Characterization of Microbiological and Genetic Features in Prostate Cancer and Their Association With Disease Stage

Trial Title: Characterization of Microbiological and Genetic Features in Prostate Cancer and Their Association With Disease Stage

NCT ID: NCT06505356

Condition: Prostate Cancer
Prostate Inflammation

Conditions: Official terms:
Prostatic Neoplasms
Prostatitis
Inflammation

Study type: Interventional

Study phase: N/A

Overall status: Not yet recruiting

Study design:

Allocation: Randomized

Intervention model: Parallel Assignment

Primary purpose: Diagnostic

Masking: Single (Participant)

Intervention:

Intervention type: Procedure
Intervention name: Prostate biopsy
Description: Transrectal prostate biopsy
Arm group label: Patients with diagnosed prostate cancer after TRUS prostate biopsy
Arm group label: Patients without a prostate cancer diagnosis after TRUS prostate biopsy

Summary: 1. Identify the local inflammatory response in prostate tissue and the systemic response in the blood of patients with prostate cancer, depending on the stage of the disease, and evaluate their prognostic value. 2. Identify the spectrum of microorganisms and antibiotic resistance in patients with prostate cancer prior to prostate biopsy, and assess the risk of complications when using Ciprofloxacin and Fosfomycin. 3. Determine the significance of GAS5, JAZF1, and CTBP2 gene polymorphisms in the development of prostate cancer. 4. Evaluate the association of a specific gene polymorphism with the clinical course of the disease in patients with prostate cancer.

Detailed description: Goal 1: Identify Local Inflammatory Response in Prostate Tissue and Systemic Response in the Blood of Patients with Prostate Cancer Depending on the Stage of the Disease and Evaluate Their Prognostic Value Objective: To investigate and characterize both local and systemic inflammatory responses in prostate cancer patients at various disease stages. Approach: - Local Inflammatory Response: Examine prostate tissue samples to identify markers and levels of inflammation. This involves histological analysis and possibly molecular assays (e.g., PCR, immunohistochemistry). - Systemic Inflammatory Response: Measure inflammatory markers in the blood, such as C-reactive protein (CRP), interleukins (e.g., IL-6), and other cytokines. - Disease Staging: Correlate these inflammatory responses with the stage of prostate cancer (e.g., localized, advanced, metastatic) to understand the progression of the disease. - Prognostic Value: Analyze the data to determine if these inflammatory markers can predict disease progression, response to treatment, and overall prognosis. Expected Outcome: Establish a comprehensive profile of inflammatory responses associated with different stages of prostate cancer and identify potential prognostic biomarkers. Goal 2: Identify the Spectrum of Microorganisms and Antibiotic Resistance in Patients with Prostate Cancer Prior to Prostate Biopsy and Assess the Risk of Complications When Using Ciprofloxacin and Fosfomycin Objective: To profile the microbial flora and antibiotic resistance in prostate cancer patients before biopsy, and evaluate the safety and efficacy of Ciprofloxacin and Fosfomycin. Approach: - Microbial Spectrum: Collect and analyze urine, prostatic fluid, and other relevant samples to identify bacterial species present using culture methods and molecular techniques. - Antibiotic Resistance: Test the identified microorganisms for resistance to common antibiotics, focusing on Ciprofloxacin and Fosfomycin. - Risk Assessment: Review patient outcomes post-biopsy to assess the incidence of complications such as infection and adverse reactions, particularly in relation to the use of the studied antibiotics. - Data Analysis: Correlate microbial profiles and resistance patterns with clinical outcomes to determine the risk factors for complications. Expected Outcome: Develop guidelines for antibiotic use in prostate biopsy procedures based on microbial and resistance profiles to minimize the risk of complications. Goal 3: Determine the Significance of GAS5, JAZF1, and CTBP2 Gene Polymorphism in the Development of Prostate Cancer Objective: To investigate the role of specific gene polymorphisms (GAS5, JAZF1, and CTBP2) in the susceptibility to and development of prostate cancer. Approach: - Genetic Analysis: Collect DNA samples from prostate cancer patients and a control group. Perform genotyping to identify polymorphisms in the GAS5, JAZF1, and CTBP2 genes. - Association Studies: Conduct statistical analyses to compare the frequency of these polymorphisms in patients versus controls. Assess their correlation with the presence and severity of prostate cancer. - Functional Studies: Where possible, explore the biological impact of these polymorphisms on gene expression and function, potentially through in vitro or in vivo models. Expected Outcome: Identify genetic markers that contribute to prostate cancer risk, enhancing understanding of disease mechanisms and potential targets for intervention. Goal 4: Evaluate the Associations of One Gene Polymorphism with the Clinical Course of Disease in Patients with Prostate Cancer Objective: To determine how a specific gene polymorphism influences the clinical trajectory of prostate cancer. Approach: - Polymorphism Selection: Choose a gene polymorphism of interest, potentially based on findings from previous research or Goals 1-3. - Clinical Data Collection: Gather comprehensive clinical data from prostate cancer patients, including disease stage, progression, treatment response, and outcomes. - Genotype-Phenotype Correlation: Perform genetic testing to identify the presence of the polymorphism in these patients. Correlate the genetic data with clinical parameters to assess associations. - Statistical Analysis: Use appropriate statistical methods to determine the significance of the associations between the polymorphism and various clinical aspects of prostate cancer. Expected Outcome: Gain insights into how genetic variations can affect the progression and treatment response in prostate cancer, potentially guiding personalized treatment approaches. Prostate Cancer and Biopsy Related Acronyms: 1. TRUS: Transrectal Ultrasound - A medical imaging technique used to visualize the prostate gland and guide the biopsy needle. 2. PSA: Prostate-Specific Antigen - A protein produced by the prostate gland, elevated levels of which can indicate prostate cancer. 3. Gleason Score: - A grading system used to determine the aggressiveness of prostate cancer based on the microscopic appearance of prostate tissue. Genetic and Molecular Biology Acronyms: 1. GAS5: Growth Arrest Specific 5 - A long non-coding RNA involved in regulating cell growth and apoptosis, often studied in cancer research. 2. JAZF1: JAZF Zinc Finger 1 - A gene associated with various cellular processes, including transcriptional regulation and potentially linked to cancer. 3. CTBP2: C-terminal Binding Protein 2 - A protein that functions as a transcriptional co-repressor, playing a role in gene expression regulation and cancer. 4. PCR: Polymerase Chain Reaction - A laboratory technique used to amplify DNA sequences, making it easier to study genetic material in detail. 5. NGS: Next-Generation Sequencing - Advanced sequencing technologies that allow for rapid and detailed sequencing of large amounts of DNA. Inflammatory Markers: 1. 6Ckine (CCL21): Chemokine (C-C motif) ligand 21 - A cytokine involved in the immune response and potentially linked to inflammation in cancer. 2. Eotaxin (CCL11): Chemokine (C-C motif) ligand 11 - A chemokine that attracts eosinophils and is associated with allergic responses and inflammation. 3. Fractalkine (CX3CL1): Chemokine (C-X3-C motif) ligand 1 - A chemokine involved in immune cell migration and adhesion, playing a role in inflammation and cancer. 4. IFN gamma: Interferon gamma - A cytokine critical for innate and adaptive immunity against viral and intracellular bacterial infections and for tumor control. 5. IL-2: Interleukin 2 - A cytokine that promotes the growth and differentiation of T cells, important in the immune response. 6. IL-6: Interleukin 6 - A cytokine involved in inflammation and infection responses, also linked to cancer progression. 7. IL-8 (CXCL8): Interleukin 8 - A chemokine that attracts neutrophils and is involved in the inflammatory response. 8. IL-10: Interleukin 10 - A cytokine with anti-inflammatory properties, regulating immune responses. 9. IL-18: Interleukin 18 - A cytokine that induces interferon gamma production, playing a role in inflammation and immune responses. 10. MIP-3 beta (CCL19): Macrophage Inflammatory Protein 3 beta - A chemokine involved in immune cell trafficking and inflammatory responses. 11. PDGF-BB: Platelet-Derived Growth Factor BB - A growth factor involved in blood vessel formation and the growth of various cell types. 12. TNF alpha: Tumor Necrosis Factor alpha - A cytokine involved in systemic inflammation and is part of the immune system's response to cancer.

