Your search keyword '"tangential field"' showing total 31 results

1. Kolmogorov’s Equations

Author

Stroock, Daniel W., Hussin, Véronique, Series Editor, and Stroock, Daniel W.

Published

2018

2. Replacing Manual Planning of Whole Breast Irradiation With Knowledge-Based Automatic Optimization by Virtual Tangential-Fields Arc Therapy

Author

Roberta Castriconi, Pier Giorgio Esposito, Alessia Tudda, Paola Mangili, Sara Broggi, Andrei Fodor, Chiara L. Deantoni, Barbara Longobardi, Marcella Pasetti, Lucia Perna, Antonella del Vecchio, Nadia Gisella Di Muzio, and Claudio Fiorino

Subjects

breast cancer, radiation oncology, automation, plan optimization, tangential field, knowledge-based, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

PurposeTo implement Knowledge Based (KB) automatic planning for right and left-sided whole breast treatment through a new volumetric technique (ViTAT, Virtual Tangential-fields Arc Therapy) mimicking conventional tangential fields (TF) irradiation.Materials and MethodA total of 193 clinical plans delivering TF with wedged or field-in-field beams were selected to train two KB-models for right(R) and left(L) sided breast cancer patients using the RapidPlan (RP) tool implemented in the Varian Eclipse system. Then, a template for ViTAT optimization, incorporating individual KB-optimized constraints, was interactively fine-tuned. ViTAT plans consisted of four arcs (6 MV) with start/stop angles consistent with the TF geometry variability within our population; the delivery was completely blocked along the arcs, apart from the first and last 20° of rotation for each arc. Optimized fine-tuned KB templates for automatic plan optimization were generated. Validation tests were performed on 60 new patients equally divided in R and L breast treatment: KB automatic ViTAT-plans (KB-ViTAT) were compared against the original TF plans in terms of OARs/PTVs dose-volume parameters. Wilcoxon-tests were used to assess the statistically significant differences.ResultsKB models were successfully generated for both L and R sides. Overall, 1(3%) and 7(23%) out of 30 automatic KB-ViTAT plans were unacceptable compared to TF for R and L side, respectively. After the manual refinement of the start/stop angles, KB-ViTAT plans well fitted TF-performances for these patients as well. PTV coverage was comparable, while PTV D1% was improved with KB-ViTAT by R:0.4/L:0.2 Gy (p < 0.05); ipsilateral OARs Dmean were similar with a slight (i.e., few % volume) improvement/worsening in the 15–35 Gy/2–15 Gy range, respectively. KB-ViTAT better spared contralateral OARs: Dmean of contralateral OARs was 0.1 Gy lower (p < 0.05); integral dose was R:5%/L:8% lower (p < 0.05) than TF. The overall time for the automatic plan optimization and final dose calculation was 12 ± 2 minutes.ConclusionsFully automatic KB-optimization of ViTAT can efficiently replace manually optimized TF planning for whole breast irradiation. This approach was clinically implemented in our institute and may be suggested as a large-scale strategy for efficiently replacing manual planning with large sparing of time, elimination of inter-planner variability and of, seldomly occurring, sub-optimal manual plans.

Published

2021

3. Replacing Manual Planning of Whole Breast Irradiation With Knowledge-Based Automatic Optimization by Virtual Tangential-Fields Arc Therapy.

Author

Castriconi, Roberta, Esposito, Pier Giorgio, Tudda, Alessia, Mangili, Paola, Broggi, Sara, Fodor, Andrei, Deantoni, Chiara L., Longobardi, Barbara, Pasetti, Marcella, Perna, Lucia, del Vecchio, Antonella, Di Muzio, Nadia Gisella, and Fiorino, Claudio

