Dose painting to combat tumor hypoxia while sparing urethra in prostate IMRT: a biologically based adaptive approach accounting for setup uncertainties and organ motion

Yin, Lingshu

11 1900

Enhanced resistance to radiation could be caused by both chronic hypoxia and acute hypoxic which has been reported in prostate cancer in various studies. Therefore currently used dose prescriptions (70Gy in 35 fractions) for external beam radiation therapy (EBRT) of prostate cancer has been suggested insufficient to provide optimum clinical outcome. In this study, we propose a Biologically Guided Radiation Therapy approach to boost dose in hypoxic prostate tumor regions while sparing the urethra. A previously proposed hypoxia model was modified for prostate cancer and incorporated into treatment plan optimization. The concept of equivalent uniform dose (EUD) was used in the optimization and evaluation of results. CT data from 25 prostate cancer patients who recently received EBRT at the British Columbia Cancer Agency (BCCA) and hypothetical hypoxic regions manually drawn on these CT scans were selected for this study. The results show that our methods could boost dose in target volume to substantially higher levels. EUD of planning target volume increased to more than 80Gy, despite accounting for effects of hypoxia. This increase was achieved with only minor changes in dose in normal tissues, typically less than 5Gy. Notably, urethra sparing was excellent with a EUD around 64Gy. Robustness of the proposed approach is verified against various hypoxic settings. EUD comparison between RT plans in biological guided and conventional approaches using the same RT technique (Volumetric Modulated Arc Therapy) also suggests that biologically guided radiation therapy (BGRT) approach is more suitable for dose painting purposes with the advantage of delivering sufficient dose to hypoxia region in different scenarios and sparing normal tissue better. Furthermore, we also investigated the impact of inter-fraction patient set-up error and intra-fraction organ motion on the high dose gradients achieved with this proposed dose painting method and explored the feasibility of adapting geometrical uncertainties (represented as systematic error and random error) into treatment planning. Image error obtained from EPID images are used to derive systematic uncertainty and random uncertainty. During the geometrical uncertainty adapted optimization, dose matrix in PTV is shifted based on systematic error and convolved with a Gaussian kernel which is pre-calculated using random error. CT sets and organ contours from five patients who enrolled in the previous dose painting i study are selected. For each of them, seven plans are generated using cumulated uncertainty data which was collected after every five fractions. We also present the outcome in terms of equivalent uniform dose (EUD). For four of the patients, EUD history of all seven plans suggests using the proposed optimization method with uncertainty data from the first five fractions, it is possible to achieve the same target coverage of static treatment plans (difference in EUD less than 1Gy). Meanwhile, the elimination of PTV margin also leads to a significant dose reduction (more than 15Gy) in rectum.

Medical physics

Radiation therapy

Prostate cancer

IMRT

Causes and Consequences of Genomic Instability in Prostatic Carcinogenesis

Joshua, Anthony

24 September 2009

The evolution of prostate cancer from normal epithelium via the preneoplastic lesion of high-grade prostatic intraepithelial neoplasia to invasive carcinoma is characterised by a number of particular genomic abnormalities that are predominantly generated in the preneoplastic phase. Whilst there are numerous candidates for the cause of these alterations, telomere dysfunction is thought to be a major contributor. Telomeres are the terminal ends of human chromosomes, and when dysfunctional can lead to break-fusion-bridge cycles and multi-polar mitoses that generate numerical and structural chromosomal instability. The results presented reinforce the association of telomere dysfunction with the generation of certain markers of genomic instability such as abnormalities of the arms of chromosome 8. Furthermore, this work clarifies that the TMPRSSS2-ERG aberrations are not telomere related phenomena and are associated with a genomic deletion in a proportion of cases. Similarly, the PTEN microdeletions did not appear to have an association with telomere attrition. A previously unrecognised association between the telomere length in various types of prostatic epithelia and adjacent stroma is defined, suggesting evidence of a micro-environmental field effect in the generation of prostatic neoplasia. Finally, when examined retrospectively, it appears that telomere attrition, both in the HPIN epithelium and the stroma has independent prognostic value in the diagnosis of prostate cancer after a previous diagnosis of HPIN. Taken together, the research presented suggests important avenues for further research to determine the nature of barriers to the evolution of prostatic carcinogenesis such as oncogene- and telomere-induced senescence that may be exploited for therapeutic gain. These understandings may also help tailor management for prostate cancer such as risk stratification for men with HPIN and the use of targeted agents such as AKT inhibitors and telomerase inhibitors. In more advanced disease, translational application of this work has enabled a clinical trial of cytarabine in the treatment of metastatic hormone refractory prostate cancer.

