79 research outputs found
Hyperthermia for the Treatment of Locally Advanced Cervix Cancer
(English):
There is a strong biological rationale for the use of hyperthermia as an oncological treatment modality. Fifteen randomized trials have shown significant improvement in clinical outcome when hyperthermia was added to radiotherapy, chemotherapy or both. At temperatures ≥ 40 0C, heat can cause direct celldeath, especially affecting cells that are relatively resistant to chemotherapy and radiotherapy.
In this thesis, the status of hyperthermia in the treatment of locally advanced cervix cancer in the Netherlands is presented and factors predicting outcome are identified. Further, one possible way of improving treatment quality, i.e. by using hyperthermia treatment planning, is explored.
The addition of hyperthermia to in this clinical setting results in a significant improvement in local control and a doubling of overall survival, without adding to long-term treatment-related toxicity. Patient-related predictive factors in this clinical setting are tumor stage, tumor size and patient performance status, while the radiation dose as well as thermal dose are predictive treatment-related factors.
We found a significant relationship between thermal dose and clinical outcome for 420 patients, indicating that improvement in clinical outcome can be achieved with increased thermal dose.
With the help of a hyperthermia treatment planning system, a computer program that optimizes temperature distributions for specific patients, possibly treatment quality can be improved and the thermal dose can be increased. In this thesis, such a computer program is described and adjusted for routine clinical use. Lastly, we conducted a randomized trial to assess its current contribution to treatment quality and thermal dose.
(Dutch):
Er is een sterke biologische rationale voor het gebruik van hyperthermia in de behandeling van kanker. Vijftien gerandomiseerde onderzoeken hebben aangetoond dat de klinische uitkomst significant verbeterd als hyperthermie wordt toegevoegd aan radiotherapie, chemotherapie of beide. Bij temperaturen ≥ 40 0C, kan warmte direct celdood veroorzaken, met name bij cellen die relatief ongevoelig zijn voor de effecten van radiotherapie en chemotherapie.
In dit proefschrift wordt de huidige status van hyperthermie in de behandeling van locaal uitgebreide baarmoederhalskanker onderzocht en worden prognostische factoren geïdentificeerd. Als hyperthermie wordt toegevoegd aan radiotherapie in deze setting, resulteert dit in een significante verbetering van de locale controle en verdubbelt de overleving, zonder dat de bijwerkingen van de behandeling op de lange termijn toenemen. Factoren als tumorstadium, tumorgrootte en algemene conditie van de patiënt beïnvloedden de uitkomst, maar ook de radiotherapie- en hyperthermie-dosis zijn significant.
We vonden een significante relatie tussen de hyperthermie-dosis en de klinische uitkomst voor een groep van 420 patiënten, wat erop duidt dat de klinische uitkomst verbeterd bij hogere hyperthermie-doses. Met behulp van een hyperthermie planningssysteem, een computersysteem waarmee de temperatuurverdeling kan worden geoptimaliseerd, kunnen we mogelijk de kwaliteit van behandeling en ook de hyperthermie-dosis verhogen. In dit proefschrift wordt zo’n computerprogramma beschreven en aangepast voor klinisch gebruik. Ook deden we een gerandomiseerd onderzoek op de bijdrage van het computersysteem aan de kwaliteit en hyperthermie-dosis te onderzoeken
A moderate thermal dose is sufficient for effective free and TSL based thermochemotherapy
Hyperthermia, i.e. heating the tumor to a temperature of 40–43 °C is considered by many a valuable treatment to sensitize tumor cells to radiotherapy and chemotherapy. In recent randomized trials the great potential of adding hyperthermia to chemotherapy was demonstrated for treatment of high risk soft tissue sarcoma: +11.4% 5 yrs. overall survival (OS) and for ovarian cancer with peritoneal involvement nearly +12 months OS gain. As a result interest in combining chemotherapy with hyperthermia, i.e. thermochemotherapy, is growing. Extensive biological research has revealed that hyperthermia causes multiple effects, from direct cell kill to improved oxygenation, whereby each effect has a specific temperature range. Thermal sensitization of the tumor cell for chemotherapy occurs for many drugs at temperatures ranging from 40 to 42 °C with little additional increase of sensitization at higher temperatures. Increasing perfusion/oxygenation and increased extravasation are two other important hyperthermia induced mechanisms. The combination of free drug and hyperthermia has not been found to increase tumor drug concentration. Hence, enhanced effectiveness of free drug will de
