Showing total 1,800 results

1. Brachytherapy and 3D printing for skin cancer: A review paper.

Author

Poltorak, Michal, Banatkiewicz, Pawel, Poltorak, Lukasz, Sobolewski, Piotr, Zimon, Damian, Szwast, Maciej, and Walecka, Irena

Subjects

*THREE-dimensional printing, *SKIN cancer, *RADIOISOTOPE brachytherapy, *TUMOR treatment, *HIGH dose rate brachytherapy, *HEAVY elements, *TREATMENT effectiveness

Abstract

Brachytherapy is a type of radiation therapy, in which a radiation source is placed directly or close to a tumor. It is commonly used to treat skin cancer, and enables precise irradiation treatment of affected area (planning target volume - PTV) while minimizing exposure dose to surrounding healthy tissue (organs at risk - OARs). Recently, the use of 3D printing has begun revolutionizing brachytherapy, as it allows manufacturing of custom-designed applicators for unique shape of skin topography, tumor, and surrounding tissues. Outcome of the combination of 3D printing and brachytherapy has several advantages over traditional treatment planning methods. Some of the advantages are intuitive, whereas others can be concluded from a literature overview as follows: 1) Possibility of developing patient-specific applicators that precisely match the shape of tumor area; 2) Reduction of the time required for applicator production, especially when custom-made devices are needed; 3) Reduction of manufacturing costs; 4) Treatment procedures improvement; 5) Improvement of safety measures accelerated by the development of smart materials (e.g., polymer filaments with admixture of heavy elements); 6) Possibility of nearly instant adjustment into tumor treatment (applicators can be changed as the tumor is changing its shape); and 7) Applicators designed to securely fit to treatment area to hold radioactive source always in the same place for each fraction. Consequently, tumor-provided dose is accurate and leads to effective treatment. In this review paper, we investigated the current state-of-the-art of the application of 3D printing in brachytherapy. A number of existing reports were chosen and reviewed in terms of printing technology, materials used, treatment effectiveness, and fabrication protocols. Furthermore, the development of future directions that should be considered by collaborative teams bridging different fields of science, such as medicine, physics, chemistry, and material science were summarized. With the indicated topics, we hope to stimulate the innovative progress of 3D printing technology in brachytherapy. [ABSTRACT FROM AUTHOR]

Published

2024

2. The 100 Most Cited Papers in Radiotherapy or Chemoradiotherapy for Cervical Cancer: 1990–2020.

Author

Wang, Weiping, Liu, Xiaoliang, Wang, Dunhuang, Ren, Kang, Zhou, Yuncan, Zhou, Ziqi, Qiu, Jie, Zhang, Fuquan, and Hu, Ke

Subjects

CERVICAL cancer, CHEMORADIOTHERAPY, RADIOTHERAPY, RADIOISOTOPE brachytherapy, RADIOBIOLOGY

Abstract

Objective: This work aims to analyze the 100 most cited papers in radiotherapy or chemoradiotherapy for cervical cancer. Methods: The 100 most cited papers in radiotherapy or chemoradiotherapy between 1990 and 2020 were identified with Thompson Reuters Web of Science citation indexing on August 24, 2020. The publication years, source titles, countries/regions, total citations, and average citations per year were extracted from the Web of Science. The research type and research domain were classified by the authors. Results: These 100 papers were cited a total of 28,714 times, and the median number of citations was 169.5 (ranging from 116 to 1,700 times). The most cited paper was "Concurrent cisplatin-based radiotherapy and chemotherapy for locally advanced cervical cancer" by Rose et al., with a total citation of 1,700 times. The International Journal of Radiation Oncology Biology Physics (40 papers), Radiotherapy and Oncology (14 papers), and the Journal of Clinical Oncology (12 papers) published the largest number of papers. USA (47 papers), Austria (18 papers), Canada (13 papers), and England (13 papers) contributed the largest number of papers. Image-guided adaptive brachytherapy (IGABT) had the largest number of papers (25 papers). Concurrent chemotherapy was the most cited research domain, with 10,663 total citations and 592.4 citations per paper. Conclusion: In the present study, we conducted a bibliometric analysis of the 100 most cited papers in radiotherapy or concurrent chemoradiotherapy for cervical cancer in the past 30 years. IGABT and concurrent chemotherapy were the most cited research domains. [ABSTRACT FROM AUTHOR]

Published

2021

3. IsoRay announces recognition of Cesium-131 in ABS consensus paper

Subjects

Cesium -- Rankings, Evidence-based medicine, Radioisotope brachytherapy, Business, News, opinion and commentary

Abstract

The American Brachytherapy Society has recognized Isoray's Cesium-131 in its recently released new consensus statement on the subject of low dose rate prostate brachytherapy. This marks the first time Cesium-131 [...]

Published

2021

4. American Brachytherapy Society LDR Prostate Brachytherapy Treatment Consensus Paper Recognizes Isoray's Cesium-131

Subjects

Societies, Cesium -- Rankings, Associations, institutions, etc., Evidence-based medicine, Radioisotope brachytherapy, Banking, finance and accounting industries, Business

Abstract

RICHLAND, Wash., Sep 28, 2021 (GLOBE NEWSWIRE via COMTEX) -- The American Brachytherapy Society (ABS) has recognized Isoray's Cesium-131 in its recently released new consensus statement on the subject of [...]

Published

2021

5. American Brachytherapy Society LDR Brachytherapy Treatment Consensus Paper Recognizes Isoray's Cesium-131

Subjects

Societies, Prostate cancer -- Care and treatment, Cesium, Cancer -- Care and treatment, Associations, institutions, etc., Evidence-based medicine, Radioisotope brachytherapy, General interest, News, opinion and commentary

Abstract

RICHLAND, Wash.,: The American Brachytherapy Society (ABS) has recognized Isoray's Cesium-131 in its recently released new consensus statement on the subject of low dose rate (LDR) prostate brachytherapy. This marks [...]

Published

2021

6. Top cited publications for treatment of keloid with radiotherapy: A Bibliometric analysis.

Author

Siavashpour, Zahra, Houshyari, Mohammad, Dadkhahfar, Sahar, and Jafari, Anya

Subjects

BIBLIOMETRICS, KELOIDS, HIGH dose rate brachytherapy, RADIOISOTOPE brachytherapy, RADIOTHERAPY, PUBLISHED articles, DATABASES

Abstract

The use of radiation to treat keloid scars has gained popularity during the last few decades. However, few bibliometric analyses have been performed on the published articles. This research aimed to demonstrate and evaluate the trends, top-cited articles, and frontier areas. In this cross-sectional study, Web of Science (WOS) and Scopus database literature was searched for all MESH terms related to "keloid" and "radiotherapy." The bibliometric analysis was carried out by VOSviewer 1.6.15. Articles with Web of Science-based citations of ≥20 were included. The citation per year index (CPYI) of articles was calculated for further inclusion of papers if they had CPYI higher than the mean value. There were 95 papers on keloid radiation that satisfied the inclusion criteria and were published between 1942 and 2019. The CPYI ranged from 0.38 to 11.3. Most studies were published in the "International Journal of Radiation Oncology, Biology, and Physics" (9 papers). The United States has the most papers (14), followed by Japan (9), the Netherlands (7), and Germany (5). To the best of our knowledge, this is the first bibliometric analysis of top-cited papers on keloid radiotherapy. From 2014 to the present, it seems that this title has resurfaced as a popular topic, with radiotherapy within 24 h of surgery being the most commonly recommended treatment plan. Since around 2011, high-dose-rate brachytherapy (HDR-BT) has been used as an effective treatment for keloid control. Individualization of therapy and dose/technique based on the location is strongly suggested. [ABSTRACT FROM AUTHOR]

Published

2023

7. Jaw Reconstruction with Scapular Bone Flap and Prosthetic Implant Rehabilitation: A Comprehensive Systematic Review.

Author

Di Giorgio, Danilo, Nocini, Riccardo, Di Bartolomeo, Mattia, Fatiga, Matteo, Della Monaca, Marco, Priore, Paolo, Terenzi, Valentina, Battisti, Andrea, Cassoni, Andrea, and Valentini, Valentino

Subjects

RADIOISOTOPE brachytherapy, DENTAL implants, SCAPULA, QUALITY of life, DIGITAL technology, FREE flaps

Abstract

A rising demand for prosthetic-driven jaw reconstruction is encountered in maxillo-facial surgery. The free scapula flap is a workhorse of cervico-facial reconstructions, but an implant-based prosthetic rehabilitation on this flap is a debated topic. A systematic review of the papers on this subject has been conducted on Embase, MEDLINE, and Cochrane libraries following PRISMA guidelines, in order to analyze the results described in the literature. A total of nine papers were eligible for inclusion, with 83 scapula flaps overall being used for an implant-based prosthetic rehabilitation. The mandible was the reconstructed jaw in 58.0% of the cases. Overall, 249 implants were positioned (mean 3.0 implant per flap) with a 3.6% implant failure rate. In 95.2% of the cases, delayed rehabilitation was performed. Radiotherapy and the timing of implant placement did not seem to influence implant failure. Only two papers analyzed the quality of life following the rehabilitation, highlighting a functional improvement. Scapula-based implant-prosthetic rehabilitation is a feasible technique that can also benefit from the new CAD/CAM technologies and digital workflows. Nonetheless, further studies focused on this topic and on its impact on the quality of life are needed in order to analyze risk factors and to optimize the outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

8. Superficial skin cancer therapy with Y‐90 microspheres: A feasibility study on patch preparation.

Author

Pashazadeh, Ali, Landes, Rainer, Boese, Axel, Kreissl, Michael C., Klopfleisch, Maurice, and Friebe, Michael

Subjects

SKIN cancer, BETA rays, CANCER treatment, MICROSPHERES, NITROCELLULOSE, SKIN permeability, RADIOISOTOPE brachytherapy, NANOFABRICATION

Abstract

Background: Radiation therapy using beta particles is an interesting treatment for very superficial skin lesions. Due to their low penetration in tissue and rapid dose fall‐off, beta particles can protect underlying bony structures and surrounding healthy tissue while irradiating the skin tumor. In the current work, a simple method for the fabrication of a radioactive patch for use in skin cancer therapy based on a beta‐emitting isotope is presented. Materials and methods: The beta radiation sources were Y‐90 microspheres currently used for catheter‐based radioembolization of unresectable liver tumors. The microspheres were filtered through a syringe filter to trap them on the cellulose nitrate paper of the filter and create a radioactive patch. In the current study, to avoid the need for a hot laboratory, the experiment was done using nonradioactive microspheres. An optical microscope was used to verify the distribution of the particles on the filter paper. Results: Visual evaluation of the patches showed that using the proposed method, therapeutic skin patches with a fairly uniform distribution of microspheres can be created. Conclusion: The proposed simple method may be used in creating radiotherapeutic patches using Y‐90 microspheres for radiation therapy of thin skin lesions located close to sensitive structures. [ABSTRACT FROM AUTHOR]

Published

2020

9. Anniversary Paper: Past and current issues, and trends in brachytherapy physics.

Author

Thomadsen, Bruce R., Williamson, Jeffrey F., Rivard, Mark J., and Meigooni, Ali S.

