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11 results on '"Huq, Mohammed Saiful"'

1. Assessing Radiology and Radiation Therapy Needs for Cancer Care in Low-and-Middle-Income Countries: Insight From a Global Survey of Departmental and Institutional Leaders

Author

Parker, Stephanie A., Weygand, Joseph, Bernat, Beata Gontova, Jackson, Amanda M., Mawlawi, Osama, Barreto, Izabella, Hao, Yao, Khan, Rao, Yorke, Afua A., Swanson, William, Huq, Mohammed Saiful, Lief, Eugene, Biancia, Cesar Della, Njeh, Christopher F., Al-Basheer, Ahmad, Chau, Oi Wai, Avery, Stephen, Ngwa, Wilfred, and Sandwall, Peter A.

Published
2024
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4. Single isocenter HyperArc treatment of multiple intracranial metastases: Targeting accuracy.

Author

Li, Fang, Mail, Noor, Stefania diMayorca, Maria, McCaw, Travis J., Ozhasoglu, Cihat, Lalonde, Ronald, Chang, Jina, and Huq, Mohammed Saiful

Subjects
SINGLE-degree-of-freedom systems, CONE beam computed tomography, METASTASIS, STEREOTACTIC radiosurgery, METAL oxide semiconductor field-effect transistors
Abstract

Purpose/objectives: (A) To examine the alignment accuracy of CBCT guidance for brain metastases with off centered isocenters, (B) to test dose delivery and targeting accuracy for single isocenter treatments with multiple brain metastases. We report the results of the end‐to‐end test for Truebeam stereotactic radiosurgery (SRS). Materials/methods: An anthropomorphic CT head phantom was drilled with five MOSFET inserts and two PTW Pinpoint chamber inserts. The phantom was simulated, planned, and delivered. For the purpose of comparing the accuracy of alignment, CBCTs were acquired with the isocenter centered and offset superiorly 8 cm, inferiorly 8 cm, anteriorly 7 cm, posteriorly 7 cm, and right 5 cm. There were six degrees of freedom corrections applied to the plans, as well as intentional rotational and translational errors for dose comparisons. Dose accuracy checks were performed with MOSFET and PTW Pinpoint chamber, and targeting accuracy was assessed with GafChromic films. Result: (A) Compared to centered CBCT, off‐centered CBCT scan showed some alignment errors, with a maximum difference of 0.6‐degree pitch and 0.9 mm translation when the phantom was placed 8 cm inferior off center. (B) For the single isocenter plan, measured doses of the five MOSFET were 95%–100% of the planned dose, whereas the multiple isocenter plans were 96%–100%. With intentional setup errors of 1‐degree pitch, doses were 97.1%–100.4% compared to the perfect setup. The same was found for the two pinpoint chamber readings with 1‐degree rotation and 1 mm translation. (C) Targeting accuracy for targets at the isocenter is 0.67 mm, within the machine specification of 0.75 mm. Targeting accuracy for isocenters 6–12 cm away from the target is in the range 0.67–1.18 mm. Conclusion: (A) Single isocenter HyperArc treatments for multiple brain metastases are feasible and targeting accuracy is clinically acceptable. (B) The vertex in a cranial scan is very important for proper alignment. [ABSTRACT FROM AUTHOR]

Published
2024
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6. Is Halcyon feasible for single thoracic or lumbar vertebral segment SBRT?