Subjects

BREAST cancer, IRRADIATION, CANCER patients, LEISURE, SCHEDULING

Abstract

Purpose: To implement Knowledge Based (KB) automatic planning for right and left-sided whole breast treatment through a new volumetric technique (ViTAT, Virtual Tangential-fields Arc Therapy) mimicking conventional tangential fields (TF) irradiation. Materials and Method: A total of 193 clinical plans delivering TF with wedged or field-in-field beams were selected to train two KB-models for right(R) and left(L) sided breast cancer patients using the RapidPlan (RP) tool implemented in the Varian Eclipse system. Then, a template for ViTAT optimization, incorporating individual KB-optimized constraints, was interactively fine-tuned. ViTAT plans consisted of four arcs (6 MV) with start/stop angles consistent with the TF geometry variability within our population; the delivery was completely blocked along the arcs, apart from the first and last 20° of rotation for each arc. Optimized fine-tuned KB templates for automatic plan optimization were generated. Validation tests were performed on 60 new patients equally divided in R and L breast treatment: KB automatic ViTAT-plans (KB-ViTAT) were compared against the original TF plans in terms of OARs/PTVs dose-volume parameters. Wilcoxon-tests were used to assess the statistically significant differences. Results: KB models were successfully generated for both L and R sides. Overall, 1(3%) and 7(23%) out of 30 automatic KB-ViTAT plans were unacceptable compared to TF for R and L side, respectively. After the manual refinement of the start/stop angles, KB-ViTAT plans well fitted TF-performances for these patients as well. PTV coverage was comparable, while PTV D1% was improved with KB-ViTAT by R:0.4/L:0.2 Gy (p < 0.05); ipsilateral OARs Dmean were similar with a slight (i.e., few % volume) improvement/worsening in the 15–35 Gy/2–15 Gy range, respectively. KB-ViTAT better spared contralateral OARs: Dmean of contralateral OARs was 0.1 Gy lower (p < 0.05); integral dose was R:5%/L:8% lower (p < 0.05) than TF. The overall time for the automatic plan optimization and final dose calculation was 12 ± 2 minutes. Conclusions: Fully automatic KB-optimization of ViTAT can efficiently replace manually optimized TF planning for whole breast irradiation. This approach was clinically implemented in our institute and may be suggested as a large-scale strategy for efficiently replacing manual planning with large sparing of time, elimination of inter-planner variability and of, seldomly occurring, sub-optimal manual plans. [ABSTRACT FROM AUTHOR]

Published

2021

4. Impact of Positioning Errors on the Dosimetry of Breath-Hold-Based Volumetric Arc Modulated and Tangential Field-in-Field Left-Sided Breast Treatments

Author

Yanqun Zhao, Peng Diao, Da Zhang, Juxiang Wu, Xin Xin, Davide Fontanarosa, Min Liu, Jie Li, and Lucia Clara Orlandini

Subjects

left-sided breast, radiotherapy, volumetric modulated radiation therapy, breath hold, tangential field, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Heart diseases and cardiovascular events are well-known side effects in left-sided breast irradiation. Deep inspiration breath hold (BH) combined with fast delivery techniques such as volumetric modulated arc therapy (VMAT) or tangential field-in-field (TFiF) can serve as a valuable solution to reduce the dose to the heart. This study aims to compare the impact of positioning errors in VMAT and TFiF plans for BH left-sided breast treatments. Fifteen left-sided breast patients treated in BH with TFiF technique were included in this retrospective study. For each patient, a second plan with VMAT technique was optimized. Eighteen setup variations were introduced in each of these VMAT and TFiF reference plans, shifting the isocenter along six different directions by 3, 5, and 10 mm. A total of 540 perturbed plans, 270 for each technique, were recalculated and analyzed. The dose distributions on the target and organs at risk obtained in the different perturbed scenarios were compared with the reference scenarios, using as dosimetric endpoints the dose-volume histograms (DVH). The results were compared using the Wilcoxon test. Comparable plan quality was obtained for the reference VMAT and TFiF plans, except for low doses to organs at risk for which higher values (p

Published

2020

5. Impact of Positioning Errors on the Dosimetry of Breath-Hold-Based Volumetric Arc Modulated and Tangential Field-in-Field Left-Sided Breast Treatments.

