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Computational modeling and real-time control of patient-specific laser treatment of prostate cancerFuentes, David Thomas A., 1981- 29 August 2008 (has links)
Hyperthermia based cancer treatments delivered under various modalities have the potential to become an effective option to eradicate the disease, maintain functionality of infected organs, and minimize complications and relapse. Moreover, hyperthermia therapies are a form of minimally invasive cancer treatment which are key to improving the quality of life post-treatment. Many modalities are available for delivering the heat source. However, the ability to control the energy deposition to prevent damage to adjacent healthy tissue is a limiting factor in all forms of thermal therapies, including cryotherapy, microwave, radio-frequency, ultrasound, and laser. The application of a laser heat source under the guidance of real-time treatment data has the potential to provide unprecedented control over the temperature field induced within the biological domain. The computational infrastructure developed in this work combines a computational model of bioheat transfer based on a nonlinear version of the Pennes equation for heterogeneous media with the precise timing and orchestration of the real-time solutions to the problems of calibration, optimal control, data transfer, registration, finite element mesh refinement, cellular damage prediction, and laser control; it is an example of Dynamic-Data-Driven Applications System (DDDAS) in which simulation models interact with measurement devices and assimilates data over a computational grid for the purpose of producing high-fidelity predictions of physical events. The tool controls the thermal source, provides a prediction of the entire outcome of the treatment and, using intra-operative data, updates itself to increase the accuracy of the prediction. A precise mathematical framework for the real-time finite element solution of the problems of calibration, optimal heat source control, and goal-oriented error estimation applied to the equations of bioheat transfer is presented. It is demonstrated that current finite element technology, parallel computer architecture, data transfer infrastructure, and thermal imaging modalities are capable of inducing a precise computer controlled temperature field within a biological domain. The project thus addresses a set of problems falling in the intersection of applied mathematics, imaging physics, computational science, computer science and visualizations, biomedical engineering, and medical science. The work involves contributions in the three component areas of the CAM program; A, Applicable Mathematics; B, Numerical Analysis and Scientific Computing; and C, Mathematical modeling and Applications. The ultimate goal of this research is to provide the medical community a minimally invasive clinical tool that uses predictive computational techniques to provide the optimal hyperthermia laser treatment procedure given real-time, patient specific data. / text
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Development of androgen receptor messenger RNA targeted molecular beacons for use in the study of prostate cancer progressionGlick, Cindy Jennifer 31 July 2008 (has links)
Messenger RNA (mRNA) posttranscriptional regulation has been implicated in the development and/or progression of several diseases including many types of cancer, rheumatoid arthritis, vascular disease, and Alzheimer's disease. Differential regulation of Androgen Receptor (AR) mRNA has been associated specifically with prostate cancer progression. In this thesis, molecular beacons were developed to allow for the detection of the expression and localization of AR mRNA in live prostate cancer cells. These beacons were then applied as a tool for studying how AR mRNA regulation is involved in prostate cancer growth and advancement. Two AR mRNA targeted beacons were designed and tested in solution and in live cells to determine their functionality. The beacon-based approach for AR mRNA detection was then optimized through the use of the two beacons in tandem and alteration of their backbone chemistry. A series of validation tests were performed on these beacons, including testing their abilities to: 1) produce a feasible localization pattern, 2) discriminate between AR positive (AR+) and AR negative (AR-) prostate cancer cell lines and 3) follow stimulus-induced changes in AR mRNA expression. Based on these results, a dual chimeric beacon approach was selected to determine the role of AR mRNA regulation in two systems that represent important stages in prostate cancer growth and progression: 1) hormone stimulation of androgen-dependent prostate cancer cells and 2) progression of androgen-dependent prostate cancer cells to the androgen-independent state. Our results suggest that changes in AR mRNA expression, organization, and localization may be indicative of molecular mechanisms involved in these critical transitions associated with prostate cancer progression. Taken together, this work provides a feasibility study for visualizing changes in AR mRNA state as a diagnostic measure for evaluating the aggressiveness of the disease and demonstrates the possible utility of therapeutically targeting AR mRNA regulation in order to prevent prostate cancer advancement.