Author

Li, Fang, Park, Jeonghoon, Lalonde, Ron, Jang, Si Young, diMayorca, Maria Stefania, Flickinger, John C., Keller, Andrew, and Huq, Mohammed Saiful

Subjects
CAUDA equina, CONE beam computed tomography, STEREOTACTIC radiotherapy, VOLUMETRIC-modulated arc therapy, SPINAL canal, THORACIC vertebrae
Abstract

Purpose: Halcyon linear accelerators employ intensity‐modulated radiation therapy (IMRT) and stereotactic body radiation therapy (SBRT) techniques. The Halcyon offers translational, but not rotational, couch correction, which only allows a 3 degrees of freedom (3‐DOF) correction. In contrast, the TrueBeam (TB) linear accelerator offers full 6‐DOF corrections. This study aims to evaluate the difference in treatment plan quality for single thoracic or lumbar vertebral segment SBRT between the Halcyon and TB linear accelerators. In addition, this study will also investigate the effect of patient rotational setup errors on the final plan quality. Methods: We analyzed 20 patients with a single‐level spine metastasis located between the T7 and L5 vertebrae near the spinal canal. The median planning target volume was 52.0 cm3 (17.9–138.7 cm3). The median tumor diameter in the axial plane was 4.6 cm (range 1.7–6.8 cm), in the sagittal plane was 3.3 cm (range 2–5 cm). The prescription doses were either 12–16 Gy in 1 fraction or 18–24 Gy in 3 fractions. All patients were treated on the TB linear accelerator with a 2.5 mm Multi‐Leaf Collimator (MLC) leaf width. Treatment plans were retrospectively created for the Halcyon, which has a 5 mm effective MLC leaf width. The 20 patients had a total of 50 treatments. Analysis of the 50 cone beam computed tomography (CBCT) scans showed average rotational setup errors of 0.6°, 1.2°, and 0.8° in pitch, yaw, and roll, respectively. Rotational error in roll was not considered in this study, as the original TB plans used a coplanar volumetric modulated arc therapy (VMAT) technique, and each 1° of roll will contribute an error of 1/360. If a plan has 3 arcs, the contribution from errors in roll will be < 0.1%. To simulate different patient setup errors, for each patient, 12 CT image datasets were generated in Velocity AI with different rotational combinations at a pitch and yaw of 1°, 2°, and 3°, respectively. We recalculated both the TB and Halcyon plans on these rotated images. The dosimetric plan quality was evaluated based on the percent tumor coverage, the Conformity Index (CI), Gradient Index (GI), Homogeneity index (HI), the maximum dose to the cord/cauda, and the volume of the cord/cauda receiving 8, 10, and 12 Gy (V8Gy, V10Gy and V12Gy). Paired t‐tests were performed between the original and rotated plans with a significance level of 0.05. Results: The Eclipse based VMAT plans on Halcyon achieved a similar target coverage (92.3 ± 3.0% vs. 92.4 ± 3.3%, p = 0.82) and CI (1.0 ± 0.1 vs. 1.1 ± 0.2, p = 0.12) compared to the TB plans. The Gradient index of Halcyon is higher (3.96 ±0.8) than TB (3.85 ±0.7), but not statistically significant. The maximum dose to the spinal cord/cauda was comparable (11.1 ± 2.8 Gy vs. 11.4 ± 3.6 Gy, p = 0.39), as were the V8Gy, V10Gy and V12Gy to the cord/cauda. The dosimetric influence of patient rotational setup error was statistically insignificant for rotations of up to 1° pitch/yaw (with similar target coverage, CI, max cord/cauda dose and V8Gy, V10Gy, V12Gy for cord/cauda). The total number of monitor units (MUs) for Halcyon (4998 ± 1688) was comparable to that of TB (5463 ± 2155) (p = 0.09). Conclusions: The Halcyon VMAT plans for a single thoracic or lumbar spine metastasis were dosimetrically comparable to the TB plans. Patient rotation within 1° in the pitch and yaw directions, if corrected by translation, resulted in insignificant dosimetric effects. The Halcyon linear accelerator is an acceptable alternative to TB for the treatment of single thoracic or lumbar spinal level metastasis, but users need to be cautious about the patient rotational setup error. It is advisable to select patients appropriately, including only those with the thoracic or lumbar spine involvement and keeping at least 2 mm separation between the target and the cord/cauda. More margin is needed if the distance between the isocenter and cord/cauda is larger. It is advisable to place the planning isocenter close to the spinal canal to further mitigate the rotational error. Summary: We simulated various scenarios of patient setup errors with different rotational combinations of pitch and yaw with 1°, 2°, and 3°, respectively. Rotation was corrected with translation only to mimic the Halcyon treatment scenario. Using the Halcyon for treating a tumor in a single thoracic or lumbar vertebral segment is feasible, but caution should be noted in patients requiring rotational corrections of > 1° in the absence of 6‐DOF correction capabilities. [ABSTRACT FROM AUTHOR]