Author

Zhao, Yanqun, Diao, Peng, Zhang, Da, Wu, Juxiang, Xin, Xin, Fontanarosa, Davide, Liu, Min, Li, Jie, and Orlandini, Lucia Clara

Subjects

VOLUMETRIC-modulated arc therapy, BREAST, RADIATION dosimetry, HEART diseases

Abstract

Heart diseases and cardiovascular events are well-known side effects in left-sided breast irradiation. Deep inspiration breath hold (BH) combined with fast delivery techniques such as volumetric modulated arc therapy (VMAT) or tangential field-in-field (TFiF) can serve as a valuable solution to reduce the dose to the heart. This study aims to compare the impact of positioning errors in VMAT and TFiF plans for BH left-sided breast treatments. Fifteen left-sided breast patients treated in BH with TFiF technique were included in this retrospective study. For each patient, a second plan with VMAT technique was optimized. Eighteen setup variations were introduced in each of these VMAT and TFiF reference plans, shifting the isocenter along six different directions by 3, 5, and 10 mm. A total of 540 perturbed plans, 270 for each technique, were recalculated and analyzed. The dose distributions on the target and organs at risk obtained in the different perturbed scenarios were compared with the reference scenarios, using as dosimetric endpoints the dose-volume histograms (DVH). The results were compared using the Wilcoxon test. Comparable plan quality was obtained for the reference VMAT and TFiF plans, except for low doses to organs at risk for which higher values (p < 0.05) were obtained for VMAT plans. For TFiF plans, perturbations of the isocenter position of 3, 5, or 10 mm produced mean deviations of the target DVH dosimetric parameters up to −0.5, −1.0, and −5.2%, respectively; VMAT plans were more sensitive to positioning errors resulting in mean deviations up to −0.5, −4.9, and −13.9%, respectively, for the same magnitude of the above mentioned perturbations. For organs at risk, only perturbations along the left, posterior, and inferior directions resulted in dose increase with a maximum deviation of +2% in the DVH dosimetric parameters. A notable exception were low doses to the left lung and heart for 10 mm isocenter shifts for which the mean differences ranged between +2.7 and +4.1%. Objective information on how external stresses affect the dosimetry of the treatment is the first step towards personalized radiotherapy. [ABSTRACT FROM AUTHOR]

Published

2020

6. Dosimetric effects of the kV based image‐guided radiation therapy of prone breast external beam radiation: Towards the optimized imaging frequency.

Author

Xu, Huijun, Lee, Sung‐Woo, Guerrero, Mariana, Yi, Byong Yong, Chen, Shifeng, Becker, Stewart J., Chung, Heeteak, and Cheston, Sally B.

Subjects

BREAST cancer, RADIOTHERAPY, MAMMOGRAMS, CANCER treatment, DIAGNOSTIC imaging

Abstract

Purpose: For prone breast treatment, daily image‐guided radiation therapy (IGRT) allows couch shifting to correct breast position relative to the treatment field. This work investigates the dosimetric effect of reducing kV imaging frequencies and the feasibility of optimizing the frequency using patient anatomy or their first 3‐day shifts. Method: Thirty‐seven prone breast patients who had been treated with skin marker alignment followed by daily kV were retrospectively analyzed. Three IGRT schemes (daily‐kV, weekly‐kV, no‐kV) were simulated, assuming that fractions with kV imaging deliver a dose distribution equivalent to that in computed tomography (CT) planning, whereas other fractions yield a dose distribution as recreated by shifting the CT plan isocenter back to its position before the couch shift was applied. Treatment dose to targets (breast and lumpectomy cavity [LPC]) and organs at risks (OAR)s (heart, ipsilateral lung) in different schemes were calculated. Patient anatomy information on CT plans and first 3‐day couch shift data were analyzed to investigate whether these factors could guide imaging scheme optimization. Results: When kV imaging frequency was reduced, the percentage dose changes (δD) for breast and LPC objectives (average <1%) were smaller than those for heart and lung (average 28%–31% for Dmean). In general, the δD of no‐kV imaging was approximately that of weekly kV imaging × a factor of 1.2–1.4. Although most dose objectives were not affected, the potential higher heart dose may be of concern. No strong correlation was found between δD for different kV frequencies and patient anatomy size/distance or the first 3‐day couch shift data. Conclusions: Despite resulting in lower imaging dose, time, cost, and similar target coverage, a reduction in kV imaging frequency may introduce higher heart complication risk. Daily kVs are needed more in left‐sided breast patients. A less frequent imaging schedule, if considered, cannot be individually optimized using CT anatomic features or early shift data. [ABSTRACT FROM AUTHOR]