Subjects

*RADIOISOTOPE brachytherapy, *RADIOTHERAPY, *MEDICAL electronics, *MEDICAL radiology, *ARTIFICIAL implants

Abstract

Brachytherapy began at the turn of the 20th century, contemporary with external-beam radiotherapy. Physicists and physicians together developed the field. There has not been a period since the beginning that has not witnessed innovations and progress in brachytherapy. At the time of this article, the pace of change in the field has never been more rapid, particularly in image-guided brachytherapy and the development of unconventional sources and treatment techniques. [ABSTRACT FROM AUTHOR]

Published

2008

10. Anniversary Paper: Fifty years of AAPM involvement in radiation dosimetry.

Author

Ibbott, G., Ma, C.-M., Rogers, D. W. O., Seltzer, S. M., and Williamson, J. F.

Subjects

*RADIATION dosimetry, *MEDICAL protocols, *RADIOISOTOPE brachytherapy, *MEDICAL laboratories, *RADIOTHERAPY, *RADIOLOGY

Abstract

This article reviews the involvement of the AAPM in various aspects of radiation dosimetry over its 50 year history, emphasizing the especially important role that external beam dosimetry played in the early formation of the organization. Topics covered include the AAPM’s involvement with external beam and x-ray dosimetry protocols, brachytherapy dosimetry, primary standards laboratories, accredited dosimetry chains, and audits for machine calibrations through the Radiological Physics Center. [ABSTRACT FROM AUTHOR]

Published

2008

11. Brachytherapy in Breast Cancer Treatment: Physical and Biological Aspects Brachyterapia w leczeniu raka piersi: aspekty fizyczne i biologiczne.

Author

Maj-Dziedzic, Monika, Brzozowska, Anna, Sikora, Marcelina, Zarzycka, Marta, Plewniok, Ines, Dubiel, Jeremiasz, Maj, Adrian, Śmietana, Greta, Warno, Martyna, and Kozik, Wiktor

Subjects

MEDICAL personnel, PHYSIOLOGICAL effects of radiation, COMPTON effect, RADIOISOTOPE brachytherapy, TREATMENT duration, CONSCIOUSNESS raising, HIGH dose rate brachytherapy, IONIZING radiation

Abstract

This scientific paper focuses on the treatment of breast cancer, one of the most common cancers among women. Despite increased awareness and the popularity of screening tests, statistics indicate a significant rise in incidence. The paper presents breast-conserving treatment methods, including brachytherapy, as a modern technique with promising outcomes. It describes the physical properties of ionizing radiation used in brachytherapy, discussing the photoelectric effect, Compton effect, and the phenomenon of pair production. The paper then delves into the biological effects of ionizing radiation, emphasizing the dependence on the cell cycle phase. It highlights lethal, sublethal, and potentially lethal cellular damage, categorizing the effects of radiation interaction into early and late responses. The discussion transitions to the application of brachytherapy in breast cancer treatment, focusing on various techniques such as LDR, PDR, and HDR. The paper provides a detailed description of brachytherapy's use in breast-conserving treatment, considering contraindications, treatment planning, and Accelerated Partial Breast Irradiation (APBI) techniques. The radioisotopes used in brachytherapy are also presented, with special attention to Iridium-192. The physical and practical aspects related to this isotope are discussed, along with other commonly used radioisotopes such as Cesium-137, Cobalt-60, and Strontium-90. The paper concludes with a summary, emphasizing the significance of brachytherapy in breast cancer treatment and outlining its prospects for development. The authors highlight precision and shortened therapy duration. Aim of the study The following paper aims to present a review of current knowledge regarding brachytherapy in the treatment of breast cancer and the treatment outcomes associated with this method. The main goal is to raise awareness among healthcare professionals about current issues with improvement of breast cancer treatment procedures based on brachytherapy. Materials and methods This article presents the current state of knowledge about brachytherapy for breast cancer, as found in various scientific articles. The following English keywords and their Polish equivalents were used to search Google Scholar's medical databases: brachytherapy, conservative treatment, breast cancer, BT, MammoSite. The most relevant articles on the subject were selected. [ABSTRACT FROM AUTHOR]

Published

2024

12. The role of training simulators in interventional radiation therapy (brachytherapy) training: A narrative review.

Author

Ferioli, Martina, Medici, Federica, Galietta, Erika, Forlani, Ludovica, Tagliaferri, Luca, Cilla, Savino, Cammelli, Silvia, Morganti, Alessio G., and Buwenge, Milly

Subjects

RADIOTHERAPY, SYNTHETIC training devices, RADIOISOTOPE brachytherapy, MEDICAL personnel, MEDICAL education, SIMULATED patients, MEDICAL simulation

Abstract

Simulators have revolutionized medical education and training across various disciplines, offering unique advantages in skill acquisition and performance improvement. In the context of interventional radiation therapy (IRT), simulators have emerged as valuable tools for training healthcare professionals in these complex procedures. This narrative review summarized the available evidence on the use of simulators in IRT training, highlighting their impact on proficiency, engagement, and self-confidence as well as their benefits for medical physicists and radiation therapists. A systematic search was conducted in PubMed, resulting in inclusion of 10 papers published since 2009, with 5 of them published since 2020. Publications originated from centers in USA, Ireland, Switzerland, Canada, and Japan, covering a range of IRT settings, including general, prostate, and cervical IRT. The review demonstrated that simulators provide a controlled and realistic environment for skill acquisition, allowing healthcare professionals to practice procedures, optimize image quality, and enhance technical proficiency. The use of simulators addressed the barriers associated with limited caseload and procedural complexity, ultimately contributing to improved education and IRT training. While cost considerations may exist, simulators offer long-term costeffective solutions, balancing the potential benefits in improving educational outcomes and patient care. Overall, simulators play a crucial role in IRT training, enhancing the skills and competence of healthcare providers and improving access to quality IRT care worldwide. Future research should focus on evaluating the long-term impact of simulation-based training on clinical outcomes and patient satisfaction, exploring different simulation models and training approaches, and addressing region-specific barriers to optimize the utilization of IRT. [ABSTRACT FROM AUTHOR]

Published

2023

13. Electronic brachytherapy papers presented at conference

Subjects

Radioisotope brachytherapy, Health, Science and technology

Abstract

The performance of electronic brachytherapy, a new technology designed to deliver localized, nonradioactive radiation treatment directly to cancer sites, is the focus of three research papers presented at the 26th [...]

Published

2005

14. Electronic brachytherapy papers presented at conference

Subjects

Radioisotope brachytherapy, Health

Abstract

The performance of electronic brachytherapy, a new technology designed to deliver localized, nonradioactive radiation treatment directly to cancer sites, is the focus of three research papers presented at the 26th [...]

Published

2005

15. AMPI Best Paper.

Subjects

RADIOISOTOPE brachytherapy, TITANIUM, CANCER risk factors, MEDULLOBLASTOMA, INTENSITY modulated radiotherapy

Published

2017

16. Personalized Brachytherapy: Applications and Future Directions.

Author

Pathak, Piyush, Thomas, Justin J., Baghwala, Arjit, Li, Chengfeng, Teh, Bin S., Butler, Edward B., and Farach, Andrew M.

Subjects

SQUAMOUS cell carcinoma, LYMPHEDEMA, COMBINATION drug therapy, MEDICAL technology, SKIN inflammation, CANCER relapse, PROSTATE-specific antigen, GENOMICS, SALVAGE therapy, ARTIFICIAL intelligence, IMMUNOTHERAPY, RADIOISOTOPE brachytherapy, ULTRASONIC imaging, TUMOR markers, RECTUM tumors, TUMORS, INDIVIDUALIZED medicine, THREE-dimensional printing, MACHINE learning, FLUOROSCOPY

Abstract

Simple Summary: Brachytherapy is a form of internal radiation therapy where radioactive sources are placed directly in or near tumors. This paper shows how brachytherapy can be personalized using new technologies like 3D-printed applicators, advanced imaging techniques, and artificial intelligence to make treatment more precise and effective. The authors also explore the role of genetic tests and biomarkers for choosing the best treatments for each patient, as well as future approaches such as combining brachytherapy with immunotherapy and developing new ways to shape radiation doses using shielding. By tailoring treatments to individual patients, personalized brachytherapy aims to effectively treat cancer while reducing treatment-related side effects. Brachytherapy offers a highly conformal and adaptive approach to radiation therapy for various oncologic conditions. This review explores the rationale, applications, technological advances, and future directions of personalized brachytherapy. Integration of advanced imaging techniques, 3D-printed applicators, and artificial intelligence are rapidly enhancing brachytherapy delivery and efficiency, while genomic tests and molecular biomarkers are refining patient and dose selection. Emerging research on combining brachytherapy with immunotherapy offers unique synergistic potential, and technologies such as intensity-modulated and shielded brachytherapy applicators present novel opportunities to further optimize dose distributions. Despite these promising advances, the field faces challenges including a need to train more practitioners and develop new approaches to treating a broader range of malignancies. As personalized medicine evolves, brachytherapy's ability to deliver highly targeted, individualized treatments positions it as a critical component in future cancer care. [ABSTRACT FROM AUTHOR]