MR thermometry accuracy and prospective imaging-based patient selection in MR-guided hyperthermia treatment for locally advanced cervical cancer
The efficacy of a hyperthermia treatment depends on the delivery of well-controlled heating; hence, accurate temperature monitoring is essential for ensuring effective treatment. For deep pelvic hyperthermia, there are no comprehensive and systematic reports on MR thermometry. Moreover, data inclusion generally lacks objective selection criteria leading to a high probability of bias when comparing results. Herein, we studied whether imaging-based data inclusion predicts accuracy and could serve as a tool for prospective patient selection. The accuracy of the MR thermometry in patients with locally advanced cervical cancer was benchmarked against intraluminal temperature. We found that gastrointestinal air motion at the start of the treatment, quantified by the Jaccard similarity coefficient, was a good predictor for MR thermometry accuracy. The results for the group that was selected for low gastrointestinal air motion improved compared to the results for all patients by 50% (accuracy), 26% (precision), and 80% (bias). We found an average MR thermometry accuracy of 2.0 °C when all patients were considered and 1.0 °C for the selected group. These results serve as the basis for comprehensive benchmarking of novel technologies. The Jaccard similarity coefficient also has good potential to prospectively determine in which patients the MR thermometry will be valuable.</p
Acute toxicity patterns and their management after moderate and ultra- hypofractionated radiotherapy for prostate cancer:A prospective cohort study
Objective: Hypofractionation has become the new clinical standard for prostate cancer. We investigated the management of acute toxicity in patients treated with moderate hypofractionation (MHF) or Ultrahypofractionation (UHF). Methods: In a prospective cohort setting, patients (N=316) received either MHF (20 fractions of 3/3.1 Gy, 5 fractions per week, N=156) or UHF (7 fractions of 6.1 Gy, 3 fractions per week, N=160) to the prostate +/- (base of the) seminal vesicles between 2019 and 2023. UHF was not indicated in case of significant lower urinary tract symptoms (LUTS) or T3b disease. Patient-reported outcomes (PRO) were online distributed at baseline, end of treatment (aiming at last fraction +/- 3 days), 3 months. Acute toxicity rates, management, and associations with baseline factors were analysed using Chi-square test and logistic regression. CTCAE scores (version 5) were calculated. Results: Treatment for acute urinary complaints was prescribed in 46 % (MHF) and 29 % (UHF). Taking into consideration baseline LUTS, MHF and UHF showed similar rates of PROs and management. Medication for acute gastrointestinal (GI) symptoms was prescribed for 21.1 % (MHF) and 14.1 % (UHF) with more loperamide for diarrhea in MHF (9.0 %) vs UHF (1.9 %, p = 0.005). Grade ≥ 2 (MHF / UHF) was scored in 40 % / 28 % for GI (p = 0.03) and 50 % / 31 % for GU (p < 0.01). PROs for GI reported after last fraction of UHF were significantly worse compared to before last fraction. Conclusion: UHF was safe with respect to acute toxicity risks in the selected population. MHF is associated with risks of significant diarrhea which needs further investigation. Furthermore, optimal registration of acute toxicity for UHF requires measurements up to 1–2 weeks after the last fraction.</p
Standardization of patient modeling in hyperthermia simulation studies: introducing the Erasmus Virtual Patient Repository