Published

2019

7. Three-Dimensional Planning Techniques

Author

Koylu, Murat, Olacak, Nezahat, Haydaroglu, Ayfer, Haydaroglu, Ayfer, editor, and Ozyigit, Gokhan, editor

Published

2013

8. A Compact Expression for Cogging Torque Considering Both Radial and Tangential Fields for Surface-Mounted PM Motors.

Author

Naveen Kumar, E., Naveen Deepak, V., and Ragavan, K.

Subjects

*TORQUE, *ROTORS, *SPATIAL systems, *ELECTRICAL harmonics, *ACTINIC flux

Abstract

Cogging torque is due to the interaction between a magnet’s magnetomotive force and a slotted stator or rotor structure. In this paper, a compact equation for cogging torque is presented for surface-mounted permanent magnet motors. This equation has four terms of field interactions involving tangential and radial components of airgap flux density. These four terms are considered as sources of cogging. Variations of these sources with pole embrace are examined. In earlier publications, closed-form expressions for pole embrace corresponding to the minimum cogging were presented considering only radial fields. In this paper, an attempt is made to recognize the influence of tangential fields in cogging. The compact form given here distinctly reflects the significance of both radial and tangential field components. Furthermore, to study the trends of cogging sources with pole number and airgap radius, simplified expressions for harmonic content of field components are derived using the first-order binomial approximation. The analysis on cogging presented in this paper helps in determining search domains in which optimum embrace for minimum cogging can be found when both the radial and tangential field components are considered. [ABSTRACT FROM AUTHOR]

Published

2018

9. Tangential Field Radiotherapy for Breast Cancer—The Dose to the Heart and Heart Subvolumes: What Structures Must Be Contoured in Future Clinical Trials?

Author

Marciana Nona Duma, Anne-Claire Herr, Kai Joachim Borm, Klaus Rüdiger Trott, Michael Molls, Markus Oechsner, and Stephanie Elisabeth Combs

Subjects

breast cancer, heart, tangential field, left anterior descending artery, radiotherapy, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Background and purposeThe aim of the present study was to evaluate if it is feasible for experienced radiation oncologists to visually sort out patients with a large dose to the heart. This would facilitate large retrospective data evaluations. And in case of an insufficient visual assessment, to define which structures should be contoured and which structures can be skipped as their dose can be derived from other easily contoured structures for future clinical trials.Material and methodsPlanning CTs of left-sided breast cancer patients treated with 3D-conformal radiotherapy by tangential fields were visually divided into two groups: with an estimated high dose (HiD) and with an estimated low dose (LoD) to the heart. For 46 patients (22 HiD and 24 LoD), the heart, the left ventricle, the left anterior descending artery (LAD), the right coronary artery, and the ramus circumflexus were contoured. A helper structure (HS) around the LAD was generated in order to consider if contouring uncertainties of the LAD could be acceptable. We analyzed the mean dose (Dmean), the maximum dose, the V10, V20, V30, V40, and the length of the LAD that received 20 and 40 Gy.ResultsThe two groups had a significant different Dmean of the heart (p

Published

2017

10. Radiation

Author

Drabowitch, S., Papiernik, A., Griffiths, H. D., Encinas, J., Smith, B. L., Drabowitch, S., Papiernik, A., Griffiths, H. D., Encinas, J., and Smith, B. L.