Published

2024

17. Radioactive Material Tracking Using Modern Cloud-Based Platform: Why Did We Ever Use Paper?

Author

Hayes, Lane, Manning, Matthew A., Sintay, Benjamin, and Liu, Han

Subjects

*PATIENT safety, *RADIATION protection, *RADIOISOTOPE brachytherapy, *NUCLEAR activation analysis

Published

2018

18. The role of interventional radiotherapy (brachytherapy) in nasopharynx tumors: A systematic review.

Author

Milazzotto, Roberto, Lancellotta, Valentina, Posa, Alessandro, Fionda, Bruno, Massaccesi, Mariangela, Cornacchione, Patrizia, Spatola, Corrado, Kovács, György, Morganti, Alessio Giuseppe, Bussu, Francesco, Valentini, Vincenzo, Iezzi, Roberto, and Tagliaferri, Luca

Subjects

NASOPHARYNX tumors, RADIOISOTOPE brachytherapy, EXTERNAL beam radiotherapy, NASOPHARYNX cancer, RADIOTHERAPY

Abstract

Purpose: Nasopharyngeal cancers (NPC) are very aggressive, and the recurrence rate after radical therapy is high. This study aimed to evaluate the efficacy of brachytherapy (BT) also called interventional radiotherapy (IRT) in primary NPC in comparison with external beam radiotherapy (EBRT) alone. Material and methods: A systematic search was performed in Scopus, Cochrane, and PubMed databases. Clinical query based on PICO framework was as follows: In patients with NPC (P), is EBRT plus IRT (I) superior to EBRT alone (C) in terms of local control (LC) and toxicity (O)? Full articles evaluating the efficacy of IRT as a boost after EBRT in patients with NPC were considered. Results: Eight papers, including 1,320 patients fulfilled the inclusion criteria. The median 5-year LC for IRT group and no-IRT group was 98% (range, 95.8-100%) and 86% (range, 80.2-91%), respectively; the median 5-year overall survival (OS) for IRT group and no-IRT group was 93.3% (range, 89.2-97.5%) and 82.9% (range, 74.8-91.1%), respectively; the median 5-year DFS for IRT group and no-IRT group was 94.2% (range, 92.5-96%) and 83.9% (range, 73.3-94.6%), respectively; the median 5-year cancer-specific survival (CSS) for IRT group and no-IRT group was 96% (range, 94.5-97.5%) and 88.2% (range, 83.4-93.1%), respectively. G1-2 and G3-4 toxicities were similar in some articles, or significantly lower in patients treated with IRT in other papers. Conclusions: Data suggest that IRT may improve results of external beam radiotherapy in primary NPCs, especially when using new technologies. [ABSTRACT FROM AUTHOR]

Published

2023

19. Highly cited papers in Medical Physics.

Author

Eaton, David J.

Subjects

*MEDICAL physics, *PERIODICAL publishing, *RADIOISOTOPE brachytherapy, *PERIODICAL articles, *NUCLEAR magnetic resonance spectroscopy

Published

2014

20. Abstracts of Papers: The Connecticut Chapter of the American College of Surgeons (CTACSPA).

Author

Corvo, Philip R.

Subjects

HEMORRHAGE, WARFARIN, RADIOISOTOPE brachytherapy

Abstract

Several abstracts of articles submitted for presentation at the 47th Annual Meeting of the Connecticut Chapter of the American College Surgeons (CTACSPA) are presented including the risk profiles of intracranial hemorrhage in patients who were given warfarin or other antithrombotic therapy, the use of intraoperative brachytherapy (IOBT), and the use of electromagnetic navigational bronchoscopy.

Published

2015

21. PRO-NOVELTY: Patient-Reported Outcomes in NOse VEstibule interventionaL radioTherapY (brachytherapy).

Author

Tagliaferri, Luca, Sciurti, Elisabetta, Fionda, Bruno, Loperfido, Antonella, Lancellotta, Valentina, Placidi, Elisa, Parrilla, Claudio, La Milia, Maria Concetta, Rosa, Enrico, Rigante, Mario, De Angeli, Martina, Cornacchione, Patrizia, Galli, Jacopo, Bussu, Francesco, and Gambacorta, Maria Antonietta

Subjects

PATIENT reported outcome measures, NASAL tumors, QUALITY of life, RADIOISOTOPE brachytherapy, DATA quality

Abstract

Background: The aim of this paper is to evaluate the impact on the quality of life of the treatment of nasal vestibule tumors by interventional radiotherapy (IRT-brachytherapy) through a patient reported outcome questionnaire. Methods: We prospectively collected data about patients undergoing IRT according to our institutional schedule of 44 Gy delivered in 14 fractions twice a day. We recorded both acute toxicity data, using the Common Terminology Criteria for Adverse Events (CTCAE) version 5.0, and quality of life data, using the 22-item Sino-Nasal Outcome Test (SNOT-22) at baseline (T0), at 1 month (T1), at 3 months (T3), and at 6 months (T6). Results: We enrolled 10 consecutive patients treated between February 2023 and October 2023. The decrease in terms of SNOT-22 mean value was statistically significant from T0 and T6 with a p-value < 0.001. A noteworthy clinical finding is that quality of life improved regardless of the occurrence of G1-G2 side effects. Conclusions: Using SNOT-22 on patients with nasal vestibule carcinoma treated with IRT has shown an improvement in quality of life that is not strictly dependent on the occurrence of expected G1-G2 side effects. [ABSTRACT FROM AUTHOR]

Published

2024

22. Segmentation of Clinical Target Volume From CT Images for Cervical Cancer Using Deep Learning.

Author

Huang, Mingxu, Feng, Chaolu, Sun, Deyu, Cui, Ming, and Zhao, Dazhe

Subjects

DEEP learning, CERVICAL cancer, COMPUTED tomography, IMAGE segmentation, CANCER patients, RADIOISOTOPE brachytherapy

Abstract

Introduction: Segmentation of clinical target volume (CTV) from CT images is critical for cervical cancer brachytherapy, but this task is time-consuming, laborious, and not reproducible. In this work, we aim to propose an end-to-end model to segment CTV for cervical cancer brachytherapy accurately. Methods: In this paper, an improved M-Net model (Mnet_IM) is proposed to segment CTV of cervical cancer from CT images. An input and an output branch are both proposed to attach to the bottom layer to deal with CTV locating challenges due to its lower contrast than surrounding organs and tissues. A progressive fusion approach is then proposed to recover the prediction results layer by layer to enhance the smoothness of segmentation results. A loss function is defined on each of the multiscale outputs to form a deep supervision mechanism. Numbers of feature map channels that are directly connected to inputs are finally homogenized for each image resolution to reduce feature redundancy and computational burden. Result: Experimental results of the proposed model and some representative models on 5438 image slices from 53 cervical cancer patients demonstrate advantages of the proposed model in terms of segmentation accuracy, such as average surface distance, 95% Hausdorff distance, surface overlap, surface dice, and volumetric dice. Conclusion: A better agreement between the predicted CTV from the proposed model Mnet_IM and manually labeled ground truth is obtained compared to some representative state-of-the-art models. [ABSTRACT FROM AUTHOR]

Published

2023

23. Overview of imaging used to guide management for prostate and bladder malignancy.

Author

Jafarieh, Sarah, Vishwanath, Veena, and Rembielak, Agata

Subjects

PROSTATE tumors treatment, BLADDER tumors, UROLOGICAL nursing, ULTRASONIC imaging, BIOPSY, CYSTOSCOPY, MAGNETIC resonance imaging, DIAGNOSTIC imaging, TUMOR classification, POSITRON emission tomography, PHYSICIAN practice patterns, COMPUTED tomography, RADIOISOTOPE brachytherapy, RADIOTHERAPY, PROSTATE-specific antigen, PROSTATE tumors, DISEASE management, GENITOURINARY organ radiography

Abstract

This article aims to present updates and review current practise on the main imaging modalities used in diagnosis of bladder and prostate cancer and provide this to readers. Patients diagnosed with or having treatment for a urological cancer are a huge part of any urological nurses' rota or clinical responsibilities, particularly now in an era of ever changing and improving diagnosis and management options. In this manuscript a practical overview of imaging is given to influence a fuller understanding of therapeutic management in prostate and bladder malignancies. For the purpose of this article there is only a focus on imaging in terms of diagnosis and staging purposes. It is hoped that detailed use of imaging in radiotherapy and brachytherapy for planning and treatment verification will be the subject of a separate paper but, for now, it is briefly mentioned for readers that may be less familiar with radiation oncology. Discussion and overview of imaging modalities used in the diagnosis of prostate and bladder cancer will improve understanding for urology nurses, especially junior career nurses. [ABSTRACT FROM AUTHOR]

Published

2023

24. A Comprehensive Primer on Radiation Oncology for Non-Radiation Oncologists.

Author

Beddok, Arnaud, Lim, Ruth, Thariat, Juliette, Shih, Helen A., and El Fakhri, Georges

Subjects

MEDICAL radiology, PATIENT aftercare, SIMULATION methods in education, INDIVIDUALIZED medicine, TREATMENT effectiveness, HEALTH care teams, INTERPROFESSIONAL relations, PROTON therapy, RADIOTHERAPY, TUMORS, COMPUTED tomography, RADIATION injuries, DECISION making in clinical medicine, RADIOISOTOPE brachytherapy, ONCOLOGY, ONCOLOGISTS, CANCER patient medical care, PATIENT safety, RADIATION dosimetry