Purpose: Thermal dose-effect relations have demonstrated that clinical effectiveness of hyperthermia would benefit from more controlled heating of the tumor. Hyperthermia treatment planning (HTP) is a potent tool to study strategies enabling target conformal heating, but its accuracy is affected by patient modeling approximations. Homogeneous phantoms models are being used that do not match the body shape of patients in treatment position and often have unrealistic target volumes. As a consequence, simulation accuracy is affected, and performance comparisons are difficult. The aim of this study is to provide the first step toward standardization of HTP simulation studies in terms of patient modeling by introducing the Erasmus Virtual Patient Repository (EVPR): a virtual patient model database.Methods: Four patients with a tumor in the head and neck or the pelvis region were selected, and corresponding models were created using a clinical segmentation procedure. Using the Erasmus University Medical Center standard procedure, HTP was applied to these models and compared to HTP for commonly used surrogate models.Results: Although this study was aimed at presenting the EVPR database, our study illustrates that there is a non-negligible difference in the predicted SAR patterns between patient models and homogeneous phantom-based surrogate models. We further demonstrate the dif
Treatment of early-stage breast cancer with percutaneous thermal ablation, an open-label randomised phase 2 screening trial:rationale and design of the THERMAC trial
INTRODUCTION: Breast cancer is the most frequently diagnosed malignancy worldwide but almost half of the patients have an excellent prognosis with a 5-year survival rate of 98%–99%. These patients could potentially be treated with thermal ablation to avoid surgical excision, reduce treatment-related morbidity and increase patients’ quality of life without jeopardising treatment effectiveness. Previous studies showed highest complete ablation rates for radiofrequency, microwave and cryoablation. However, due to heterogeneity among studies, it is unknown which of these three techniques should be selected for a phase 3 comparative study. METHODS AND ANALYSIS: The aim of this phase 2 screening trial is to determine the efficacy rate of radiofrequency, microwave and cryoablation with the intention to select one treatment for further testing in a phase 3 trial. Additionally, exploratory data are obtained for the phase 3 trial. The design is a multicentre open-label randomised phase 2 screening trial. Patients with unifocal, invasive breast cancer with a maximum diameter of 2 cm without lymph node or distant metastases are included. Triple negative, Bloom-Richardson grade 3 tumours and patients with an indication for neoadjuvant chemotherapy will be excluded. Included patients will be allocated to receive one of the three thermal ablation techniques. Three months later surgical excision will be performed to determine the efficacy of thermal ablation. Treatment efficacy in terms of complete ablation rate will be assessed with CK 8/18 and H&E staining. Secondary outcomes include feasibility of the techniques in an outpatient setting, accuracy of MRI for complete ablation, patient satisfaction, adverse events, side effects, cosmetic outcome, system usability and immune response. ETHICS AND DISSEMINATION: This study protocol was approved by Medical Research Ethics Committee of the Erasmus Medical Center, Rotterdam, the Netherlands. Study results will be submitted for publication in peer-reviewed journals. TRIAL REGISTRATION NUMBER: NL9205 (www.trialregister.nl); Pre-results
Induction therapy with ipilimumab and nivolumab followed by consolidative chemoradiation as organ-sparing treatment in urothelial bladder cancer:study protocol of the INDIBLADE trial
Introduction: Studies that assessed the efficacy of pre-operative immune checkpoint blockade (ICB) in locally advanced urothelial cancer of the bladder showed encouraging pathological complete response rates, suggesting that a bladder-sparing approach may be a viable option in a subset of patients. Chemoradiation is an alternative for radical cystectomy with similar oncological outcomes, but is still mainly used in selected patients with organ-confined tumors or patients ineligible to undergo radical cystectomy. We propose to sequentially administer ICB and chemoradiation to patients with (locally advanced) muscle-invasive bladder cancer. Methods: The INDIBLADE trial is an investigator-initiated, single-arm, multicenter phase 2 trial. Fifty patients with cT2-4aN0-2M0 urothelial bladder cancer will be treated with ipilimumab 3 mg/kg on day 1, ipilimumab 3 mg/kg plus nivolumab 1 mg/kg on day 22, and nivolumab 3 mg/kg on day 43 followed by chemoradiation. The primary endpoint is the bladder-intact event-free survival (BI-EFS). Events include: local or distant recurrence, salvage cystectomy, death and switch to platinum-based chemotherapy. We will also evaluate the potential of multiparametric magnetic resonance imaging of the bladder to identify non-responders, and we will assess the clearance of circulating tumor DNA as a biomarker for ICB treatment response. Discussion: This is the first trial in which the efficacy of induction combination ICB followed by chemoradiation is being evaluated to provide bladder-preservation in patients with (locally advanced) urothelial bladder cancer. Clinical Trial Registration: The INDIBLADE trial was registered on clinicaltrials.gov on January 21, 2022 (NCT05200988).</p
