In vitro prediction of inherent cellular radiosensitivity

Smit, Kathleen Ann

January 2005

Thesis (MTech (Biomedical Technology))--Cape Peninsula University of Technology, 2005 / The principal objective in irradiating tumours is to permanently inhibit their reproductive ability. More than half of all malignancies are primarily treated with radiation but tumours of different histologies differ greatly in response to radiotherapy as well as individual patients displaying great variability in response to treatment. The need for reliable assays predicting tumour and normal tissue response to radiation is therefore a prime objective of clinical oncology. The requirement of such a test would be that it would relate to clinical outcome Le. the possibility of recurrence of disease or of tumour control as well as indicating whether the treatment should be administered more aggressively or not. These are important factors that, if known, could be used as part of the treatment planning in radiotherapy and selection of best therapy modality. The colony forming c1onogenic assay has been shown to be a reliable reflection of a cells ability to maintain reproductive integrity after radiation exposure. In this study it has successfully been used to demonstrate the surviving fraction of cells but has the limitation of cells needing to process the ability to form colonies. Cells from primary tumours do not readily form colonies and may display poor anchorage making this assessment of radiosensitivity in the clinic less desirable. These data are presented together with unpublished data obtained using the micronucleus assay. Micronuclei frequency (MNF) varies in different cell types with test doses and provides a means to rank the cell in terms of response to radiation. In normal cells a linear inverse correlation exits between MNF and cell survival. However, MNF does not rank malignant cells according to their intrinsic survival to radiation displaying a weak correlation between MNF and cell survival.

Cancer -- Radiotherapy

Tumors -- Radiotherapy

Radiation tolerance

Perturbations in cell populations kinetics in the irradiated hamster cheek pouch and in tumours induced in the pouch and irradiated in situ

Brown, J. Martin

January 1968

No description available.

Targeted Delivery of Napabucasin with Radiotherapy Synergistically Improves Outcomes in Diffuse Midline Glioma

Gallitto, Matthew

January 2024

Diffuse midline glioma (DMG) is the most aggressive primary brain tumor in children. All previous studies examining the role of systemic agents have failed to demonstrate a survival benefit; the only standard of care is radiation therapy (RT), which provides transient symptomatic relief and limited survival advantage. Successful implementation of radiosensitization strategies in DMG remains elusive. In this project, we identify Napabucasin, an NAD(P)H Quinone Dehydrogenase 1 (NQO1)-bioactivatable reactive oxygen species (ROS) inducer, as a potent radiosensitizer in DMG both in vitro and in vivo. We show Napabucasin-mediated ROS production and cytotoxicity are dependent on NQO1, and establish the novel safety, feasibility, and survival benefit of convection-enhanced drug delivery (CED) of Napabucasin to circumvent the blood-brain barrier (BBB) concurrent with RT in an orthotopic DMG mouse model. Using this multi-modality strategy, we identify a promising treatment paradigm in DMG that may also be utilized to develop novel therapeutic treatments for other brain tumors.

Oncology

Brain--Tumors--Radiotherapy

Gliomas--Radiotherapy

Tumors in children--Treatment

Performance of a cadmium tungstate MVCT scanner

Kirvan, Paul Francis.

January 2010

Thesis (M.Sc.)--University of Alberta, 2010. / A thesis submitted to the Faculty of Graduate Studies and Research in partial fulfillment of the requirements for the degree of Master of Science in Medical Physics, Department of Physics. Title from pdf file main screen (viewed on July 17, 2010). Includes bibliographical references.

Memory Functions among Children Irradiated for Brain Tumor

McCormack, Sarah (Sarah Smith)

12 1900

Children who have received radiation therapy for the treatment of brain tumors have been shown to experience neurocognitive deficits which appear to increase over time. The purpose of this study was to examine the memory functioning of 22 children irradiated for brain tumor and 22 healthy children of the same age who had not received irradiation. Subjects were administered a brief form of the WISC-III, to obtain an IQ, and the Wide Range Assessment of Memory and Learning (WRAML), to evaluate visual and verbal memory. Results indicated that, although there were no significant differences between the IQ scores of healthy children and children who had been irradiated, children who have received radiation therapy for brain tumor evidence memory deficits which effect visual and verbal memory abilities. Among the children who had been irradiated, as time since treatment increased, visual memory and overall memory functioning appeared to decline. Findings also suggested that children who received total tumor resection may evidence greater memory deficits than those who received only a partial resection. Visual memory was more closely related to IQ in the children irradiated for brain tumor than in the healthy children. The overall importance of research with this population lies in refining the understanding of memory deficits and strengths in order to formulate more effective remediation compensation, strategies.

children

brain tumors

radiation treatment

memory

Memory in children.

Brain -- Tumors -- Radiotherapy.

Radiotherapy -- Side effects.

Optimization of a sequential alignment verification and positioning system (SAVPS) for proton radiosurgery

Neupane, Mahesh Raj

01 January 2005

Functional proton-beam stereotactic radiosurgery requires sub-millimeter alignment accuracy. A patient tracking system called Sequential Alignment and Position Verification System (SAVPS) is under development at Loma Linda University Medical Center. An optical positioning system (OPS), manufactured by Vicon Peak, has been chosen to verify the correct alignment of the target with the proton beam axis. The main objective of this thesis is to optimize an existing version of SAVPS by conducting error analysis. An image processing algorithm was developed and applied to estimate the error introduced by the Patient Positioning System (PPS) in order to derive the true error of the SAVPS.

Radiosurgery

Radiosurgery Quality control

Stereoencephalotomy

Stereoencephalotomy Quality control

Proton beams Therapeutic use

Protons Therapeutic use

Radiosurgery Instrumentation

Radiation dosimetry

Brain Tumors Radiotherapy

Radioisotope brachytherapy

Brain Tumors Radiotherapy

Proton beams Therapeutic use

Radiation dosimetry

Radioisotope brachytherapy

Radiosurgery

Stereoencephalotomy.

Software Engineering