Abstract

Simple Summary: The gap in understanding of radiation therapy (RT) procedures among non-radiation oncologists poses a significant barrier to optimal cancer care. Aimed at equipping non-oncologists, medical students, and non-clinical researchers with crucial insights into RT, this paper serves as a comprehensive guide that demystifies the intricate, multi-step journey from treatment planning to patient follow-up. Highlighting the indispensable role of radiation oncologists (ROs) in this process, the paper delves into pivotal phases such as CT simulation, treatment target and organs at risk (OAR) delineation, and acute toxicity management. Ultimately, the manuscript aims to significantly elevate patient care standards by bridging the knowledge gap in non-oncology healthcare circles about RT. Its significance lies in its potential to foster improved interdisciplinary collaboration, thereby enhancing the effectiveness and safety of cancer treatment regimens. Background: Multidisciplinary management is crucial in cancer diagnosis and treatment. Multidisciplinary teams include specialists in surgery, medical therapies, and radiation therapy (RT), each playing unique roles in oncology care. One significant aspect is RT, guided by radiation oncologists (ROs). This paper serves as a detailed primer for non-oncologists, medical students, or non-clinical investigators, educating them on contemporary RT practices. Methods: This report follows the process of RT planning and execution. Starting from the decision-making in multidisciplinary teams to the completion of RT and subsequent patient follow-up, it aims to offer non-oncologists an understanding of the RO's work in a comprehensive manner. Results: The first step in RT is a planning session that includes obtaining a CT scan of the area to be treated, known as the CT simulation. The patients are imaged in the exact position in which they will receive treatment. The second step, which is the primary source of uncertainty, involves the delineation of treatment targets and organs at risk (OAR). The objective is to ensure precise irradiation of the target volume while sparing the OARs as much as possible. Various radiation modalities, such as external beam therapy with electrons, photons, or particles (including protons and carbon ions), as well as brachytherapy, are utilized. Within these modalities, several techniques, such as three-dimensional conformal RT, intensity-modulated RT, volumetric modulated arc therapy, scattering beam proton therapy, and intensity-modulated proton therapy, are employed to achieve optimal treatment outcomes. The RT plan development is an iterative process involving medical physicists, dosimetrists, and ROs. The complexity and time required vary, ranging from an hour to a week. Once approved, RT begins, with image-guided RT being standard practice for patient alignment. The RO manages acute toxicities during treatment and prepares a summary upon completion. There is a considerable variance in practices, with some ROs offering lifelong follow-up and managing potential late effects of treatment. Conclusions: Comprehension of RT clinical effects by non-oncologists providers significantly elevates long-term patient care quality. Hence, educating non-oncologists enhances care for RT patients, underlining this report's importance. [ABSTRACT FROM AUTHOR]

Published

2023

25. Second breast-conserving therapy with interstitial brachytherapy (APBI) as a salvage treatment in ipsilateral breast tumor recurrence: a retrospective study of 40 patients

Author

Dina Najjari Jamal, Salvatore Cozzi, Cristina Gutierrez, Andrea Slocker, Ferran Guedea, Amparo Garcia Tejedor, Marco Krengli, and Maria Laplana

Subjects

0106 biological sciences, medicine.medical_specialty, medicine.medical_treatment, brachytherapy, Brachytherapy, lcsh:Medicine, 01 natural sciences, Radioisotope brachytherapy, Càncer de mama, APBI, Breast cancer, breast cancer, Biopsy, medicine, Radiology, Nuclear Medicine and imaging, Braquiteràpia, Original Paper, medicine.diagnostic_test, business.industry, lcsh:R, salvage brachytherapy, 010401 analytical chemistry, local relapse, Cosmesis, Bone metastasis, Retrospective cohort study, Sentinel node, medicine.disease, 0104 chemical sciences, Estudi de casos, Oncology, Case studies, Radiology, business, Mastectomy, 010606 plant biology & botany

Abstract

Purpose Breast-conserving treatment (BCT) have emerged as an alternative to mastectomy in patients with ipsilateral breast tumor recurrence (IBTR). We evaluated survival outcomes and treatment-related toxicity in a series of 40 patients with IBTR, who underwent tumorectomy plus interstitial brachytherapy (APBI) as a salvage treatment. Material and methods Retrospective analysis included 40 patients diagnosed with IBTR and treated with intraoperative (26 patients) or post-operative (14 patients) multicatheter brachytherapy for APBI at our institution between June 2002 and October 2017. We assessed cosmesis, toxicity, overall survival (OS), and cancer-specific survival (CSS). Results Tumorectomy was performed in all cases, including intraoperative tumor margin assessment and sentinel node biopsy. Median age was 65 years (range, 41-92). The total prescribed dose was 32 Gy (8 fractions) in 19 patients and 34 Gy (10 fractions) in 20 patients. One elderly patient (age 92) received a single fraction of 16 Gy. Median follow-up was 61.5 months (range, 6-153). A median of 14 tubes were inserted. Mean treated V100 was 115 cc. Two patients developed a second relapse at 3 and 5 years after salvage treatment: one patient underwent salvage mastectomy and remains alive 10 years after brachytherapy, and the second one developed both local relapse and bone metastasis. The disease is stable at present. Five-year OS and CSS rates were 85.3% and 97.5%, respectively. Two patients died from cancer-related causes. Acute and late toxicity rates were low; seven patients developed acute infectious mastitis. Late fibrosis > grade 3 and late mastitis were observed in 14 and 6 cases, respectively. Conclusions Second BCT with APBI as a salvage treatment in ipsilateral breast recurrence achieves good local disease control, with a satisfactory toxicity profile compared to mastectomy. This approach seems to be safe and effective, although more data from randomized trials are needed.

Published

2019

26. Letter from the Editor-in-Chief.

Author

Chicheł, Adam

Subjects

TUMOR treatment, EXTERNAL beam radiotherapy, HIGH dose rate brachytherapy, THREE-dimensional printing, RADIOISOTOPE brachytherapy

Abstract

The letter from the Editor-in-Chief of the Journal of Contemporary Brachytherapy announces the upcoming World Congress of Brachytherapy and highlights the content of the latest issue of the journal. The issue includes ten manuscripts covering various topics such as head and neck cancers, skin tumors, gynecological malignancies, physical aspects, and deep hyperthermia. Notable articles include a scoping review of evolving trends in head and neck brachytherapy, a review of the dose-effect relationship in external beam radiotherapy combined with brachytherapy for cervical cancer, and a meta-analysis on vaginal toxicities following chemoradiation in intact cervical cancer. The issue also features clinical papers on 3D printing technology for skin cancer, bladder morphology in dose distribution planning for cervical cancer, and the use of MRI radiomics to predict loco-regional recurrence in locally advanced cervical cancer. Additionally, there are two physics contributions comparing different algorithms and applicators for brachytherapy treatment. [Extracted from the article]

Published

2024

27. Implementing high-dose rate surface mould brachytherapy for carcinoma of eyelid: a practical approach and weekly review.

Author

Patro, Kanhu Charan, Avinash, Ajitesh, Banidutta, Arya, Kundu, Chitta Ranjan, Bhattacharya, Partha Sarathi, Pilaka, Venkata Krishna Reddy, Muvvala, Mrutyunjayarao, Kumar, Ayyalasomayajula Anil, Aketi, Srinu, Karthikeyan, Keerthiga, Madasu, Bhargava Krishna, and Vincent, Dona Treesa

Subjects

INTERSTITIAL brachytherapy, SEBACEOUS gland diseases, RADIOISOTOPE brachytherapy, DRY eye syndromes, EYELIDS, HIGH dose rate brachytherapy

Abstract

Surface mould brachytherapy is a conformal radiotherapy technique that can deliver high dose to the target while sparing nearby normal structures, Here, we aim to describe the procedurals details for high-dose rate (HDR) surface mould brachytherapy in sebaceous carcinoma of eyelid in a 54-year old lady. She was hesitant for surgery and any form of invasive intervention like interstitial brachytherapy. So, she was treated with surface mould HDR brachytherapy to a total dose of 52 Gy in 13 fractions at a dose of 4 Gy per fraction delivered twice daily using Iridium-192 isotope with no acute side effects. She was evaluated on a weekly basis for any radiation side effects and now she is disease-free for 6 months post-treatment with only mild dry eye. A detailed step-by-step procedure of surface mould technique, simulation procedure, dose prescription, planning, plan evaluation and treatment has been described in this paper. Surface mould HDR brachytherapy can be safely used as organ preserving modality of treatment for eyelid carcinoma. [ABSTRACT FROM AUTHOR]

Published

2024

28. The Role of Brachytherapy Alone and in Combined Treatment of Esophageal Cancer—A Review.

Author

Cisek, Paweł, Strąk, Aleksander, Stachyra-Strawa, Paulina, Majdan, Andrzej, and Grzybowska-Szatkowska, Ludmiła

Subjects

ESOPHAGEAL cancer, CANCER treatment, CANCER chemotherapy, RADIOISOTOPE brachytherapy, PALLIATIVE treatment, CHEMORADIOTHERAPY

Abstract

Every year, over 600,000 new cases of esophageal cancer are registered worldwide. Treatment depends on the stage of the disease. In the early stages, surgical treatment is the basis (T1–T2 lesion < 3 cm, N0M0), while in more advanced stages, surgical treatment is preceded by radiochemotherapy or only radiochemotherapy is used. In the case of generalized disease, the main treatments used are systemic treatments of chemotherapy, immunotherapy and palliative teleradiotherapy or brachytherapy. Brachytherapy can be used at virtually any stage of disease, both as a radical treatment and as a palliative treatment. This paper presents the possibilities of using brachytherapy at various stages of esophageal cancer treatment. Particular attention was paid to the role of combining brachytherapy and immunotherapy and the possibility of an abscopal effect. [ABSTRACT FROM AUTHOR]

Published

2024

29. Characterisation of a Silicon Photomultiplier Based Oncological Brachytherapy Fibre Dosimeter.

Author

Caccia, Massimo, Giaz, Agnese, Galoppo, Marco, Santoro, Romualdo, Martyn, Micheal, Bianchi, Carla, Novario, Raffaele, Woulfe, Peter, and O'Keeffe, Sinead

Subjects

DOSIMETERS, SCINTILLATORS, RADIOISOTOPE brachytherapy, MEDICAL dosimetry, SILICON, PHOTOMULTIPLIERS

Abstract

Source localisation and real-time dose verification are at the forefront of medical research in brachytherapy, an oncological radiotherapy procedure based on radioactive sources implanted in the patient body. The ORIGIN project aims to respond to this medical community's need by targeting the development of a multi-point dose mapping system based on fibre sensors integrating a small volume of scintillating material into the tip and interfaced with silicon photomultipliers operated in counting mode. In this paper, a novel method for the selection of the optimal silicon photomultipliers to be used is presented, as well as a laboratory characterisation based on dosimetric figures of merit. More specifically, a technique exploiting the optical cross-talk to maintain the detector linearity in high-rate conditions is demonstrated. Lastly, it is shown that the ORIGIN system complies with the TG43-U1 protocol in high and low dose rate pre-clinical trials with actual brachytherapy sources, an essential requirement for assessing the proposed system as a dosimeter and comparing the performance of the system prototype against the ORIGIN project specifications. [ABSTRACT FROM AUTHOR]

Published

2024

30. Sapienza University of Rome Researcher Yields New Data on Applied Sciences (Jaw Reconstruction with Scapular Bone Flap and Prosthetic Implant Rehabilitation: A Comprehensive Systematic Review).