Published
2022
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7. Improved Survival of Mice After Total Body Irradiation with 10 MV Photon, 2400 MU/min SRS Beam

Author

KALASH, RONNY, BERHANE, HEBIST, YANG, YONG, EPPERLY, MICHAEL W., WANG, HONG, DIXON, TRACY, RHIEU, BYUNG, GREENBERGER, JOEL S., and HUQ, MOHAMMED SAIFUL

Subjects
Mice, Cell Survival, Animals, Humans, Radiotherapy Dosage, Radiosurgery, Article, Whole-Body Irradiation
Abstract

We evaluated the radiobiological effects of stereotactic radiosurgery (SRS) photon beams on survival of C57BL/6NTac mice following total body irradiation.Survival of Lewis lung carcinoma (3LL) cells was tested after irradiation using 6 MV: 300 MU/min or 1400 MU/min; or 10 MV: 300 MU/min or 2400 MU/min. Survival of C57BL/6NTac mice after a dose which is lethal to 50% of the mice in 30 days (LD50/30) (9.25 Gy) total body irradiation (TBI) and 21 Gy to orthotopic 3LL tumors was tested. We quantitated levels of organ-specific gene transcripts by Real Time Polymerase Chain Reaction (RT-PCR).While 3LL cell survival and inhibition of orthotopic tumor growth was uniform, 10 MV photons at 2400 MU/min TBI led to significantly greater survival (p=0.0218), with higher levels of intestinal (Sod2), (Gpx1), (Nrf2), and (NFκB) RNA transcripts.Clinical 10 MV-2400 cGy/min SRS beams led to unexpected protection of mice on TBI and increased radioprotective gene transcripts.

Published
2014

9. Study and development of a risk analysis model to radiosurgery

Author

Teixeira, Flávia Cristina da Silva, Almeida, Carlos Eduardo Veloso de, Huq, Mohammed Saiful, Magalhães, Luis Alexandre Gonçalves, and Gonçalves, Marcello Gomes

Subjects
Radiotherapy, Quality Management, CIENCIAS BIOLOGICAS::BIOFISICA [CNPQ], Radioterapia Avaliação de riscos, TG 100, Radiosurgery, Risk Assessment, Radioterapia Avaliação de riscos de saúde, Radiocirurgia, Radioterapia, Análise de Risco, Gestão da Qualidade, FMEA, Gestão de qualidade
Abstract