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Mathematical modeling of normal and cancer prostate signaling pathwaysStamouli, Sofia January 2015 (has links)
The field of systems biology has become very popular as a means to deal with cancer as well as other complex biological issues. It enables scientists to gain an insight into difficult conditions through mathematical approaches that have been developed. Prostate cancer is the second leading cause of death among men after skin cancer and its heterogeneity makes it a complex disease. In this study we focus on three pathways known to play crucial roles in the formation of prostate cancer. By using a mathematical model that combines all of them we describe the interactions taking place during signal transduction in the prostate under normal and cancer conditions.
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ANTI-TUMOR AND RADIO-SENSITIZING PROPERTIES OF AD-IU2, A PROSTATE-SPECIFIC REPLICATION-COMPETENT ADENOVIRUS ARMED WITH TRAILJimenez, Juan Antonio 18 March 2009 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / In this thesis, I investigated the preclinical utility and antitumor efficacy of TRAIL delivered by Ad-IU2, a prostate-specific replication-competent adenovirus (PSRCA), against androgen-independent prostate cancer. Through transcriptional control of adenoviral early genes E1a, E1b and E4, as well as TRAIL by two bidirectional prostate-specific enhancing sequences (PSES), expression of TRAIL as well as adenoviral replication was limited to prostate-specific antigen and prostate-specific membrane antigen (PSA/PSMA)-expressing cells. Ad-IU2 replicated efficiently in and was restricted to PSA/PSMA-positive prostate cancer cells and induced 5-fold greater apoptosis in androgen-independent CWR22rv and C4-2 prostate cancer cells than the PSRCA control not expressing TRAIL. Ad-IU2 exhibited superior killing efficiency in PSA/PSMA-positive prostate cancer cells at doses 5 to 8-fold lower than that required by a non-TRAIL expressing PSRCA to produce a similar effect. This enhanced cytotoxic effect was not observed in non-prostatic cells, however. As an enhancement of its therapeutic efficacy, Ad-IU2 exerted a bystander effect through either direct cell-to-cell contact or soluble factors present in conditioned media from Ad-IU2-infected cells. In vivo, Ad-IU2, as compared to a control PSRCA, markedly suppressed the growth of subcutaneous CWR22rv xenografts at six weeks post-treatment (3.1 vs. 17.1-fold growth of tumor). The treatment of androgen-independent prostate cancer with Ad-IU2 prior to external beam radiation therapy (EBRT) significantly reduced clonogenic survival with dose reduction factors of 4.91 and 2.43 for CWR22rv and C4-2 cells, respectively. Radio-sensitization by Ad-IU2 was restricted to PSA/PSMA-positive cells. Combinatorial radio-gene therapy resulted in accumulation of cells in G1 phase and a perturbation of the radiation-induced G2 phase arrest. This multi-modal approach combining viral lysis, apoptosis-inducing gene therapy, and radiation therapy could have great impact in achieving complete local tumor control while reducing radiation dose and associated treatment morbidities. This would result in improvement of the clinical outcome of patients with high risk prostate cancer.
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Inhibition of Prostate Cancer via Inhibition of Peptidylglycine α-Amidating Monooxygenase (PAM)Bearss, Nicole R. 17 May 2011 (has links)
No description available.
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The Ron Receptor Tyrosine Kinase as a Mediator of Inflammation and TumorigenesisPaluch, Andrew M. 28 June 2016 (has links)
No description available.
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The Pro-cancer Function of Soluble Guanylate Cyclase Alpha-1 in Prostate Cancer ProgressionHsieh, Chen-Lin 08 September 2010 (has links)
No description available.
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La signification pronostique des polymorphismes de gènes de la glucuronidation dans le cancer de la prostate traité par prostatectomie radicaleNadeau, Geneviève 18 April 2018 (has links)
Tableau d’honneur de la Faculté des études supérieures et postdoctorales, 2010-2011 / Le cancer de la prostate (CaP) représente le cancer le plus fréquemment diagnostiqué chez les hommes de plus de 50 ans au Canada. Considérant l'hétérogénéité clinique du CaP, sa dépendance hormonale et une forte suspicion d'une contribution génétique à son étiologie, il apparaît crucial d'examiner si des polymorphismes au niveau des gènes reliés au métabolisme des androgènes et des oestrogènes seraient associés à une évolution clinique plus ou moins agressive du CaP. La glucuronidation est un processus majeur d'inactivation des hormones stéroïdiennes sexuelles. Cinq polymorphismes fonctionnels des enzymes UDP-glucuronosyltransférases (UGT) ont donc été étudiés. Une déficience en UGT2B17 et UGT2B28 a été associée à un risque accru de récidive biochimique post-prostatectomie chez les patients atteints d'un CaP cliniquement localisé. Ces résultats supportent l'hypothèse que des polymorphismes des UGT associés à une activité moindre conduisent potentiellement à des concentrations intracellulaires en androgènes actifs plus élevées, le tout se traduisant par une prolifération cellulaire accélérée et un pronostic moins favorable.
