Your search keyword '"Shruti Jolly"' showing total 10 results

1. Feasibility of function‐guided lung treatment planning with parametric response mapping

Author

Martha M. Matuszak, Matthew J. Schipper, D. Rocky Owen, Shruti Jolly, C.A. Schonewolf, Charles K. Matrosic, Randall K. Ten Haken, Yilun Sun, Daniel F. Polan, and Craig J. Galbán

Subjects

treatment planning, medicine.medical_specialty, Lung Neoplasms, viruses, medicine.medical_treatment, computer.software_genre, Voxel, medicine, Radiation Oncology Physics, Humans, Radiology, Nuclear Medicine and imaging, Lung cancer, Radiation treatment planning, Lung, Instrumentation, functional imaging, Retrospective Studies, Radiation, Modalities, business.industry, Radiotherapy Planning, Computer-Assisted, virus diseases, Retrospective cohort study, medicine.disease, humanities, Functional imaging, Radiation therapy, lung cancer, medicine.anatomical_structure, Feasibility Studies, Radiotherapy, Intensity-Modulated, Radiology, business, computer

Abstract

Purpose Recent advancements in functional lung imaging have been developed to improve clinicians’ knowledge of patient pulmonary condition prior to treatment. Ultimately, it may be possible to employ these functional imaging modalities to tailor radiation treatment plans to optimize patient outcome and mitigate pulmonary complications. Parametric response mapping (PRM) is a computed tomography (CT)–based functional lung imaging method that utilizes a voxel‐wise image analysis technique to classify lung abnormality phenotypes, and has previously been shown to be effective at assessing lung complication risk in diagnostic applications. The purpose of this work was to demonstrate the implementation of PRM guidance in radiotherapy treatment planning. Methods and materials A retrospective study was performed with 18 lung cancer patients to test the incorporation of PRM into a radiotherapy planning workflow. Paired inspiration/expiration pretreatment CT scans were acquired and PRM analysis was utilized to classify each voxel as normal, parenchymal disease, small airway disease, and emphysema. Density maps were generated for each PRM classification to contour high density regions of pulmonary abnormalities. Conventional volumetric‐modulated arc therapy and PRM‐guided treatment plans were designed for each patient. Results PRM guidance was successfully implemented into the treatment planning process. The inclusion of PRM priorities resulted in statistically significant (p

Published

2021

2. A multiobjective Bayesian networks approach for joint prediction of tumor local control and radiation pneumonitis in nonsmall-cell lung cancer (NSCLC) for response-adapted radiotherapy

Author

Dipankar Ray, Yi Luo, Martha M. Matuszak, Daniel L. McShan, Shruti Jolly, Theodore S. Lawrence, Randall K. Ten Haken, Issam El Naqa, and Feng-Ming Kong

Subjects

Oncology, medicine.medical_specialty, Receiver operating characteristic, business.industry, medicine.medical_treatment, Bayesian network, General Medicine, Article, 030218 nuclear medicine & medical imaging, Radiation therapy, 03 medical and health sciences, 0302 clinical medicine, Radiomics, 030220 oncology & carcinogenesis, Internal medicine, medicine, Clinical endpoint, Non small cell, business, Structure learning, Radiation Pneumonitis

Abstract

Purpose Individualization of therapeutic outcomes in NSCLC radiotherapy is likely to be compromised by the lack of proper balance of biophysical factors affecting both tumor local control (LC) and side effects such as radiation pneumonitis (RP), which are likely to be intertwined. Here, we compare the performance of separate and joint outcomes predictions for response-adapted personalized treatment planning. Methods A total of 118 NSCLC patients treated on prospective protocols with 32 cases of local progression and 20 cases of RP grade 2 or higher (RP2) were studied. Sixty-eight patients with 297 features before and during radiotherapy were used for discovery and 50 patients were reserved for independent testing. A multiobjective Bayesian network (MO-BN) approach was developed to identify important features for joint LC/RP2 prediction using extended Markov blankets as inputs to develop a BN predictive structure. Cross-validation (CV) was used to guide the MO-BN structure learning. Area under the free-response receiver operating characteristic (AU-FROC) curve was used to evaluate joint prediction performance. Results Important features including single nucleotide polymorphisms (SNPs), micro RNAs, pretreatment cytokines, pretreatment PET radiomics together with lung and tumor gEUDs were selected and their biophysical inter-relationships with radiation outcomes (LC and RP2) were identified in a pretreatment MO-BN. The joint LC/RP2 prediction yielded an AU-FROC of 0.80 (95% CI: 0.70-0.86) upon internal CV. This improved to 0.85 (0.75-0.91) with additional two SNPs, changes in one cytokine and two radiomics PET image features through the course of radiotherapy in a during-treatment MO-BN. This MO-BN model outperformed combined single-objective Bayesian networks (SO-BNs) during-treatment [0.78 (0.67-0.84)]. AU-FROC values in the evaluation of the MO-BN and individual SO-BNs on the testing dataset were 0.77 and 0.68 for pretreatment, and 0.79 and 0.71 for during-treatment, respectively. Conclusions MO-BNs can reveal possible biophysical cross-talks between competing radiotherapy clinical endpoints. The prediction is improved by providing additional during-treatment information. The developed MO-BNs can be an important component of decision support systems for personalized response-adapted radiotherapy.