Published

2005

11. Radiation Above Half Space

Author

Eom, Hyo J. and Eom, Hyo J.

Published

2004

12. Tangential Field radiotherapy for Breast cancer—The Dose to the heart and heart subvolumes: What structures Must Be contoured in Future clinical Trials?

Author

Duma, Marciana Nona, Herr, Anne-Claire, Borm, Kai Joachim, Trott, Klaus Rüdiger, Molls, Michael, Oechsner, Markus, and Combs, Stephanie Elisabeth

Subjects

BREAST cancer, HEART abnormalities, ARTERIES, ANATOMY

Abstract

Background and purpose: The aim of the present study was to evaluate if it is feasible for experienced radiation oncologists to visually sort out patients with a large dose to the heart. This would facilitate large retrospective data evaluations. And in case of an insufficient visual assessment, to define which structures should be contoured and which structures can be skipped as their dose can be derived from other easily contoured structures for future clinical trials. Material and methods: Planning CTs of left-sided breast cancer patients treated with 3D-conformal radiotherapy by tangential fields were visually divided into two groups: with an estimated high dose (HiD) and with an estimated low dose (LoD) to the heart. For 46 patients (22 HiD and 24 LoD), the heart, the left ventricle, the left anterior descending artery (LAD), the right coronary artery, and the ramus circumflexus were contoured. A helper structure (HS) around the LAD was generated in order to consider if contouring uncertainties of the LAD could be acceptable. We analyzed the mean dose (Dmean), the maximum dose, the V10, V20, V30, V40, and the length of the LAD that received 20 and 40 Gy. results: The two groups had a significant different Dmean of the heart (p < 0.001). The average Dmean to the heart was 4.0 ± 1.3 Gy (HiD) and 2.3 ± 0.8 Gy (LoD). The average Dmean to the LAD was 26.2 ± 7.4 Gy (HiD) and 13.0 ± 7.5Gy (LoD) with a very strong positive correlation between Dmean LAD and Dmean HS in both groups. The Dmean heart is not a good surrogate parameter for the dose to the LAD since it might underestimate clinically significant doses in 1/3 of the patients in LoD group. conclusion: A visual assessment of the dose to the heart could be reliable if performed by experienced radiation oncologists. However, the Dmean heart is not always a good surrogate parameter for the dose to the LAD or for the Dmean to the left ventricle. Thus, if specific late toxicities are evaluated, we strongly recommend contouring of the specific heart substructures as a heart Dmean is not highly specific. [ABSTRACT FROM AUTHOR]

Published

2017

13. Applications of TLM to EMC Problems

Author

Christopoulos, Christos, Russer, Peter, Uzunoglu, Nikolaos K., editor, Nikita, Konstantina S., editor, and Kaklamani, Dimitra I., editor

Published

2000

14. Hierarchical Mixed-Order Tangential Vector Finite Elements For Traingular Elements

Author

Andersen, Lars S., Volakis, John L., Uzunoglu, Nikolaos K., editor, Nikita, Konstantina S., editor, and Kaklamani, Dimitra I., editor

Published

2000

15. Radiation

Author

Fourier, Jean Baptiste Joseph, Griffiths, Hugh, editor, Smith, Bradford L., editor, Drabowitch, S., Papiernik, A., Griffiths, H., and Encinas, J.