Submitted by Boris INFORMAT (boris@uerj.br) on 2021-04-26T01:11:32Z No. of bitstreams: 1 Flavia Cristina Teixeira Tese completa.pdf: 3197243 bytes, checksum: e6ad1b5fb11639b26536f45ae63a41e8 (MD5) Made available in DSpace on 2021-04-26T01:11:32Z (GMT). No. of bitstreams: 1 Flavia Cristina Teixeira Tese completa.pdf: 3197243 bytes, checksum: e6ad1b5fb11639b26536f45ae63a41e8 (MD5) Previous issue date: 2015-08-17 The reported events in radiotherapy that constitute accidents or incidents have increased worldwide in the last 25 years. Most of these events resulted from human failure and have happened in radiotherapy centers that use high technologies. The radiotherapy Quality Management needs a prospective approach through risk analysis. This approach is supported by recent publications as this actually extremely needed due the large number of accidents. Because of the complexity of the process in radiotherapy, the search for quality of care in order to ensure patient safety is one of the most discussed topics worldwide. Although only 14% of radiotherapy centers in Brazil offer treatments with intracranial radiosurgery technique (SRS), studies about the quality of care related to the safety of patients undergoing this technique is of great importance. Any deviations from the prescribed dose using SRS technique is considered more critical than in other methods of radiation treatment, as the delivered doses in SRS are higher, in the range of 10 Gy to 40 Gy, to lesions up to 50 mm in diameter, which are delivered in a single fraction or in five fractions. In view of those information, this work aims to satisfy the new Quality Management paradigm by developing a risk analysis model, and a Quality Index for SRS in Brazil, through the techniques of Process Map and FMEA used in the TG100/AAPM. The study was performed in three high technology reference radiotherapy centers, two located in Rio de Janeiro city and one in Sao Paulo city. A SRS Process Map was identified for each radiotherapy center, and then FMEA technique was applied in every subprocesses identified on the map. From NPR values obtained by the FMEA a ranking of failure modes was held. Failure modes with NPR ≥ 100 and S ≥ 7 were chosen as priority to implement safety strategies. From the scores assigned to the S parameter in the implementation of FMEA a Severity Index (SI) and a Quality Index (QI) were created from an association between the NPR and the SI. The result of this study indicates that safety strategies should be implemented for the first 10 failure modes of the ranking, and a new evaluation of the process should occur every year. In addition, it is also indicated that the QI shows a minimum improvement of 9 % after the re-evaluation of the process. Overall, the study showed that the adoption of the FMEA tool together with the QI are justified as they minimize the risks to the patient, improving the quality of care and enhancing the safety Taken together the FMEA and the QI create mechanisms for ensuring that the dose will be delivered more precisely and accurately, and consequently, this increases the chances of cure or local control of the tumor, improving quality of life of the patients. Mundialmente, eventos relatados constituídos por incidentes e acidentes em radioterapia, tem aumentado ao longo dos últimos 25 anos e a maioria destes eventos são resultados de falha humana, além de terem ocorrido com maior frequência em centros sofisticados que utilizam alta tecnologia. Em radioterapia a Gestão da Qualidade necessita de uma abordagem prospectiva através de análise de risco. Esta abordagem é defendida por recentes publicações por ser atualmente uma urgência em virtude do expressivo número de acidentes ocorridos. Dada a complexidade do processo em radioterapia, a busca pela qualidade do tratamento de forma a garantir a segurança do paciente é um dos assuntos mais discutidos mundialmente. Embora apenas 14% dos centros de radioterapia no Brasil ofereçam tratamentos com a técnica de radiocirurgia intracranial (SRS), estudos relativos a qualidade do tratamento relacionada a segurança do paciente submetido à esta técnica, é de relevante importância, pois qualquer desvio da dose prescrita é considerado muito mais crítico que em outras modalidades de tratamento radioterápico, já que são utilizadas altas doses de radiação que em geral variam de 10 Gy a 40 Gy para lesões até 50 mm de diâmetro, que são aplicadas em uma única fração ou até cinco frações. Tendo em vista tais conhecimentos, o objetivo deste trabalho foi atender um novo paradigma de Gestão da Qualidade, através do desenvolvimento de um modelo de análise de risco e de um Índice de Qualidade para a SRS no Brasil, a partir da técnica de Mapa do Processo e FMEA utilizadas pelo TG 100/AAPM. O trabalho foi desenvolvido em três centros de radioterapia de referência em alta tecnologia, dois localizados no Rio de Janeiro e um em São Paulo. Um Mapa do Processo de SRS foi identificado em cada centro de radioterapia e em seguida foi aplicada a técnica FMEA para todos os subprocessos identificados no mapa. A partir dos valores de NPR obtidos pela FMEA foi realizado um ranqueamento dos modos de falha. Modos de falha com NPR ≥ 100 e S ≥ 7 foram escolhidos como prioridade para implementação de estratégias de segurança. A partir das pontuações do parâmetro S atribuídas na aplicação da FMEA foi criado o Índice de Severidade (IS) e um Índice de Qualidade (IQ) foi criado a partir de uma relação entre o NPR e o IS. O resultado deste estudo, indica que as estratégias de segurança sejam implementadas para os 10 primeiros modos de falha do ranking e uma reavaliação do processo deve ocorrer a cada 1 ano. É também indicado que o IQ obtenha uma melhora mínima de 9% após a reavaliação do processo. De forma geral, o estudo mostrou que a adoção da ferramenta FMEA juntamente com o IQ são de fato justificadas, por minimizar os riscos para o paciente, melhorando a qualidade do tratamento aprimorando a segurança, criando mecanismos que permitam a garantia de que a dose será entregue de forma precisa e exata, e consequentemente, aumentando as chances de cura ou do controle local com uma desejada qualidade de vida para estes pacientes.