Criteria for eligibility:
Criteria:
Inclusion Criteria: 1. Age: Male patients aged 18 years and older. 2. Diagnosis: Patients who are suspected of having prostate cancer based on clinical data and standard diagnostic protocols. 3. Disease Stage: Patients at any stage of suspected prostate cancer (localized, locally advanced, or metastatic). 4. Consent: Ability and willingness to provide written informed consent. 5. Clinical Data Availability: Availability of comprehensive clinical data. 6. Sample Provision: Willingness to provide blood and/or tissue samples for genetic and inflammatory marker analysis. Exclusion Criteria: 1. Prior Treatment: Patients who have undergone any prior prostate cancer treatments such as surgery, radiation therapy, or systemic therapies (e.g., hormone therapy, chemotherapy). 2. Other Malignancies: Presence of other concurrent malignancies, except for adequately treated basal cell or squamous cell skin cancer. 3. Severe Comorbidities: Patients with severe or uncontrolled comorbid conditions that could interfere with study participation or data interpretation (e.g., severe cardiovascular, pulmonary, hepatic, or renal diseases). 4. Infection: Active infections or other severe medical conditions that could compromise patient safety or study integrity. 5. Non-compliance: Inability to comply with study procedures, follow-up requirements, or any condition that, in the investigator's opinion, could interfere with study participation. 6. Medication Use: Use of medications that could interfere with the study results, such as immunosuppressive drugs. Additional Considerations: - Screening: All potential participants will undergo a screening process to verify eligibility criteria. - Confidentiality: Ensure all patient data is handled in accordance with privacy regulations and ethical guidelines. - Follow-Up: Participants should be willing to attend regular follow-up visits for ongoing data collection and monitoring of disease progression and treatment response. By setting these criteria, the study aims to create a well-defined patient cohort for evaluating the relationship between genetic and inflammatory markers and prostate cancer aggressiveness.

Gender: Male

Gender based: Yes

Gender description: This study includes male participants as defined by their self-identified gender. This approach ensures inclusivity and respects the gender identity of all participants. Participants must have a prostate, which is an organ typically found in males.

Minimum age: 18 Years

Maximum age: 100 Years

Healthy volunteers: No

Start date: September 1, 2024

Completion date: August 30, 2028

Lead sponsor:
Agency: Edgaras Burzinskis
Agency class: Other

Source: Lithuanian University of Health Sciences

Record processing date: ClinicalTrials.gov processed this data on November 12, 2024

Source: ClinicalTrials.gov page: https://clinicaltrials.gov/ct2/show/NCT06505356