Published

1998

16. The Maxwell Equations

Author

Colton, David, Kress, Rainer, Marsden, J. E., editor, Sirovich, L., editor, Colton, David, and Kress, Rainer

Published

1998

17. Eddy Current Flow Near an Edge: A Comparison between Stratton-Chu and Magnetic Potential Formulations

Author

Chao, J., Lehther, D., Moulder, J. C., Nakagawa, N., Thompson, Donald O., editor, and Chimenti, Dale E., editor

Published

1996

18. What Is the Optimal Technique of Irradiation in Breast-Conserving Treatment?

Author

Lingos, Tatiana I., Harris, Jay R., Fletcher, Gilbert H., editor, and Levitt, Seymour H., editor

Published

1993

19. The Maxwell Equations

Author

Colton, David, Kress, Rainer, John, F., editor, Marsden, J. E., editor, Sirovich, L., editor, Colton, David, and Kress, Rainer

Published

1992

20. Inverse Electromagnetic Obstacle Scattering

Author

Colton, David, Kress, Rainer, John, F., editor, Marsden, J. E., editor, Sirovich, L., editor, Colton, David, and Kress, Rainer

Published

1992

21. An improved technique for tangential breast irradiation applying MLC field shaping and inverse planning

Author

van Asselen, B., Raaijmakers, C. P. J., Hofman, P., Lagendijk, J. J. W., Schlegel, Wolfgang, editor, and Bortfeld, Thomas, editor

Published

2000

22. Coercivity Measurement from Analysis of the Tangential Magnetic Field

Author

Fillion, G., Lord, M., Bussière, J. F., Ruud, Clayton O., editor, Bussière, Jean F., editor, and Green, Robert E., Jr., editor

Published

1991

23. Replacing Manual Planning of Whole Breast Irradiation With Knowledge-Based Automatic Optimization by Virtual Tangential-Fields Arc Therapy

Author

Antonella del Vecchio, Paola Mangili, Sara Broggi, Chiara Lucrezia Deantoni, Nadia Di Muzio, Andrei Fodor, Claudio Fiorino, Pier Giorgio Esposito, Marcella Pasetti, Barbara Longobardi, Alessia Tudda, Roberta Castriconi, and Lucia Perna

Subjects

education.field_of_study, Cancer Research, business.industry, Varian Eclipse, Population, plan optimization, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, radiation oncology, Breast treatment, knowledge-based, breast cancer, Integral dose, Whole Breast Irradiation, Oncology, tangential field, Fully automatic, Arc therapy, Tangential fields, Nuclear medicine, business, education, RC254-282, Mathematics, Original Research, automation

Abstract

PurposeTo implement Knowledge Based (KB) automatic planning for right and left-sided whole breast treatment through a new volumetric technique (ViTAT, Virtual Tangential-fields Arc Therapy) mimicking conventional tangential fields (TF) irradiation.Materials and MethodA total of 193 clinical plans delivering TF with wedged or field-in-field beams were selected to train two KB-models for right(R) and left(L) sided breast cancer patients using the RapidPlan (RP) tool implemented in the Varian Eclipse system. Then, a template for ViTAT optimization, incorporating individual KB-optimized constraints, was interactively fine-tuned. ViTAT plans consisted of four arcs (6 MV) with start/stop angles consistent with the TF geometry variability within our population; the delivery was completely blocked along the arcs, apart from the first and last 20° of rotation for each arc. Optimized fine-tuned KB templates for automatic plan optimization were generated. Validation tests were performed on 60 new patients equally divided in R and L breast treatment: KB automatic ViTAT-plans (KB-ViTAT) were compared against the original TF plans in terms of OARs/PTVs dose-volume parameters. Wilcoxon-tests were used to assess the statistically significant differences.ResultsKB models were successfully generated for both L and R sides. Overall, 1(3%) and 7(23%) out of 30 automatic KB-ViTAT plans were unacceptable compared to TF for R and L side, respectively. After the manual refinement of the start/stop angles, KB-ViTAT plans well fitted TF-performances for these patients as well. PTV coverage was comparable, while PTV D1% was improved with KB-ViTAT by R:0.4/L:0.2 Gy (p < 0.05); ipsilateral OARs Dmean were similar with a slight (i.e., few % volume) improvement/worsening in the 15–35 Gy/2–15 Gy range, respectively. KB-ViTAT better spared contralateral OARs: Dmean of contralateral OARs was 0.1 Gy lower (p < 0.05); integral dose was R:5%/L:8% lower (p < 0.05) than TF. The overall time for the automatic plan optimization and final dose calculation was 12 ± 2 minutes.ConclusionsFully automatic KB-optimization of ViTAT can efficiently replace manually optimized TF planning for whole breast irradiation. This approach was clinically implemented in our institute and may be suggested as a large-scale strategy for efficiently replacing manual planning with large sparing of time, elimination of inter-planner variability and of, seldomly occurring, sub-optimal manual plans.