Subjects

BONE health, REPORTERS & reporting, RADIOISOTOPE brachytherapy, APPLIED sciences, FREE flaps

Abstract

A new report from Sapienza University of Rome discusses the use of scapular bone flaps and prosthetic implants in jaw reconstruction. The researchers conducted a systematic review of nine papers and found that 83 scapula flaps were used for implant-based prosthetic rehabilitation, with a 3.6% implant failure rate. The mandible was the reconstructed jaw in 58% of the cases, and delayed rehabilitation was performed in 95.2% of the cases. The study concludes that scapula-based implant-prosthetic rehabilitation is a feasible technique that can improve quality of life, but further research is needed to optimize outcomes and analyze risk factors. [Extracted from the article]

Published

2024

31. The Current use of Adaptive Strategies for External Beam Radiotherapy in Cervical Cancer: A Systematic Review.

Author

Alshamrani, A., Aznar, M., Hoskin, P., Chuter, R., and Eccles, C.L.

Subjects

*PROTON therapy, *RADIOTHERAPY, *RADIOISOTOPE brachytherapy, *RADIATION dosimetry, *SYSTEMATIC reviews, *MEDLINE, *WORKFLOW, *COMPUTERS in medicine, *MEDICAL databases, *ONLINE information services, CERVIX uteri tumors

Abstract

Variability in the target and organs at risk (OARs) in cervical cancer treatment presents challenges for precise radiotherapy. Adaptive radiotherapy (ART) offers the potential to enhance treatment precision and outcomes. However, the increased workload and a lack of consensus on the most suitable ART approach hinder its clinical adoption. This systematic review aims to assess the current use of adaptive strategies for cervical cancer and define the optimal approach. A systematic review of current literature published between January 2012 and May 2023 was conducted. Searches used PubMed/Medline, Cochrane Library, and Web of Science databases, supplemented with the University of Manchester, Google Scholar, and papers retrieved from reference lists. The review assessed workflows, compared dosimetric benefits, and examined resources for each identified strategy. Excluded were abstracts, conference abstracts, reviews, articles unrelated to ART management, proton therapy, brachytherapy, or qualitative studies. A narrative synthesis involved data tabulation, summarizing selected studies detailing workflow for cervical cancer and dosimetric outcomes for targets and OARs. Sixteen articles met the inclusion criteria; these were mostly retrospective simulation planning studies, except four studies that had been clinically implemented. We identified five approaches for ART radiotherapy for cervical cancer: reactive and scheduled adaptation, internal target volume (ITV)-based approach using library of plans (LOP), fixed-margin approach using LOP, and real-time adaptation, with each approach reducing irradiated volumes without compromising target coverage compared to the non-ART approach. The LOP-based ITV approach is the most used and clinically assessed. Identifying the optimal strategy is challenging due to dosimetric assessment limitations. Implementing cervical cancer ART necessitates strategic optimization of clinical benefits and resources through research, including studies to identify the optimal frequency, and prospective evaluations of toxicity. [ABSTRACT FROM AUTHOR]

Published

2024

32. Artificial Intelligence in Cancer Research: Trends, Challenges and Future Directions.

Author

Sebastian, Anu Maria and Peter, David

Subjects

ARTIFICIAL intelligence, CANCER research, MEDICAL research personnel, CERVICAL cancer, ERROR rates, RADIOISOTOPE brachytherapy

Abstract

The World Health Organization (WHO), in their 2022 report, identified cancer as one of the leading causes of death, accounting for about 16% of deaths worldwide. The Cancer-Moonshot community aims to reduce the cancer death rate by half in the next 25 years and wants to improve the lives of cancer-affected people. Cancer mortality can be reduced if detected early and treated appropriately. Cancers like breast cancer and cervical cancer have high cure probabilities when treated early in accordance with best practices. Integration of artificial intelligence (AI) into cancer research is currently addressing many of the challenges where medical experts fail to bring cancer to control and cure, and the outcomes are quite encouraging. AI offers many tools and platforms to facilitate more understanding and tackling of this life-threatening disease. AI-based systems can help pathologists in diagnosing cancer more accurately and consistently, reducing the case error rates. Predictive-AI models can estimate the likelihood for a person to get cancer by identifying the risk factors. Big data, together with AI, can enable medical experts to develop customized treatments for cancer patients. The side effects from this kind of customized therapy will be less severe in comparison with the generalized therapies. However, many of these AI tools will remain ineffective in fighting against cancer and saving the lives of millions of patients unless they are accessible and understandable to biologists, oncologists, and other medical cancer researchers. This paper presents the trends, challenges, and future directions of AI in cancer research. We hope that this paper will be of help to both medical experts and technical experts in getting a better understanding of the challenges and research opportunities in cancer diagnosis and treatment. [ABSTRACT FROM AUTHOR]

Published

2022

33. Design and Experimental Setup of a Robotic Medical Instrument for Brachytherapy in Non-Resectable Liver Tumors.

Author

Tucan, Paul, Vaida, Calin, Horvath, Daniel, Caprariu, Andrei, Burz, Alin, Gherman, Bogdan, Iakab, Stefan, and Pisla, Doina

Subjects

LIVER analysis, ROBOTICS equipment, TISSUE analysis, LIVER tumors, ANIMAL experimentation, SWINE, PRODUCT design, HYPODERMIC needles, INTERPROFESSIONAL relations, RADIOISOTOPE brachytherapy, SYSTEMS development

Abstract

Simple Summary: This paper presents an experimental study on a brachytherapy multi-needle insertion device, manipulated using a collaborative robot, to assess a set of characteristics: accuracy, needle deflection due to resistance forces, instrument and needle wear and the influence of insertion speed and rotation during needle manipulation inside the liver parenchyma. This paper presents a study regarding the design and the experimental setup of a medical robotic system for brachytherapy using tribology analysis. The robotic system is composed of a collaborative robotic arm and a multi-needle brachytherapy instrument controlled using a unified control system embedding a haptic device and force-feedback. This work is oriented towards identifying the technical characteristics of the system components to determine the accuracy of the procedure, as well as using different scenarios for needle insertion in ex vivo porcine liver tissue in order to determine the forces required for insertion and extraction of the needle and the friction coefficient that accompanies the previously mentioned forces. Subsequent to the computation of the friction forces, the normal forces and the wear during the needle insertion are determined with the scope of predicting the lifecycle of some components of the medical device. [ABSTRACT FROM AUTHOR]

Published

2022

34. Evaluation of a Balloon Implant for Simultaneous Magnetic Nanoparticle Hyperthermia and High-Dose-Rate Brachytherapy of Brain Tumor Resection Cavities.

Author

Wan, Shuying, Rodrigues, Dario B., Kwiatkowski, Janet, Khanna, Omaditya, Judy, Kevin D., Goldstein, Robert C., Overbeek Bloem, Marty, Yu, Yan, Rooks, Sophia E., Shi, Wenyin, Hurwitz, Mark D., and Stauffer, Paul R.

Subjects

PROSTHETICS, FEVER, BIOPSY, ANIMAL experimentation, ARTIFICIAL implants, GLIOMAS, MAGNETOTHERAPY, BRAIN tumors, RADIATION doses, RESEARCH funding, RADIOISOTOPE brachytherapy, NANOPARTICLES, RADIATION dosimetry, IN vivo toxicity testing

Abstract

Simple Summary: Glioblastoma (GBM) generally recurs locally with a dismal median survival of <18 months. Combining thermal therapy with radiation therapy enhances radiation response and improves clinical outcomes. This study evaluates a thermobrachytherapy balloon implant intended for the simultaneous heat and radiation treatment of tumor resection cavities. The data demonstrate that our prototype implant produces spherically symmetric heat and radiation dose distributions around the balloon, while the in vivo experiments confirm our ability to heat ≥40 °C at a 5 mm distance from the balloon surface in highly perfused pig brain tissue. The device is now ready for the finalization of regulatory approvals in anticipation of early-stage clinical investigation. Previous work has reported the design of a novel thermobrachytherapy (TBT) balloon implant to deliver magnetic nanoparticle (MNP) hyperthermia and high-dose-rate (HDR) brachytherapy simultaneously after brain tumor resection, thereby maximizing their synergistic effect. This paper presents an evaluation of the robustness of the balloon device, compatibility of its heat and radiation delivery components, as well as thermal and radiation dosimetry of the TBT balloon. TBT balloon devices with 1 and 3 cm diameter were evaluated when placed in an external magnetic field with a maximal strength of 8.1 kA/m at 133 kHz. The MNP solution (nanofluid) in the balloon absorbs energy, thereby generating heat, while an HDR source travels to the center of the balloon via a catheter to deliver the radiation dose. A 3D-printed human skull model was filled with brain-tissue-equivalent gel for in-phantom heating and radiation measurements around four 3 cm balloons. For the in vivo experiments, a 1 cm diameter balloon was surgically implanted in the brains of three living pigs (40–50 kg). The durability and robustness of TBT balloon implants, as well as the compatibility of their heat and radiation delivery components, were demonstrated in laboratory studies. The presence of the nanofluid, magnetic field, and heating up to 77 °C did not affect the radiation dose significantly. Thermal mapping and 2D infrared images demonstrated spherically symmetric heating in phantom as well as in brain tissue. In vivo pig experiments showed the ability to heat well-perfused brain tissue to hyperthermic levels (≥40 °C) at a 5 mm distance from the 60 °C balloon surface. [ABSTRACT FROM AUTHOR]