Published

2018

3. Pretreatment serum xanthophyll concentrations as predictors of head and neck cancer recurrence and survival

Author

Zora Djuric, Emily Bellile, Jianwei Ren, Christie Mueller, Laura S. Rozek, Anna E. Arthur, Gregory T. Wolf, Karen E. Peterson, Lisa A. Peterson, Ethan Harris, and Shruti Jolly

Subjects

0301 basic medicine, chemistry.chemical_classification, medicine.medical_specialty, Proportional hazards model, business.industry, Head and neck cancer, Head neck, Newly diagnosed, medicine.disease, Micronutrient, Gastroenterology, Surgery, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Otorhinolaryngology, chemistry, 030220 oncology & carcinogenesis, Internal medicine, Xanthophyll, medicine, Overall survival, business, Carotenoid

Abstract

Background The purpose of this study was to examine associations of pretreatment serum carotenoids, tocopherols, and quercetin with prognosis in 154 patients newly diagnosed with head and neck cancer. Methods Pretreatment blood and health surveys were collected. Serum micronutrients were measured by high performance liquid chromatography. Data on recurrence and death were collected annually. Cox proportional hazards models measured associations of serum nutrient concentrations with recurrence and overall survival. Results During a median follow-up time of 37 months, there were 32 recurrences and 27 deaths. After controlling for covariates, subjects with high versus low serum xanthophyll and total carotenoid concentrations had significantly longer recurrence-free time (p = .002 and p = .02, respectively). Overall survival time was significantly longer in patients with high versus low serum xanthophyll concentrations (p = .02). Conclusion Future research should evaluate the possible benefits of interventions to increase intakes of rich food sources of xanthophylls in this patient population. © 2015 Wiley Periodicals, Inc. Head Neck, 2015

Published

2015

4. Maintaining physical activity during head and neck cancer treatment: Results of a pilot controlled trial

Author

Yebin Tao, Jessica Zhou, Scott J. Strath, Matthew J. Schipper, Francis P. Worden, Neil B. Alexander, Shruti Jolly, Felix Y. Feng, Zora Djuric, Avraham Eisbruch, and Shuang G. Zhao

Subjects

medicine.medical_specialty, business.industry, medicine.medical_treatment, Head and neck cancer, Physical activity, Psychological intervention, Treatment results, medicine.disease, Mental health, law.invention, Radiation therapy, 03 medical and health sciences, 0302 clinical medicine, Otorhinolaryngology, Randomized controlled trial, Quality of life, law, 030220 oncology & carcinogenesis, medicine, Physical therapy, 030212 general & internal medicine, business

Abstract

Background Concurrent chemoradiotherapy (concurrent CRT) to treat head and neck cancer is associated with significant reductions of weight, mobility, and quality of life (QOL). An intervention focusing on functional exercise may attenuate these losses. Methods We allocated patients to a 14-week functional resistance and walking program designed to maintain physical activity during cancer treatment (MPACT group; n = 11), or to usual care (control group; n = 9). Outcomes were assessed at baseline, and 7 and 14 weeks. Results Compared to controls, the MPACT participants had attenuated decline or improvement in several strength, mobility, physical activity, diet, and QOL endpoints. These trends were statistically significant (p < .05) in knee strength, mental health, head and neck QOL, and barriers to exercise. Conclusion In this pilot study of patients with head and neck cancer undergoing concurrent CRT, MPACT training was feasible and maintained or improved function and QOL, thereby providing the basis for larger future interventions with longer follow-up. © 2015 Wiley Periodicals, Inc. Head Neck, 2015