Published

2021

24. СРАВНИТЕЛЬНЫЙ АНАЛИЗ РОТОРНЫХ СИСТЕМ СИНХРОННЫХ МАШИН НА ПОСТОЯННЫХ МАГНИТАХ

Subjects

тангенциальное поле, синхронная машина с постоянными магнитами, moment pulsation, СМПМ, tangential field, permanent magnet synchronous motor, Синхронная машина, radial field, PMSM, пульсация момента, synchronous motor, радиальное поле

Abstract

Данная работа посвящена рассмотрению и анализу конструкций ротора синхронных машин с постоянными магнитами. Рассматривается два вида расположения постоянных магнитов на роторе: радиальное и тангенциальное расположение постоянных магнитов. Анализируется каждый вид на предмет воздействия пульсации момента на ротор синхронной машины., This work is devoted to the consideration and analysis of the rotor designs of synchronous machines with permanent magnets. Two types of arrangement of permanent magnets on the rotor are considered: radial and tangential arrangement of permanent magnets. Each type is analyzed for the impact of the pulsation of the rotor of a synchronous machine.

Published

2021

25. Dosimetric effects of the kV based image-guided radiation therapy of prone breast external beam radiation: Towards the optimized imaging frequency

Author

Shifeng Chen, Sally B. Cheston, Stewart J. Becker, S Lee, Byong Yong Yi, H Xu, Heeteak Chung, and Mariana Guerrero

Subjects

Organs at Risk, 87.55.dk, medicine.medical_treatment, 87.55.Gh, imaging frequency, External beam radiation, Breast Neoplasms, Breast treatment, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, kV, 0302 clinical medicine, Image Processing, Computer-Assisted, Prone Position, Medicine, Humans, Radiation Oncology Physics, Radiology, Nuclear Medicine and imaging, Instrumentation, IGRT, Image-guided radiation therapy, Retrospective Studies, Radiation, prone breast, business.industry, Radiotherapy Planning, Computer-Assisted, Lumpectomy, Isocenter, Radiotherapy Dosage, 87.55.kh, Radiation therapy, Treatment dose, 87.55.ne, Skin marker, tangential field, 030220 oncology & carcinogenesis, Female, Radiotherapy, Intensity-Modulated, business, Nuclear medicine, Tomography, X-Ray Computed, Radiotherapy, Image-Guided

Abstract

Purpose For prone breast treatment, daily image‐guided radiation therapy (IGRT) allows couch shifting to correct breast position relative to the treatment field. This work investigates the dosimetric effect of reducing kV imaging frequencies and the feasibility of optimizing the frequency using patient anatomy or their first 3‐day shifts. Method Thirty‐seven prone breast patients who had been treated with skin marker alignment followed by daily kV were retrospectively analyzed. Three IGRT schemes (daily‐kV, weekly‐kV, no‐kV) were simulated, assuming that fractions with kV imaging deliver a dose distribution equivalent to that in computed tomography (CT) planning, whereas other fractions yield a dose distribution as recreated by shifting the CT plan isocenter back to its position before the couch shift was applied. Treatment dose to targets (breast and lumpectomy cavity [LPC]) and organs at risks (OAR)s (heart, ipsilateral lung) in different schemes were calculated. Patient anatomy information on CT plans and first 3‐day couch shift data were analyzed to investigate whether these factors could guide imaging scheme optimization. Results When kV imaging frequency was reduced, the percentage dose changes (δD) for breast and LPC objectives (average