Published

2023

35. Modelling and real-time dynamic simulation of flexible needles for prostate biopsy and brachytherapy.

Author

Martsopoulos, Athanasios, Hill, Thomas L., Persad, Rajendra, Bolomytis, Stefanos, and Tzemanaki, Antonia

Subjects

RADIOISOTOPE brachytherapy, PROSTATE biopsy, NEEDLE biopsy, DYNAMIC simulation, FINITE element method, DYNAMIC models

Abstract

Percutaneous needle insertion constitutes a widely adopted technique for performing minimally invasive operations. Robot-assisted needle placement and virtual surgical training platforms have the potential to significantly improve the accuracy of these operations. For this, the development of mathematical models that provide a complete characterization of the underlying dynamics of medical needles is considered of paramount importance. In this paper, we develop two three-dimensional nonlinear rigid/flexible dynamic models of brachytherapy and local anaesthetic transperineal biopsy (LATP) needles. The proposed models relax the assumptions of previous investigations, quantify the vibrational behaviour and the rigid-body dynamics of medical needles and allow for real-time haptic and visual feedback information. Their accuracy and computational efficiency are assessed and validated using commercial software. The results show that, among the examined methods, the Rigid Finite Element Method provides the most accurate and numerically efficient solution for capturing the dynamics of flexible medical needles. [ABSTRACT FROM AUTHOR]

Published

2023

36. Effects of Interfraction Dose Variations of Target and Organs at Risk on Clinical Outcomes in High Dose Rate Brachytherapy for Cervical Cancer.

Author

Washington, Brien, Cheek, Dennis, Fabian, Denise, Kudrimoti, Mahesh, Pokhrel, Damodar, Wang, Chi, Thayer-Freeman, Cameron, and Luo, Wei

Subjects

DRUG dosage, REGRESSION analysis, DISEASES, DOSE-response relationship (Radiation), TREATMENT effectiveness, TREATMENT failure, CANCER patients, RADIATION doses, DESCRIPTIVE statistics, CERVIX uteri tumors, RADIOISOTOPE brachytherapy, DRUG toxicity

Abstract

Simple Summary: Accurate dose calculation and delivery is critical in treating cancers in radiation therapy. Although high accuracy has been achieved, significant uncertainties or errors still exist in radiation therapy, especially brachytherapy. Various types of uncertainty have been investigated, such as organ filling and organ motion. But interfraction dose variations (IDVs) from the prescribed dose in high dose rate brachytherapy (HDR) resulting from clinical considerations have not been widely discussed. Understanding what IDVs look like and whether or not they would affect clinical outcomes is important to improve the effectiveness of HDR brachytherapy and quality of cervical cancer treatment. We found IVDs followed a left-skewed distribution in our previous study, and we continued to discuss their potential effect on clinical outcomes in this project. In this study, we found that IDVs would reduce tumor control probability and increase treatment failure rate, but a dose escalation could be a remedy for such an effect. Meeting dose prescription is critical to control tumors in radiation therapy. Interfraction dose variations (IDVs) from the prescribed dose in high dose rate brachytherapy (HDR) would cause the target dose to deviate from the prescription but their clinical effect has not been widely discussed in the literature. Our previous study found that IDVs followed a left-skewed distribution. The clinical effect of the IDVs in 100 cervical cancer HDR patients will be addressed in this paper. An in-house Monte Carlo (MC) program was used to simulate clinical outcomes by convolving published tumor dose response curves with IDV distributions. The optimal dose and probability of risk-free local control (RFLC) were calculated using the utility model. The IDVs were well-fitted by the left-skewed Beta distribution, which caused a 3.99% decrease in local control probability and a 1.80% increase in treatment failure. Utility with respect to IDV uncertainty increased the RFLC probability by 6.70% and predicted an optimal dose range of 83 Gy–91 Gy EQD2. It was also found that a 10 Gy dose escalation would not affect toxicity. In conclusion, HRCTV IDV uncertainty reduced LC probabilities and increased treatment failure rates. A dose escalation may help mitigate such effects. [ABSTRACT FROM AUTHOR]

Published

2023

37. A review of brachytherapy physical phantoms developed over the last 20 years: clinical purpose and future requirements.

Author

Wilby, Sarah, Palmer, Antony, Polak, Wojciech, and Bucchi, Andrea

Subjects

RADIOISOTOPE brachytherapy, VIRTUAL design, TECHNICAL reports, MAGNETIC resonance, PERIODICAL articles

Abstract

Within the brachytherapy community, many phantoms are constructed in-house, and less commercial development is observed as compared to the field of external beam. Computational or virtual phantom design has seen considerable growth; however, physical phantoms are beneficial for brachytherapy, in which quality is dependent on physical processes, such as accuracy of source placement. Focusing on the design of physical phantoms, this review paper presents a summary of brachytherapy specific phantoms in published journal articles over the last twenty years January 1, 2000 -- December 31, 2019). The papers were analyzed and tabulated by their primary clinical purpose, which was deduced from their associated publications. A substantial body of work has been published on phantom designs from the brachytherapy community, but a standardized method of reporting technical aspects of the phantoms is lacking. In-house phantom development demonstrates an increasing interest in magnetic resonance (MR) tissue mimicking materials, which is not yet reflected in commercial phantoms available for brachytherapy. The evaluation of phantom design provides insight into the way, in which brachytherapy practice has changed over time, and demonstrates the customised and broad nature of treatments offered. [ABSTRACT FROM AUTHOR]

Published

2021

38. Narrowing the difference in dose delivery for IOERT and IOBT for locally advanced and locally recurrent rectal cancer.

Author

Verrijssen, An-Sofie E., Dries, Wim J. F., Cnossen, Jeltsje S., Theuws, Jacqueline, Peulen, Heike M. U., van den Berg, Hetty A., Rijkaart, Dorien C., Voogt, Eva L. K., Kolkman-Deurloo, Inger-Karine, Nuyttens, Joost, Rutten, Harm J. T., Burger, Jacobus W. A., and Bimmel-Nage, Cathryn Huibregtse

Subjects

RECTAL cancer, INTRAOPERATIVE radiotherapy, SURGICAL margin, DRUG dosage, RADIOISOTOPE brachytherapy

Abstract

Purpose: Intra-operative radiotherapy (IORT) has been used as a tool to provide a high-dose radiation boost to a limited volume of patients with fixed tumors with a likelihood of microscopically involved resection margins, in order to improve local control. Two main techniques to deliver IORT include high-dose-rate (HDR) brachytherapy, termed 'intra-operative brachytherapy' (IOBT), and electrons, termed 'intra-operative electron radiotherapy' (IOERT), both having very different dose distributions. A recent paper described an improved local recurrence-free survival favoring IOBT over IOERT for patients with locally advanced or recurrent rectal cancer and microscopically irradical resections. Although several factors may have contributed to this result, an important difference between the two techniques was the higher surface dose delivered by IOBT. This article described an adaptation of IOERT technique to achieve a comparable surface dose as dose delivered by IOBT. Material and methods: Two steps were taken to increase the surface dose for IOERT: 1. Introducing a bolus to achieve a maximum dose on the surface, and 2. Re-normalizing to allow for the same prescribed dose at reference depth. Conclusions: We describe and propose an adaptation of IOERT technique to increase surface dose, decreasing the differences between these two techniques, with the aim of further improving local control. In addition, an alternative method of dose prescription is suggested, to consider improved comparison with other techniques in the future. [ABSTRACT FROM AUTHOR]

Published

2022

39. Comment on ‘egs_brachy: a versatile and fast Monte Carlo code for brachytherapy’.

Author

Gultekin Yegin

Subjects

MONTE Carlo method, RADIOISOTOPE brachytherapy, CODING theory

Abstract

In a recent paper (Chamberland et al 2016 Phys. Med. Biol. 61 8214) develop a new Monte Carlo code called egs_brachy for brachytherapy treatments. It is based on EGSnrc, and written in the C++ programming language. In order to benchmark the egs_brachy code, the authors use it in various test case scenarios in which complex geometry conditions exist. Another EGSnrc based brachytherapy dose calculation engine, BrachyDose, is used for dose comparisons. The authors fail to prove that egs_brachy can produce reasonable dose values for brachytherapy sources in a given medium. The dose comparisons in the paper are erroneous and misleading. egs_brachy should not be used in any further research studies unless and until all the potential bugs are fixed in the code. [ABSTRACT FROM AUTHOR]

Published

2018

40. An end‐to‐end deep convolutional neural network‐based dose engine for parotid gland cancer seed implant brachytherapy.