Published
2015

10. A Mobile Alert System for Preparing the Delivery of Radiation Mitigators.

Author

Dickson R, Kim JO, Huq MS, Bednarz G, Suyama J, Yealy DM, Wang H, and Greenberger JS

Subjects
Humans, Radioisotopes, Radiometry standards, Reproducibility of Results, Mobile Health Units, Radiation, Radiometry instrumentation, Radiometry methods
Abstract

Background/aim: A mobile system allowing hospital medical personnel to prepare for the administration of radiation mitigators prior to receiving casualties is desirable., Materials and Methods: We evaluated a portable spectroscopic personal radiation detector for use as an ambulance-based unit for early detection and identification of gamma radiation. We tested the sensitivity, time-to-identification, and radionuclide identification accuracy rates, change in detector response to vehicle operation, interference from cardiac equipment, and internal versus external radiation source location., Results: We detected radiation sources in each of 119 trials using a humanoid phantom in a moving ambulance with a primary radionuclide identification accuracy of 96%. Typical identification time was around two minutes (149±95 s)., Conclusion: Our observations suggest this mobile system is a potential pre-hospital arrival tool allowing for rapid preparation of radiation mitigators., (Copyright © 2015 International Institute of Anticancer Research (Dr. John G. Delinassios), All rights reserved.)

Published
2015

11. Improved survival of mice after total body irradiation with 10 MV photon, 2400 MU/min SRS beam.

Author

Kalash R, Berhane H, Yang Y, Epperly MW, Wang H, Dixon T, Rhieu B, Greenberger JS, and Huq MS

Subjects
Animals, Cell Survival radiation effects, Humans, Mice, Radiosurgery adverse effects, Radiotherapy Dosage, Whole-Body Irradiation
Abstract

Background/aim: We evaluated the radiobiological effects of stereotactic radiosurgery (SRS) photon beams on survival of C57BL/6NTac mice following total body irradiation., Materials and Methods: Survival of Lewis lung carcinoma (3LL) cells was tested after irradiation using 6 MV: 300 MU/min or 1400 MU/min; or 10 MV: 300 MU/min or 2400 MU/min. Survival of C57BL/6NTac mice after a dose which is lethal to 50% of the mice in 30 days (LD50/30) (9.25 Gy) total body irradiation (TBI) and 21 Gy to orthotopic 3LL tumors was tested. We quantitated levels of organ-specific gene transcripts by Real Time Polymerase Chain Reaction (RT-PCR)., Results: While 3LL cell survival and inhibition of orthotopic tumor growth was uniform, 10 MV photons at 2400 MU/min TBI led to significantly greater survival (p=0.0218), with higher levels of intestinal (Sod2), (Gpx1), (Nrf2), and (NFκB) RNA transcripts., Conclusion: Clinical 10 MV-2400 cGy/min SRS beams led to unexpected protection of mice on TBI and increased radioprotective gene transcripts.

Published
2014

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