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Nitric oxide donors for the treatment of prostate cancerNortcliffe, Andrew January 2013 (has links)
Chapter One provides a general introduction into the biology and chemistry of nitric oxide, with particular focus on the role of nitric oxide in cardiovascular disease, cancer and hypoxia. It also details the types of organic functional groups used as nitric oxide donors, with detailed discussion of nitrate esters, furoxans and sydnonimines. Chapter Two discusses prostate cancer. It provides an overview into the development of prostate cancer, prostate cancer staging, and treatment. The key molecular aspects of prostate cancer are detailed, and the types of treatment available outlined. Chapter Three details the synthesis and activity of NCX-1102, a nitric oxide-donating analogue of the non-steroidal anti-inflammatory drug sulindac, and the synthetic work in the preparation of analogues of NCX-1102, using nitrate esters, furoxans and sydnonimines as nitric oxide-donating functional groups. The compounds prepared were tested against a prostate cancer cell line (PC3) and the cytotoxicity results are presented. Chapter Four describes the synthesis of nitric-oxide donating analogues of abiraterone, a CYP17 inhibitor for the treatment of prostate cancer. The results of cytotoxicity assays against PC3 cells are detailed. Chapter Five discusses the application of nitric oxide-donating functional groups in tandem with biologically active motifs. The synthesis of nitric oxide-donating amino acids, and their application to the preparation of nitric oxide-donating RGD peptides and prostate-specific membrane antigen inhibitors is presented, along with representative biological evaluation. Chapter Six introduces possible future work for the continuation of the project, suggesting the synthesis of fluorinated sydnonimines, prostate-specific membrane antigen inhibitors combined with for prostate cancer imaging and a “tool-box” of nitric oxide-donating bioconjugation reagents.
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Enhancement of the Chemopreventive and Chemotherapeutic Effects of Genistein and Beta-lapachone in Human Prostate Cancer Cells by Pyroelectrically Generated Very Low Dose Ionizing RadiationUnknown Date (has links)
An estimated 220,800 new prostate cancer cases and 27,540 deaths are expected to occur in US men by the end of 2015. Despite the increased treatment modes for prostate cancer, there is still no definite cure, and prognosis remains, at best, cautiously optimistic. The explicit amalgamation of two or more cancer therapeutic modalities such as surgery, radiation, and chemotherapy, has been one of the main interests of clinical investigation for several decades. Genistein (GN) and Beta-lapachone (BL) are two of the most promising anticancer phytochemical compounds. However, the anticancer activities of BL have been correlated with the enzyme activity of NQO1. The aim of this study was to investigate the enhancing effects of VLDR derived from a portable pyroelectric crystal generator on the chemopreventive and/or chemotherapeutic effects of GN and BL in NQO1+ PC3 and NQO1± (deficient) LNCaP prostate cancer cells (PCa) in vitro. The combination treat ment-induced cytotoxicity was investigated via MTT and Trypan blue exclusion assays. Dicoumarol (an NQO1 inhibitor) was co-administered to assess the effect of VLDR on NQO1 modulation. Nitro-blue tetrazolium assay was used to assess the intracellular ROS levels. Fluorescence microscopy was also used to assess the mode of cell death. In this study, a novel quantitative modeling approach was employed to comparably assess the cytotoxic effects of specific drugs used alone or in combinations with VLDR and to predict the potential synergistic therapeutic combinations. The data suggests that VLDR induced a rise in ROS levels, followed by upregulation in NQO1 levels. Pharmacodynamic indices were developed to quantify and characterize the combination treatment as synergistic, additive or antagonistic per dose or time-interval. Synergism was found to be dose and time-interval dependent. The major mode of cell death by this combination therapeutic regimen was found to be via apoptosis . In conclusion, our results confirm that VLDR enhanced cytotoxicity effects of both drugs dose- and time-dependently. / Includes bibliography. / Thesis (M.S.)--Florida Atlantic University, 2015. / FAU Electronic Theses and Dissertations Collection
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