Author

Xiong, Tianyu, Cai, Jing, Zhou, Fugen, Liu, Bo, Zhang, Jie, and Wu, Qiuwen

Subjects

*CONVOLUTIONAL neural networks, *MONTE Carlo method, *HEAD & neck cancer, *COMPUTED tomography, *RADIOISOTOPE brachytherapy

Abstract

Background: Seed implant brachytherapy (SIBT) is a promising treatment modality for parotid gland cancers (PGCs). However, the current clinical standard dose calculation method based on the American Association of Physicists in Medicine (AAPM) Task Group 43 (TG‐43) Report oversimplifies patient anatomy as a homogeneous water phantom medium, leading to significant dose calculation errors due to heterogeneity surrounding the parotid gland. Monte Carlo Simulation (MCS) can yield accurate dose distributions but the long computation time hinders its wide application in clinical practice. Purpose: This paper aims to develop an end‐to‐end deep convolutional neural network‐based dose engine (DCNN‐DE) to achieve fast and accurate dose calculation for PGC SIBT. Methods: A DCNN model was trained using the patient's CT images and TG‐43‐based dose maps as inputs, with the corresponding MCS‐based dose maps as the ground truth. The DCNN model was enhanced based on our previously proposed model by incorporating attention gates (AGs) and large kernel convolutions. Training and evaluation of the model were performed using a dataset comprising 188 PGC I‐125 SIBT patient cases, and its transferability was tested on an additional 16 non‐PGC head and neck cancers (HNCs) I‐125 SIBT patient cases. Comparison studies were conducted to validate the superiority of the enhanced model over the original one and compare their overall performance. Results: On the PGC testing dataset, the DCNN‐DE demonstrated the ability to generate accurate dose maps, with percentage absolute errors (PAEs) of 0.67% ± 0.47% for clinical target volume (CTV) D90 and 1.04% ± 1.33% for skin D0.1cc. The comparison studies revealed that incorporating AGs and large kernel convolutions resulted in 8.2% (p < 0.001) and 3.1% (p < 0.001) accuracy improvement, respectively, as measured by dose mean absolute error. On the non‐PGC HNC dataset, the DCNN‐DE exhibited good transferability, achieving a CTV D90 PAE of 1.88% ± 1.73%. The DCNN‐DE can generate a dose map in less than 10 ms. Conclusions: We have developed and validated an end‐to‐end DCNN‐DE for PGC SIBT. The proposed DCNN‐DE enables fast and accurate dose calculation, making it suitable for application in the plan optimization and evaluation process of PGC SIBT. [ABSTRACT FROM AUTHOR]

Published

2024

41. Artificial intelligence applications in brachytherapy: A literature review.

Author

Zhao, Jonathan ZL, Ni, Ruiyan, Chow, Ronald, Rink, Alexandra, Weersink, Robert, Croke, Jennifer, and Raman, Srinivas

Subjects

*LITERATURE reviews, *ARTIFICIAL intelligence, *REINFORCEMENT learning, *RADIOISOTOPE brachytherapy, *IMAGE registration

Abstract

Artificial intelligence (AI) has the potential to simplify and optimize various steps of the brachytherapy workflow, and this literature review aims to provide an overview of the work done in this field. We conducted a literature search in June 2022 on PubMed, Embase, and Cochrane for papers that proposed AI applications in brachytherapy. A total of 80 papers satisfied inclusion/exclusion criteria. These papers were categorized as follows: segmentation (24), registration and image processing (6), preplanning (13), dose prediction and treatment planning (11), applicator/catheter/needle reconstruction (16), and quality assurance (10). AI techniques ranged from classical models such as support vector machines and decision tree-based learning to newer techniques such as U-Net and deep reinforcement learning, and were applied to facilitate small steps of a process (e.g., optimizing applicator selection) or even automate the entire step of the workflow (e.g., end-to-end preplanning). Many of these algorithms demonstrated human-level performance and offer significant improvements in speed. AI has potential to augment, automate, and/or accelerate many steps of the brachytherapy workflow. We recommend that future studies adhere to standard reporting guidelines. We also stress the importance of using larger sample sizes and reporting results using clinically interpretable measures. [ABSTRACT FROM AUTHOR]

Published

2023

42. Transitioning from a COMS‐based plaque brachytherapy program to using eye physics plaques and plaque simulator treatment planning system: A single institutional experience.

Author

Meltsner, Sheridan G., Rodrigues, Anna, Materin, Miguel A., Kirsch, David G., and Craciunescu, Oana

Subjects

HIGH dose rate brachytherapy, RADIOISOTOPE brachytherapy, PHYSICS, TOTAL quality management

Abstract

The aim of this work is to describe the implementation and commissioning of a plaque brachytherapy program using Eye Physics eye plaques and Plaque Simulator treatment planning system based on the experience of one institution with an established COMS‐based plaque program. Although commissioning recommendations are available in official task groups publications such as TG‐129 and TG‐221, we found that there was a lack of published experiences with the specific details of such a transition and the practical application of the commissioning guidelines. The specific issues addressed in this paper include discussing the lack of FDA approval of the Eye Physics plaques and Plaque Simulator treatment planning system, the commissioning of the plaques and treatment planning system including considerations of the heterogeneity corrected calculations, and the implementation of a second check using an FDA‐approved treatment planning system. We have also discussed the use of rental plaques, the analysis of plans using dose histograms, and the development of a quality management program. By sharing our experiences with the commissioning of this program this document will assist other institutions with the same task and act as a supplement to the recommendations in the recently published TG‐221. [ABSTRACT FROM AUTHOR]

Published

2023

43. Multilayer intensity modulated contact interventional radiotherapy (brachytherapy): Stretching the therapeutic window in skin cancer.

Author

Fionda, Bruno, Placidi, Elisa, Rosa, Enrico, Lancellotta, Valentina, Stimato, Gerardina, De Angeli, Martina, Ciardo, Francesco Giuseppe, Cornacchione, Patrizia, Siebert, Frank-Andre, Tagliaferri, Luca, and Indovina, Luca

Subjects

SKIN cancer, RADIOISOTOPE brachytherapy, RADIOTHERAPY, CATHETERS

Abstract

Interventional radiotherapy (IRT, brachytherapy) is a highly effective treatment method for non-melanoma skin cancer (NMSC). Traditionally, the maximum depth of NMSC lesions considered eligible for contact IRT was 5 mm; however, following several national surveys and recent recommendations, such cut-off, lesions thicker than 5 mm may be treated by contact IRT. The use of image guidance in defining the actual depth in treating NMSC to correctly identify clinical target volume (CTV) and prevent unnecessary toxicity is of paramount importance. The aim of the paper was to describe a multilayer arrangement of catheters to treat NMSC lesions thicker than 5 mm, thus proposing an example of dynamic intensity modulated IRT, using different catheter-to-skin distance of sources to reach the best CTV coverage and maximally reduce the excess of dose to the skin. [ABSTRACT FROM AUTHOR]

Published

2023

44. Active Surveillance for Prostate Cancer: Past, Current, and Future Trends.

Author

de Vos, Ivo I., Luiting, Henk B., and Roobol, Monique J.

Subjects

WATCHFUL waiting, PROSTATE cancer, PROSTATE-specific antigen, PROSTATE biopsy, MEDICAL screening, DIAGNOSTIC imaging, RADIOISOTOPE brachytherapy

Abstract

In response to the rising incidence of indolent, low-risk prostate cancer (PCa) due to increased prostate-specific antigen (PSA) screening in the 1990s, active surveillance (AS) emerged as a treatment modality to combat overtreatment by delaying or avoiding unnecessary definitive treatment and its associated morbidity. AS consists of regular monitoring of PSA levels, digital rectal exams, medical imaging, and prostate biopsies, so that definitive treatment is only offered when deemed necessary. This paper provides a narrative review of the evolution of AS since its inception and an overview of its current landscape and challenges. Although AS was initially only performed in a study setting, numerous studies have provided evidence for the safety and efficacy of AS which has led guidelines to recommend it as a treatment option for patients with low-risk PCa. For intermediate-risk disease, AS appears to be a viable option for those with favourable clinical characteristics. Over the years, the inclusion criteria, follow-up schedule and triggers for definitive treatment have evolved based on the results of various large AS cohorts. Given the burdensome nature of repeat biopsies, risk-based dynamic monitoring may further reduce overtreatment by avoiding repeat biopsies in selected patients. [ABSTRACT FROM AUTHOR]

Published

2023

45. The use of an interstitial boost in the conservative treatment of breast cancer: how to perform it routinely in a radiotherapy department

Author

Ferran Guedea, Francisco Pino, Joan Pera, Saray Botella, A. Eraso, Dina Najjari, Ferran Moreno, Evelyn Martinez, and Cristina Gutierrez

Subjects

medicine.medical_specialty, medicine.medical_treatment, brachytherapy, Brachytherapy, Radiotherapy department, Linear quadratic, Radioisotope brachytherapy, Càncer de mama, breast cancer, Breast cancer, medicine, Dosimetry, Radiology, Nuclear Medicine and imaging, interstitial boost, Braquiteràpia, Adjuvant treatment of cancer, Original Paper, business.industry, Interstitial brachytherapy, Cosmesis, medicine.disease, Conservative treatment, Oncology, breast conserving therapy, Radiology, business, Tractament adjuvant del càncer

Abstract

Purpose To demonstrate the utility of a boost with interstitial brachytherapy (BT) in breast-conserving therapy (BCT) by doing a thorough review of the literature and describing in detail our technique for delivering this boost. Material and methods Our department has been delivering the boost with interstitial BT since 1989, in most cases with rigid needles and a theoretical dosimetry. In the early years, we used low-dose-rate (LDR) with iridium-192 wires. The dose administered was 15 Gy if there were no risk factors for local relapse or 20-25 Gy in the presence of risk factors. The risk factors considered were the presence of a close margin (less than 10 mm) and an extensive intraductal component (more than 25%). After 2002, we switched to high-dose-rate (HDR); using the linear quadratic model we changed the low dose to 3 fractions of 4.5 Gy in the case of no risk factors for local relapse or to 3 fractions of 5 Gy in the presence of risk factors. Results In 79 consecutive boost patients treated in our department between 2010 and 2011, with a median follow-up of 46 months, the local control rate was 97.47%. With respect to cosmesis, fibrosis occurred in 17 cases (21.5%) and hyperpigmentation in 26 cases (32.9%). Our hospital's results are comparable in terms of local control and cosmesis to those of other authors. Conclusions This educational article describes our department's boost technique with rigid needles and comments briefly on our results using this technique in a group of consecutively treated patients in our department. A review of the literature and the published results on local control and cosmesis is also described.