Published

2015

5. Neuropathologic findings in a case of OFDS type VI (V�radi syndrome)

Author

Suzanne M. Jacques, Jennifer Lampinen, Mark I. Evans, Mark P. Johnson, Barbara J. Doss, Shruti Jolly, Faisal Qureshi, and William J. Kupsky

Subjects

Cerebellum, business.industry, Autopsy, Neuropathology, Anatomy, medicine.disease, Hypoplasia, Dysgenesis, medicine.anatomical_structure, Cortex (anatomy), medicine, Cerebellar vermis, Varadi syndrome, business, Genetics (clinical)

Abstract

Oral-facial-digital syndrome type VI (OFDS VI) or Varadi syndrome is a rare autosomal-recessive disorder distinguished from other oral-facial-digital syndromes by metacarpal abnormalities with central polydactyly and by cerebellar abnormalities. Histopathologic characterization of the cerebellar abnormalities has not been described previously. We describe the neuropathologic findings in a stillborn, 21-week estimated gestational age (EGA) male fetus diagnosed antenatally with signs of OFDS VI. Autopsy findings included: facial abnormalities, postaxial central polydactyly of the right hand, bilateral bifid toes, and absence of cerebellar vermis with hypoplasia of the hemispheric cortex. Microscopic analysis of the cerebellum demonstrated absence of the subpial granular cell layer and disruption or dysgenesis of the glial architecture. These histopathologic findings suggest that a primary neuronal or glial cell defect, rather than an associated Dandy-Walker malformation, may account for the cerebellar abnormalities in this form of oral-facial-digital syndrome. Am. J. Med. Genet. 77:38–42, 1998. © 1998 Wiley-Liss, Inc.

Published

1998

6. Characterization of changes in total body composition for patients with head and neck cancer undergoing chemoradiotherapy using dual-energy x-ray absorptiometry

Author

William C. Jackson, Neil B. Alexander, Shruti Jolly, Matthew J. Schipper, Felix Y. Feng, and Lorraine M. Fig

Subjects

medicine.medical_specialty, medicine.diagnostic_test, business.industry, Head and neck cancer, Total body, medicine.disease, Surgery, Otorhinolaryngology, Quality of life, Weight loss, medicine, Lean body mass, medicine.symptom, business, Dual-energy X-ray absorptiometry, Chemoradiotherapy, Exercise counseling

Abstract

Background Patients with head and neck cancer experience significant weight loss secondary to concurrent chemoradiotherapy (CCRT). Using dual-energy X-ray absorptiometry (DEXA) scans, we characterize total body composition changes during and after CCRT in order to develop novel clinical care models that will improve the patient's quality of life (QOL). Methods Sixty DEXA scans were obtained from 12 patients undergoing CCRT for locally advanced squamous cell head and neck cancer. DEXAs were performed at baseline, during treatment, completion of CCRT, and then 1 and 2 months posttreatment. Results Mean weight loss by treatment end was 9.5 kg (10.2%; p = .0002). On average, lean body mass (LBM) decreased 10.2% (p = .001), and fat body mass (FBM) decreased 11.1% (p = .001) during CCRT. LBM began to normalize after completion of treatment, whereas FBM continued to decline. Conclusion Substantial loss of muscle and FBM occurs in patients undergoing CCRT for head and neck cancer. To prevent long-term disability and QOL decline after curative CCRT, clinical care interventions incorporating aggressive nutrition/exercise counseling are needed. © 2013 Wiley Periodicals, Inc. Head Neck 36: 1356–1362, 2014

Published

2013

7. WE-AB-202-05: Validation of Lung Stress Maps for CT-Ventilation Imaging

Author

Kristy K. Brock, John Kipritidis, Shankar Siva, Martha M. Matuszak, Michael S Hofman, Guillaume Cazoulat, James M. Balter, Paul J. Keall, and Shruti Jolly

Subjects

medicine.diagnostic_test, business.industry, Image registration, General Medicine, Single-photon emission computed tomography, Spearman's rank correlation coefficient, symbols.namesake, Spect imaging, Hounsfield scale, Jacobian matrix and determinant, Metric (mathematics), Breathing, medicine, symbols, Nuclear medicine, business, Mathematics