Prostate Cancer

Genomic Instability

FISH

Telomere

0992

Causes and Consequences of Genomic Instability in Prostatic Carcinogenesis

Joshua, Anthony

24 September 2009

The evolution of prostate cancer from normal epithelium via the preneoplastic lesion of high-grade prostatic intraepithelial neoplasia to invasive carcinoma is characterised by a number of particular genomic abnormalities that are predominantly generated in the preneoplastic phase. Whilst there are numerous candidates for the cause of these alterations, telomere dysfunction is thought to be a major contributor. Telomeres are the terminal ends of human chromosomes, and when dysfunctional can lead to break-fusion-bridge cycles and multi-polar mitoses that generate numerical and structural chromosomal instability. The results presented reinforce the association of telomere dysfunction with the generation of certain markers of genomic instability such as abnormalities of the arms of chromosome 8. Furthermore, this work clarifies that the TMPRSSS2-ERG aberrations are not telomere related phenomena and are associated with a genomic deletion in a proportion of cases. Similarly, the PTEN microdeletions did not appear to have an association with telomere attrition. A previously unrecognised association between the telomere length in various types of prostatic epithelia and adjacent stroma is defined, suggesting evidence of a micro-environmental field effect in the generation of prostatic neoplasia. Finally, when examined retrospectively, it appears that telomere attrition, both in the HPIN epithelium and the stroma has independent prognostic value in the diagnosis of prostate cancer after a previous diagnosis of HPIN. Taken together, the research presented suggests important avenues for further research to determine the nature of barriers to the evolution of prostatic carcinogenesis such as oncogene- and telomere-induced senescence that may be exploited for therapeutic gain. These understandings may also help tailor management for prostate cancer such as risk stratification for men with HPIN and the use of targeted agents such as AKT inhibitors and telomerase inhibitors. In more advanced disease, translational application of this work has enabled a clinical trial of cytarabine in the treatment of metastatic hormone refractory prostate cancer.

Prostate Cancer

Genomic Instability

FISH

Telomere

0992

Point-Based Registration of Brachytherapy Implants

Gordon, Lauren Elizabeth

04 January 2012

Prostate brachytherapy, a treatment for prostate cancer, was a procedure that typically involved placing radioactive sources in a cancerous prostate using percutaneous needles. The placement of these sources determined the dose that the prostate and healthy tissues surrounding it received. However, because a needle could bend, tissue could deform, and a patient could move, each source may have been displaced from its planned position. This source misplacement could later cause some cancer to be spared or healthy organs to be further damaged. To better understand patterns of source misplacement, and eventually reduce the phenomenon, this work matched and registered implanted sources with their planned positions. Each implant was registered to its plan using a sequence of four successive registrations. A rough initial registration was first found, using features known in the planned dataset and estimated from the implanted dataset. Second, subsets of sources were reconstructed in the implanted dataset. The implanted sources were next matched to the planned sources using the subsets as constraints. Finally, the optimal rigid transformation between the implants and the plan was found. The algorithm was tested on both simulated and clinical datasets. Simulations placed limits on how properties of the subsets affected registration accuracy. When tested on 9 clinical datasets, the algorithm found 100% of correct plan-implant source matches within seconds on commonly available computers. When the implanted strands were reconstructed as sine waves, 97% of t strands had an amplitude of less than 2mm. The clinical accuracy result generally agreed with simulation: subsets with amplitudes less than 2mm were expected to produce an accuracy >90%. The high accuracy of the algorithm may enable its use in finding patterns of source misplacement. The fast run-time of the algorithm may additionally make it useful for use in a clinical setting. / Thesis (Master, Computing) -- Queen's University, 2011-12-23 13:28:07.348

Medical computing

Brachytherapy

Registration

Prostate cancer

Ganglioside Increases Metastatic Potential and Susceptibility of Prostate Cancer to Gene Therapy in vitro

Miklavcic, John

Unknown Date

No description available.

ganglioside

prostate cancer

adenovirus

metastasis

gene therapy

Abnormal MEK5/ERK5 signalling in prostate cancer : potentials for clinical application

McCracken, Stuart R. C.

January 2008

No description available.

616.99463

Effects of Biophysical Parameters in Radiosensitizing Prostate Tumours with Ultrasound-stimulated Microbubbles

Kim, Hyunjung

18 March 2013

We demonstrate here that ultrasound-stimulated microbubbles can lead to enhanced cell death within tumors when combined with radiation. The aim of this study was to investigate different ultrasound parameters in conjunction with different concentrations of microbubbles with regards to this effect. Prostate xenograft tumors in Severe Combined Immunodeficient mice were subjected to ultrasound treatment that involved various peak negative pressures (250 kPa, 570 kPa, and 750 kPa), microbubble concentrations (8 µL/kg, 80 µL/kg, and 1000 µL/kg), and different radiation doses (0 Gy, 2 Gy, and 8 Gy). Twenty-four hours after treatment, tumors were excised and assessed for cell death. Histological analyses demonstrated that increases in radiation dose, microbubble concentration, and ultrasound pressure promoted apoptotic cell death and cellular disruption within tumors. Comparable increases in ceramide, a cell death mediator, were identified using immunohistochemistry. We also demonstrate that clinically-utilized microbubble concentrations combined with ultrasound can induce an enhancement in cell death.