Clinical performance and future potential of magnetic resonance thermometry in hyperthermia
Hyperthermia treatments in the clinic rely on accurate temperature measurements to guide treatments and evaluate clinical outcome. Currently, magnetic resonance thermometry (MRT) is the only clinical option to non-invasively measure 3D temperature distributions. In this review, we evaluate the status quo and emerging approaches in this evolving technology for replacing conventional dosimetry based on intraluminal or invasively placed probes. First, we define standard-ized MRT performance thresholds, aiming at facilitating transparency in this field when comparing MR temperature mapping performance for the various scenarios that hyperthermia is currently applied in the clinic. This is based upon our clinical experience of treating nearly 4000 patients with superficial and deep hyperthermia. Second, we perform a systematic literature review, assessing MRT performance in (I) clinical and (II) pre-clinical papers. From (I) we identify the current clinical status of MRT, including the problems faced and from (II) we extract promising new techniques with the potential to accelerate progress. From (I) we found that the basic requirements for MRT during hyperthermia in the clinic are largely met for regions without motion, for example extremities. In more challenging regions (abdomen and thorax), progress has been stagnating after the clinical introduction of MRT-guided hyperthermia over 20 years ago. One clear difficulty for advancement is that performance is not or not uniformly reported, but also that studies often omit important details regarding their approach. Motion was found to be the common main issue hindering accurate MRT. Based on (II), we reported and highlighted promising developments to tackle the issues resulting from motion (directly or indirectly), including new developments as well as optimization of already existing strategies. Combined, these may have the potential to facilitate improvement in MRT in the form of more stable and reliable measurements via better stability and accuracy
Quantitative, Multi-institutional Evaluation of MR Thermometry Accuracy for Deep-Pelvic MR-Hyperthermia Systems Operating in Multi-vendor MR-systems Using a New Anthropomorphic Phantom
Clinical outcome of hyperthermia depends on the achieved target temperature, therefore
target conformal heating is essential. Currently, invasive temperature probe measurements are the
gold standard for temperature monitoring, however, they only provide limited sparse data. In contrast,
magnetic resonance thermometry (MRT) provides unique capabilities to non-invasively measure
the 3D-temperature. This study investigates MRT accuracy for MR-hyperthermia hybrid systems
located at five European institutions while heating a centric or eccentric target in anthropomorphic
phantoms with pelvic and spine structures. Scatter plots, root mean square error (RMSE) and
Bland–Altman analysis were used to quantify accuracy of MRT compared to high resistance thermistor
probe measurements. For all institutions, a linear relation between MRT and thermistor probes
measurements was found with R
2
(mean ± standard deviation) of 0.97 ± 0.03 and 0.97 ± 0.02,
respectively for centric and eccentric heating targets. The RMSE was found to be 0.52 ± 0.31 ◦C and
0.30 ± 0.20 ◦C, respectively. The Bland-Altman evaluation showed a mean difference of 0.46 ± 0.20 ◦C
and 0.13 ± 0.08 ◦C, respectively. This first multi-institutional evaluation of MR-hyperthermia hybrid
systems indicates comparable device performance and good agreement between MRT and thermistor
probes measurements. This forms the basis to standardize treatments in multi-institution studies of
MR-guided hyperthermia and to elucidate thermal dose-effect relations
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