Abstract

Purpose: To date, lung CT-ventilation imaging has been based on quantification of local breathing-induced changes in Hounsfield Units (HU) or volume. This work investigates the use of a stress map resulting from a biomechanical deformable image registration (DIR) algorithm as a metric of the ventilation function. Method: Eight lung cancer patients presenting different kinds of ventilation defects were retrospectively analyzed. Additionally, to the 4DCT acquired for radiotherapy planning, five of them had PET and three had SPECT imaging following inhalation of Ga-68 and Tc-99m, respectively. For each patient, the inhale phase of the 4DCT was registered to the exhale phase using Morfeus, a biomechanical DIR algorithm based on the determination of boundary conditions on the lung surfaces and vessel tree. To take into account the heterogeneity of the tissue stiffness in the stress map estimation, each tetrahedral element of the finite-element model was assigned a Young's modulus ranging from 60kPa to 12MPa, as a function of the HU in the inhale CT. The node displacements and element stresses resulting from the numerical simulation were used to generate three CT-ventilation maps based on: (i) volume changes (Jacobian determinant), (ii) changes in HU, (iii) the maximum principal stress. The voxel-wise correlation between each CT-ventilation map and the PET or SPECT V image was computed in a lung mask. Results: For patients with PET, the mean (min-max) Spearman correlation coefficients r were: 0.33 (0.19–0.45), 0.36 (0.16–0.51) and 0.42 (0.21–0.59) considering the Jacobian, changes in HU and maximum principal stress, respectively. For patients with SPECT V, the mean r were: 0.12 (−0.12–0.43), 0.29 (0.22–0.45) and 0.33 (0.25–0.39). Conclusion: The maximum principal stress maps showed a stronger correlation with the ventilation images than the previously proposed Jacobian or change in HU maps. This metric thus appears promising for CT-ventilation imaging. This work was funded in part by NIH P01CA059827.

Published

2016

8. SU-D-207A-01: Female Pelvic Synthetic CT Generation Based On Joint Shape and Intensity Analysis

Author

Yue Cao, Karen Vineberg, Jeffrey A. Fessler, Shruti Jolly, Lianli Liu, and James M. Balter

Subjects

medicine.medical_specialty, business.industry, Soft tissue, Multi spectral, General Medicine, Sacrum, Standard deviation, Bony Tissues, medicine, Dosimetry, Femur, Radiology, Bone shape, Nuclear medicine, business

Abstract

Purpose: To develop a method for generating female pelvic synthetic CT (MRCT) images from a single MR scan and evaluate its utility in radiotherapy. Methods: Under IRB-approval, an imaging sequence (T1_VIBE_Dixon) was acquired for 10 patients. This sequence yields 3 useful image volumes of different contrast (“in-phase” T1-weighted, fat and water). A previously published pelvic bone shape model was used to generate a rough bone mask for each patient. A modified fuzzy c-means classification was performed on the multi spectral MR data, with a regularization term that utilizes the prior knowledge provided by the bone mask and addresses the intensity overlap between different tissue types. A weighted sum of classification probabilities with attenuation values yielded MRCT volumes. The mean absolute error (MAE) between MRCT and real CT on various regions was calculated following deformable alignment (Velocity). Intensity modulated Treatment plans based on actual CT and MRCT were made and compared. Results: The average/standard deviation of MAE across 10 patients was 10.1/6.7 HU for muscle, 6.7/4.6 HU for fat, 136.9/53.5 HU for bony tissues under 850 HU (97% of total bone volume), 188.9/119.3 HU for bony tissues above 850 HU and 17.3/13.3 HU for intrapelvic soft tissues. Calculated doses were comparable for plans generated on CT and calculated using MRCT densities or vice versa, with differences in PTV D99% (mean/σ) of (–0.1/0.2 Gy) and (0.3/0.2 Gy), PTV D0.5cc of (–0.3/0.2 Gy) and (–0.4/1.7 Gy). OAR differences were similarly small for comparable structures, with differences in bowel V50Gy of (–0.3/0.2%) and (0.0/0.2%), femur V30Gy of (0.7/1.2%) and (0.2/1.2%), sacrum V20GY of (0.0/0.1%) and (–0.1/1.1%) and mean pelvic V20Gy of (0.0/0.1%) and (0.6/1.8%). Conclusion: MRCT based on a single imaging sequence in the female pelvis is feasible, with acceptably small variations in attenuation estimates and calculated doses to target and critical organs. Work supported by NIHR01EB016079

