the mortality rate can be reduced. With the advent of new technologies, automatic detection systems are used to analyse and classify images obtained from different sources. Here, we propose an automatic detection system Integrated Features-Feature Selection Model for Classification (IF-FSM-C) that detect osteosarcoma from the high-resolution whole slide images (WSIs). The novelty of the proposed approach is the use of integrated features obtained by fusion of features extracted using traditional handcrafted feature extraction techniques and deep learning models. It is quite possible that the integrated features may contain some redundant and irrelevant features which may unnecessarily increases the computation time and leads to wastage of resources. To avoid this, we perform feature selection (FS) before giving the integrated features to the classifier. To perform feature selection, we propose two binary variants of recently proposed Arithmetic Optimization Algorithm (AOA) known as BAOA-S and BAOA-V. The selected features are given to a classifier that classifies the WSIs into Viable tumor (VT), Non-viable tumor (NVT) and non-tumor (NT). Experiments are performed and the results prove the superiority of the proposed IF-FSM-C that uses integrated features and feature selection in classifying WSIs as compared to the classifiers which use handcrafted or deep learning features alone as well as state-of-the-art methods for osteosarcoma detection.

Histopatholgy and Clinical Implication of Treatment-Related Changes After Gamma Knife Radiosurgery in Patients With Brain Metastases

A late-onset treatment-related changes (TRCs), which represent radiographic radiation necrosis (RN), frequently occur after stereotactic radiosurgery (SRS) for brain metastases and often need surgical treatment. This study aimed to validate the true pathology and investigate clinical implication of surgically resected TRCs on advanced magnetic resonance imaging (MRI).Retrospective analyses of 86 patients who underwent surgical resection after radiosurgery of brain metastases were performed. Fifty-four patients displayed TRCs on preoperative MRI, comprising pure RN in 19 patients (TRC-RN group) and mixed viable tumor cells in 35 patients (TRC-PD group). Thirty-two patients revealed the consistent diagnosis of progressive disease in both MRI and histopathology (PD-PD group). The TRC-PD group showed larger prescription isodose volume (9.4 cm3) than the TRC-RN (4.06 cm3, p=0.014) group and a shorter time interval from SRS to preoperative MRI diagnosis (median 4.07 months) than the PD-PD group (median 8.77 months, p=0.004). Progression-free survival was significantly different among the three groups (p<0.001), but not between TRC-RN and TRC-PD (post hoc test, p=1.00), while no difference was observed in overall survival (p=0.067).Brain metastases featured as TRCs after SRS frequently contained viable tumor cells. However, this histologic heterogeneity had a minor impact on benign prognosis of TRCs after surgical resection.

Exosomal Hsp70 in Liquid Biopsies - A Biomarker for Prediction and Response Monitoring in Cancer

In contrast to normal cells, tumor cells of multiple entities overexpress the Heat Shock Protein 70 (Hsp70) not only in the cytosol, but also present it on their plasma membrane in a tumor-specific manner. Furthermore, membrane-Hsp70 positive tumor cells actively release Hsp70 into lipid microvesicles termed exosomes into the blood. Due to conformational changes of Hsp70 in the lipid environment, most commercially available antibodies fail to detect membrane-bound and exosomal Hsp70. To fill this gap and to assess the role of exosomal Hsp70 in the circulation as a potential tumor biomarker, we established the novel complete Hsp70 (compHsp70) sandwich ELISA using two monoclonal antibodies (mAbs) that are able to recognize both, free and lipid-associated Hsp70 on the cell surface of viable tumor cells and exosomes. The epitopes of the mAbs cmHsp70.1 (aa 451-461) and cmHsp70.2 (aa 614-623) that are conserved among different species reside in the substrate-binding domain of Hsp70, with measured affinities of 0.42 nM and 0.44 nM, respectively. Validation of the compHsp70 ELISA revealed a high intra- and inter-assay precision, linearity in a concentration range of 1.56 to 25 ng/ml, high recovery rates of &lsquo;spiked&rsquo; liposomal Hsp70 (&gt;84%), comparable values between human serum and plasma samples, and no interference by food intake or age of the donors. Hsp70 concentrations in the circulation of patients with glioblastoma, squamous cell or adeno non-small cell lung carcinoma (NSCLC) at diagnosis were significantly higher than those of healthy volunteers. Hsp70 concentrations dropped concomitantly with the decrease in viable tumor mass on irradiation of patients with approximately 20 Gy (range 18 &ndash; 22.5 Gy) or after completion of radiotherapy (60 - 70 Gy). In summary, the compHsp70 ELISA presented herein provides a highly sensitive and reliable tool for measuring free and exosomal Hsp70 in liquid biopsies of tumor patients, levels of which can be used as a predictive tumor-specific biomarker, risk assessment and for monitoring therapeutic outcome.