Ultrasound

Microbubbles

Radiosensitization

Prostate Cancer

0760

Effects of Biophysical Parameters in Radiosensitizing Prostate Tumours with Ultrasound-stimulated Microbubbles

Kim, Hyunjung

18 March 2013

We demonstrate here that ultrasound-stimulated microbubbles can lead to enhanced cell death within tumors when combined with radiation. The aim of this study was to investigate different ultrasound parameters in conjunction with different concentrations of microbubbles with regards to this effect. Prostate xenograft tumors in Severe Combined Immunodeficient mice were subjected to ultrasound treatment that involved various peak negative pressures (250 kPa, 570 kPa, and 750 kPa), microbubble concentrations (8 µL/kg, 80 µL/kg, and 1000 µL/kg), and different radiation doses (0 Gy, 2 Gy, and 8 Gy). Twenty-four hours after treatment, tumors were excised and assessed for cell death. Histological analyses demonstrated that increases in radiation dose, microbubble concentration, and ultrasound pressure promoted apoptotic cell death and cellular disruption within tumors. Comparable increases in ceramide, a cell death mediator, were identified using immunohistochemistry. We also demonstrate that clinically-utilized microbubble concentrations combined with ultrasound can induce an enhancement in cell death.

Ultrasound

Microbubbles

Radiosensitization

Prostate Cancer

0760

Ganglioside Increases Metastatic Potential and Susceptibility of Prostate Cancer to Gene Therapy in vitro

Miklavcic, John

11 1900

Prostate cancer (CaP) is the 2nd most common cancer in North American men. Tumour management strategies are appropriate for early stage disease, but advanced disease has a poor prognosis and requires prompt treatment. Therefore, research into delay of tumour progression and efficacious treatment of aggressive cancer are of interest. Ganglioside was assessed for its role in altering markers of metastatic potential and susceptibility of CaP to adenovirus-mediated gene therapy. Healthy (RWPE-1) and malignant (DU-145, PC-3) prostate cells were cultured with or without mixed ganglioside. Differences in growth, ganglioside and integrin densities, and adenoviral infectivity were assessed between treatment and control groups. Ganglioside decreased (p<0.01) growth of PC-3 cells relative to untreated control. Ganglioside decreased (p<0.01) GD1a and increased (p<0.04) integrin densities in malignant prostate cells, suggesting ganglioside may increase metastatic potential of CaP. Ganglioside significantly increased adenovirus entry in PC-3 cells, thereby improving susceptibility of CaP to adenovirus-mediated gene therapy. / Nutrition and Metabolism

ganglioside

prostate cancer

adenovirus

metastasis

gene therapy

The role of microorganisms in prostate cancer development

Bergh Drott, Johanna

January 2012

Prostate cancer is the most common cancer among Swedish men, but the aetiology of this disease is largely unknown. There is evidence for a linkage between chronic inflammation and prostate cancer. The mechanisms causing prostate inflammation and how this could promote tumour development and progression are however largely unknown. Chronic inflammatory infiltrates are common findings in prostate tissue samples and infection is proposed to be one possible cause for this inflammation. Inflammatory cells release free radicals, cytokines, and growth factors that facilitate increased cell proliferation, DNA damage, mutations, and angiogenesis. However, the present literature on the presence of microbes in prostate tissue and their possible linkage to inflammation and cancer development is limited. Therefore, the aim of this thesis was to investigate if microorganisms are present in prostate tissue and to evaluate their role in inducing prostatitis and prostate epithelial neoplasia. The presence of microorganisms (virus, bacteria and fungi) was studied in clinical prostate tissue samples to evaluate whether or not the occurrences of microorganisms were different in patients that later developed cancer compared with matched controls that did not. Viruses, bacteria and fungi were found in prostate tissues. Out of eight different viruses investigated, EBV and JC virus were detected, but there were no differences in occurrence in the case group compared to the control group. The fungus Candida albicans was present in a very small proportion of the prostate tissue samples. The predominant bacterium was Propionibacterium acnes and the second most prevalent was Escherichia coli. The presence of Propionibacterium acnes was associated with inflammation and subsequent prostate cancer development. Propionibacterium acnes was further evaluated for its capacity to induce an inflammatory response both in vitro and in vivo. Live Propionibacterium acnes induced a strong immune reaction in prostate epithelial cells in vitro with up-regulation of inflammatory genes and secretion of pro-inflammatory cytokines. Infection with Propionibacterium acnes in rat prostate resulted in a lobe specific inflammation with the most intense inflammation in the dorso-lateral prostate, lasting up to 3 months post-inoculation. Propionibacterium acnes inflammation was also associated with altered epithelial cell morphology, signs of DNA damage and increased cell proliferation. Taken together, this thesis shows that different viruses and bacteria can be found in prostate tissue. Propionibacterium acnes, the most abundant among the bacteria detected and more prevalent in the cancer than in the control group, exhibits strong prostatitis promoting properties both in vitro and in vivo. In addition, Propionibacterium acnes can induce some of the epithelial changes known to occur during prostate neoplasia formation. This thesis therefore suggests that Propionibacterium acnes induced chronic prostatitis could promote prostate cancer development. Further studies are needed to elucidate the molecular interplay linking Propionibacterium acnes induced inflammation and the formation of a pre-neoplastic state that could evolve into prostate cancer.

prostate cancer

aetiology

inflammation

Propionibacterium acnes