Published

2018

26. Radiation After Limited and Radical Surgery

Author

Yarnold, J. R., Bloom, H. J. G., Hoogstraten, Barth, editor, Burn, Ian, editor, and Bloom, H. Julian G., editor

Published

1989

27. Some computational aspects of thin-wire modeling

Author

Miller, E. K., Deadrick, F. J., and Mittra, Raj, editor

Published

1975

28. High Field Surface Drift Velocities in Silicon

Author

Nelson, D. F., Cooper, J. A., Jr., Grubin, H. L., editor, Hess, K., editor, Iafrate, G. J., editor, and Ferry, D. K., editor

Published

1984

29. Electrohydrodynamics

Author

Melcher, J. R., Becker, Ernst, editor, and Mikhailov, Gleb K., editor

Published

1973

30. Competition of single and double rescattering in the strong-field photoemission from dielectric nanospheres.

Author

Seiffert L, Süßmann F, Zherebtsov S, Rupp P, Peltz C, Rühl E, Kling MF, and Fennel T

Abstract

Nanostructures exposed to ultrashort waveform-controlled laser pulses enable the generation of enhanced and highly localized near fields with adjustable local electric field evolution. Here, we study dielectric SiO 2 nanospheres ( d  = 100-700 nm) under strong carrier-envelope phase-controlled few-cycle laser pulses and perform a systematic theoretical analysis of the resulting near-field driven photoemission. In particular, we analyze the impacts of charge interaction and local field ellipticity on the near-field driven electron acceleration. Our semiclassical transport simulations predict strong quenching of the electron emission and enhanced electron energies due to the ionization induced space charge. Though single surface backscattering remains the main emission process for the considered parameter range, we find a substantial contribution of double rescattering that increases with sphere size and becomes dominant near the cutoff energy for the largest investigated spheres. The growing importance of the double recollision process is traced back to the increasing local field ellipticity via trajectory analysis and the corresponding initial to final state correlation. Finally, we compare the carrier-envelope phase-dependent emission of single and double recollision electrons and find that both exhibit a characteristic directional switching behavior., (© The Author(s) 2016.)

Published

2016

31. Competition of single and double rescattering in the strong-field photoemission from dielectric nanospheres

Author

Lennart Seiffert, Sergey Zherebtsov, Matthias F. Kling, Thomas Fennel, Philipp Rupp, Christian Peltz, Frederik Süßmann, and Eckart Rühl

Subjects

Physics and Astronomy (miscellaneous), Tunnel Ionization, General Physics and Astronomy, 02 engineering and technology, Dielectric, Electron, Physics and Astronomy(all), 01 natural sciences, Article, Large Sphere, Ionization, Electric field, 0103 physical sciences, 010306 general physics, Local field, Sphere Size, Quantum optics, Physics, Trapping Potential, General Engineering, 021001 nanoscience & nanotechnology, Space charge, Tunnel ionization, Tangential Field, Atomic physics, 0210 nano-technology

Abstract

Nanostructures exposed to ultrashort waveform-controlled laser pulses enable the generation of enhanced and highly localized near fields with adjustable local electric field evolution. Here, we study dielectric SiO2 nanospheres (d = 100–700 nm) under strong carrier-envelope phase-controlled few-cycle laser pulses and perform a systematic theoretical analysis of the resulting near-field driven photoemission. In particular, we analyze the impacts of charge interaction and local field ellipticity on the near-field driven electron acceleration. Our semiclassical transport simulations predict strong quenching of the electron emission and enhanced electron energies due to the ionization induced space charge. Though single surface backscattering remains the main emission process for the considered parameter range, we find a substantial contribution of double rescattering that increases with sphere size and becomes dominant near the cutoff energy for the largest investigated spheres. The growing importance of the double recollision process is traced back to the increasing local field ellipticity via trajectory analysis and the corresponding initial to final state correlation. Finally, we compare the carrier-envelope phase-dependent emission of single and double recollision electrons and find that both exhibit a characteristic directional switching behavior.