Font Size: a A A
Keyword [target volume]
Result: 121 - 140 | Page: 7 of 8
121. Automatic Delineation Of The Clinical Target Volume And Organs At Risk In Rectal Cancer For Radiation Therapy Using Three-Dimensional Fully Convolutional Neural Networks
122. Patterns Of Local Recurrence In Rectal Cancer After Tme And Implication In Delineation Of Clinical Target Volume For Radiation Therapy
123. Survival Analysis And Pattern Of Local Recurrence For R0Resected Stage Ⅲ-pN2 Non-Small Cell Lung Cancer
124. Comparison Of The Gross Target Volume Based On Diagnostic PETCT For Primary Esophageal Cancer
125. A Study On The Segmentation Of Cervical Cancer Target Volume And Partial Organs At Risk Based On Deep Convolutional Neural Network
126. Study On The Influence Of Peritumoral Brain Edema On The Delineation Of Radiotherapy Target Volume In High-grade Gliomas
127. A Comparative Study On The Incidence Of Lymphedema After Radiotherapy In Breast Cancer Delineated By Two Methods For Target Volume
128. Dosimetric Evaluation of Three Partial Breast Irradiation Devices and the Dosimetric Effect of Tissue Thickness Surrounding a Multi-Lumen Partial Breast Applicator
129. Adaptive Stereotactic-body Radiation Therapy (SBRT) Planning for Lung Cancer
130. Target Volume Delineation in Dynamic Positron Emission Tomography Based on Time Activity Curve Differences
131. Knowledge Based Radiation Therapy with Three Dimensional Registration of the Planning Target Volume
132. Study Of Internal Target Volume Of Bladder For The Individualized Definition And The Impact Of Dosimetry In Bladder Cancer Radiotherapy
133. Automatic Segmentation Of High-risk Clinical Target Volume Of Cervical Cancer And Organs At Risk For Brachytherapy With A Convolutional Neural Network
134. Simultaneous Integrated Boost-intensity Modulated Radiotherapy For Non-small Cell Lung Cancer
135. Development Of A Prognostic Model And Exploration Of The Clinical Target Delineation Of Adjuvant Radiotherapy For Thoracic Esophageal Squamous Cell Carcinoma After Radical Esophagectomy
136. Automatic Segmentation Of Clinical Target Volume Of Breast Cancer And Organs At Risk For Radiotherapy With A Convolutional Neural Network
137. Simulation Study Of SBRT Target Area Delineation And Plan Verification Based On Motion Model
138. Research On Automatic Segmentation Algorithm Of CT Images Of Nasopharyngeal Carcinoma Gross Target Volume Based On Deep Learning
139. Study On Radiotherapy Target Area Setting For Locally Advanced Lung Adenocarcinoma
140. Measurement Of The Distance Of The Micro-Cancer Foci On The Side Of The Gross Tumor In Pathological Specimens After Neoadjuvant Radiotherapy And Chemotherapy For Locally Advanced Rectal Cancer
  <<First  <Prev  Next>  Last>>  Jump to