Published

2016

9. SU-C-17A-01: MRI-Based Radiotherapy Treatment Planning In Pelvis

Author

Shruti Jolly, Yue Cao, James M. Balter, and Shu-Hui Hsu

Subjects

medicine.medical_specialty, medicine.diagnostic_test, business.industry, medicine.medical_treatment, Bone metastasis, Magnetic resonance imaging, General Medicine, medicine.disease, computer.software_genre, Intensity (physics), Radiation therapy, Voxel, medicine, Medical imaging, Dosimetry, Radiology, Radiation treatment planning, business, Nuclear medicine, computer

Abstract

Purpose: To support radiotherapy dose calculation, synthetic CT (MRCT) image volumes need to represent the electron density of tissues with sufficient accuracy. This study compares CT and MRCT for pelvic radiotherapy. Methods: CT and multi-contrast MRI acquired using T1- based Dixon, T2 TSE, and PETRA sequences were acquired on an IRBapproved protocol patient. A previously published method was used to create a MRCT image volume by applying fuzzy classification on T1- weighted and calculated water image volumes (air and fluid voxels were excluded using thresholds applied to PETRA and T2-weighted images). The correlation of pelvic bone intensity between CT and MRCT was investigated. Two treatment plans, based on CT and MRCT, were performed to mimic treatment for: (a) pelvic bone metastasis with a 16MV parallel beam arrangement, and (b) gynecological cancer with 6MV volumetric modulated arc therapy (VMAT) using two full arcs. The CT-calculated fluence maps were used to recalculate doses using the MRCT-derived density grid. The dose-volume histograms and dose distributions were compared. Results: Bone intensities in the MRCT volume correlated linearly with CT intensities up to 800 HU (containing 96% of the bone volume), and then decreased with CT intensity increase (4% volume). There was no significant difference in dose distributions between CT- and MRCTbased plans, except for the rectum and bladder, for which the V45 differed by 15% and 9%, respectively. These differences may be attributed to normal and visualized organ movement and volume variations between CT and MR scans. Conclusion: While MRCT had lower bone intensity in highly-dense bone, this did not cause significant dose deviations from CT due to its small percentage of volume. These results indicate that treatment planning using MRCT could generate comparable dose distributions to that using CT, and further demonstrate the feasibility of using MRI-alone to support Radiation Oncology workflow. NIH R01EB016079

Published

2014

10. SU-E-T-366: Clinical Implementation of MR-Guided Vaginal Cylinder Brachytherapy

Author

James M. Balter, Joann I. Prisciandaro, Amir Owrangi, Yue Cao, Tong Zhu, Shruti Jolly, and Lisa Young

Subjects

business.industry, medicine.medical_treatment, Brachytherapy, T1 contrast, Image processing, General Medicine, Vaginal Cylinder, Catheter, T2 contrast, medicine, Mr images, Nuclear medicine, business, Mri guided

Abstract

Purpose: To evaluate the accuracy of MR-based vaginal brachytherapy source localization using an in-house MR-visible marker versus the alignment of an applicator model to MR images. Methods: Three consecutive patients undergoing vaginal HDR brachytherapy with a plastic cylinder were scanned with both CT and MRI (including T1- and T2- weighted images). An MR-visible source localization marker, consisting of a sealed thin catheter filled with either water (for T2 contrast) or Gd-doped water (for T1 contrast), was assembled shortly before scanning. Clinically, the applicator channel was digitized on CT with an x-ray marker. To evaluate the efficacy of MR-based applicator reconstruction, each MR image volume was aligned locally to the CT images based on the region containing the cylinder. Applicator digitization was performed on the MR images using (1) the MR visible marker and (2) alignment of an applicator surface model from Varian's Brachytherapy Planning software to the MRI images. Resulting source positions were compared with the original CT digitization. Results: Although the source path was visualized by the MR marker, the applicator tip proved difficult to identify due to challenges in achieving a watertight seal. This resulted in observed displacements of the catheter tip, at times >1cm. Deviations between themore » central source positions identified via aligning the applicator surface model to MR and using the xray marker on CT ranged from 0.07 – 0.19 cm and 0.07 – 0.20 cm on T1- weighted and T2-weighted images, respectively. Conclusion: Based on the current study, aligning the applicator model to MRI provides a practical, current approach to perform MR-based brachytherapy planning. Further study is needed to produce catheters with reliably and reproducibly identifiable tips. Attempts are being made to improve catheter seals, as well as to increase the viscosity of the contrast material to decrease fluid mobility inside the catheter.« less

Published

2014