Published

2015

46. Brachytherapy on-a-chip: a clinically-relevant approach for radiotherapy testing in 3d biology.

Author

Chermat, Rodin, Refet-Mollof, Elena, Yuji Kamio, Carrier, Jean-François, Wong, Philip, and Gervais, Thomas

Subjects

RADIOISOTOPE brachytherapy, BIOLOGY, TRANSLATIONAL research, MICROFLUIDIC devices, RADIOTHERAPY

Abstract

We describe the first microfluidic device for in vitro testing of brachytherapy (BT), with applications in translational cancer research. Our PDMS-made BT-on-chip system allows highly precise manual insertion of clinical BT seeds, reliable dose calculation using standard clinically-used TG-43 formalism and easy culture of naturally hypoxic spheroids in less than 3 days, thereby increasing the translational potential of the device. As the BT-on-chip platform is designed to be versatile, we showcase three different goldstandard post-irradiation bioassays and recapitulate, for the first time on-chip, key clinical observations such as dose rate effect and hypoxia-induced radioresistance. Our results suggest that BT-on-chip can be used to safely and efficiently integrate BT and radiotherapy to translational research and drug development pipelines, without expensive equipment or complex workflows. [ABSTRACT FROM AUTHOR]

Published

2024

47. A "scoping" review of prostate brachytherapy and immune responses.

Author

Nguyen, Anthony T., Liu, Chung-Tang Spencer, and Kamrava, Mitchell

Subjects

*RADIOISOTOPE brachytherapy, *IMMUNE response, *PROSTATE, *T cells, *TREATMENT effectiveness

Abstract

Whether prostate brachytherapy (BT) results in opportunistic biological changes that can improve clinical outcomes is not well studied. We sought to investigate the impact of prostate BT on the immune system. A scoping review was performed using PubMed/Scopus for papers published between 2011-2021. Search terms were "brachytherapy" AND "immune" AND "prostate". A total of 81 records were identified and 6 were selected for further review. 2 low-dose-rate BT papers (n=68) evaluated changes in the peripheral blood following I-125 monotherapy. Both showed significant increases in peripheral CD3+ and CD4+ T cells post-BT. One also demonstrated significant increases in Treg subsets up to 150 days post-BT. 4 high-dose-rate (HDR) studies (n=37) were identified, and all were done in combination with EBRT. The largest study (n=24) showed a single 10 Gy fraction of HDR converted 80% of "cold" tumors into an "intermediate" or "hot" state, based on a tumor inflammation signature when comparing a pre-BT biopsy to one prior to a second HDR fraction. Prostate BT can invoke an immune activating phenotype; however, changes in immunosuppressive cells are also seen. Additional data is needed to understand how to promote synergy between BT and the immune system. [ABSTRACT FROM AUTHOR]

Published

2023

48. Pain and symptom relief using inhaled methoxyflurane for gynecologic brachytherapy applicator removal.

Author

Stewart, Alexandra J., Brooker, Ciarna, Vose, Gemma, Redmond, Katie, Williams, Amy, Pankhania, Nikesh, Dommett, Hayley, Kirk-Bayley, Justin, Franklin, Adrian P., and Morrison, Ben

Subjects

GYNECOLOGIC cancer, RADIOISOTOPE brachytherapy, ANALGESIA, VAGINAL cancer, ENDOMETRIAL cancer, CERVICAL cancer

Abstract

Purpose: Intra-cavitary brachytherapy forms an essential part of the curative treatment of cervical and vaginal cancer, and can be used for cure or palliation in endometrial and vulval cancers. Removal of brachytherapy applicators is often performed after anaesthesia has worn off and can be an uncomfortable and anxiety-provoking procedure. In this paper, we present our experience in a series of patients before and after the introduction of inhaled methoxyflurane (IMF, Penthrox™). Material and methods: Questionnaires were sent to patients prior to the introduction of IMF to retrospectively score pain and anxiety during the brachytherapy procedure. Following successful review by the local drugs and therapeutic committee as well as staff training, IMF was introduced and offered to patients during applicator removal. Prospective pain scores and retrospective questionnaires were collected. Pain was rated on a scale of 0 to 10, with zero being no pain and 10 being extreme pain. Results: Thirteen patients returned retrospective questionnaires prior to IMF introduction and seven patients following IMF introduction. After the first brachytherapy insertion, the mean recollected pain score during applicator removal decreased from 6/10 to 1/10 (p = 0.002). The mean recollected pain score one hour after applicator removal reduced from 3/10 to 0 (p = 0.04). Prospective measurements for 77 insertions in 44 patients receiving IMF reported a median pain score of 1/10 immediately before applicator removal (range, 0-10), and 0/10 immediately after applicator removal (range, 0-5). Conclusions: Inhaled methoxyflurane is easily administered and effective method of decreasing pain during applicator removal following gynecologic brachytherapy. [ABSTRACT FROM AUTHOR]

Published

2023

49. Correction to: Detection of metastases in newly diagnosed prostate cancer by using 68Ga-PSMA PET/CT and its relationship with modified D'Amico risk classification.

Author

Has Simsek, Duygu, Sanli, Yasemin, Engin, Muge Nur, Erdem, Selcuk, and Sanli, Oner

Subjects

PROSTATE cancer, METASTASIS, CLASSIFICATION, RADIOISOTOPE brachytherapy

Abstract

A Correction to this paper has been published: https://doi.org/10.1007/s00259-021-05286-3 [ABSTRACT FROM AUTHOR]

Published

2021

50. Brachytherapy in the Treatment of Non-Melanoma Skin Peri-Auricular Cancers—A Retrospective Analysis of a Single Institution Experience.

Author

Bilski, Mateusz, Cisek, Paweł, Baranowska, Izabela, Kordzińska-Cisek, Izabela, Komaniecka, Nina, Hymos, Anna, Grywalska, Ewelina, and Niedźwiedzka-Rystwej, Paulina

Subjects

EAR tumors, COSMETICS, RETROSPECTIVE studies, TREATMENT effectiveness, DESCRIPTIVE statistics, RADIOISOTOPE brachytherapy

Abstract

Simple Summary: Skin cancer is one of the most common cancers worldwide. Non-melanoma skin neoplasms in the head and neck area, the location of lesions around the ear, accounts for approximately 13–15% of all cases. The problematic location of neoplasms within the auricle and around the ear often causes many problems in surgical treatment, which can lead to unsatisfactory cosmetic effects or the presence of positive surgical margins. The presence of positive surgical margins leads to recurrence in about 10–67% of such patients. The aim of the study was to analyse the effectiveness, toxicity profile, and cosmetic effect of two different brachytherapy techniques (contact and interstitial brachytherapy). In our study, we analysed the results of 33 patients treated with HDR contact or interstitial brachytherapy. We showed that this is a highly effective, short, and relatively low burden on patients with cancer of the outer ear, involving the auricle and the skin of the adjacent area. The toxicity of the treatment was low. The location of skin neoplasms in the area of the ears qualifies patients to the so-called high-risk group. The location of neoplasms within the auricle and around the ear often causes many problems in surgical treatment. This is due to the presence of cartilage, the difficulty of performing procedures with obtaining a visually satisfactory cosmetic effect, especially in the presence of extensive lesions and can lead to positive surgical margins which leads to a high risk of recurrence. In such cases, the use of brachytherapy, both as an independent method and as a complementary method after surgery, may be an effective method of local control with an acceptable risk of radiation complications. However, there are no large retrospective studies on the use of brachytherapy in this anatomical region. The aim of the study was to analyse the effectiveness, toxicity profile, and cosmetic effect of two different brachytherapy techniques (contact and interstitial brachytherapy). Methods: This paper presents the results of a retrospective analysis of 33 patients treated with contact or interstitial high-dose-rate (HDR) brachytherapy for skin cancers of the outer ear, involving the auricle and the skin of the adjacent area. Brachytherapy was used both as a definitive treatment (15 patients—43%) and adjuvant treatment after surgery (18 patients—57%). The basic criterion for adjuvant treatment was a positive or narrow (<1 mm) resection margin. Fraction doses from 3 to 7 Gy per fraction were used at intervals from six hours (interstitial brachytherapy) to a maximum of seven days (contact brachytherapy). The treatment time ranged from 1 to 42 days, and the total dose range was 7 to 49 Gy. The follow-up was 29.75 months (range 2–64). Results: In the group of patients treated with adjuvant therapy, in the patients with post-radiation reaction, the mean time from surgery to the start of brachytherapy was 7.72 ± 3.05 weeks, the median was 8 (6–12) weeks, and in the group without post-radiation reaction, the mean time was 11.13 ± 4.41 weeks, the median time was 11 weeks (8–14). The risk of a post-radiation reaction increased significantly more often in patients with more advanced disease. In the case of contact brachytherapy, the post-radiation reaction occurred significantly more often (14/21 patients—43%) than in the case of interstitial brachytherapy (3/11 patients—9.4%). In patients with post-radiation reactions, a significantly larger volume of the skin receiving a dose of 200% was found, and the volume receiving a dose of 150% was close to statistical significance. The mean volume of the skin receiving a 200% dose in the group with post-radiation reactions was 28.05 ± 16.56 cm3, the median was 24.86 (0.5–52.3) cm3, and the mean volume in the group without post-radiation reaction was 17.98 ± 10.96 cm3, median 14.95 (3.9–44.96) cm3. The result was statistically significant (Z = 2.035, p = 0.041). Conclusion: Interstitial HDR (high-dose-rate) brachytherapy for non-melanoma skin cancers around the ear is highly effective, short, and has a relatively low burden on the patient. The toxicity of the treatment was low. In the case of contact brachytherapy, the toxicity profile is slightly higher but acceptable for patients. This method is preferred in patients in whom interstitial brachytherapy is impossible to perform due to anatomical and logistical reasons. The unquestionable advantage of contact brachytherapy is its ability to be performed on an outpatient basis without the need to stay in the hospital. No severe and late CTCAE ≥III and late RTOG ≥III toxicity was observed. In patients after surgery, in order to minimise the risk of radiation reaction, it is optimal to start treatment at least eight weeks after surgery. In the presence of extensive lesions, the use of interstitial brachytherapy seems to be more advantageous, especially when the expected volume of healthy skin in the dose range of 200% and 150% is above 15 cm3 and 50 cm3, respectively. [ABSTRACT FROM AUTHOR]

Published

2022