About This Project
Breast cancer is a pressing global health concern, affecting millions of people every year. Despite advances in treatment, there is a lack of effective and easily accessible biomarkers for early-stage breast cancer detection, resulting in missed opportunities for timely intervention. My project aims to leverage the power of bioinformatical analysis to identify novel blood-secreted biomarkers that can serve as early indicators of breast cancer.
Ask the Scientists
Join The DiscussionWhat is the context of this research?
Breast cancer is a pressing global health concern, affecting millions of people every year. Despite advances in treatment, there is a lack of effective and easily accessible biomarkers, resulting in missed opportunities for timely intervention. Mammography, the primary screening tool currently employed, has limitations in sensitivity and specificity, leading to false negatives and false positives. Analyzing specific biomarkers present in blood samples has already improved the early-detection of leading diseases as lung cancer. Thus, the development of non-invasive, blood-based biomarkers holds immense potential to provide a more effective screening method for breast cancer.
What is the significance of this project?
Breast cancer is typically detected through a combination of methods, including mammograms. However, its effectiveness have been a concern for a long time as well as its inability in detecting small cancers. Early detection has improved outcomes in a variety of diseases. Regular screenings have reduced mortality rates in colorectal cancer, while low-doseCT scans have helped identify lung cancer at an early stage. Recent advances in blood biomarkers have the potential to reduce mortality. In breast cancer, early detection allows for a greater likelihood of higher survival rates. Blood biomarkers offer a non-invasive and accessible method for identifying specific signatures in breast cancer.
What are the goals of the project?
The project goals include conducting an extensive meta-analysis by integrating RNA-seq data from primary breast cancer tissues to identify key genetic signatures. Additionally, the project aims to uncover specific signatures for each type of breast cancer, enabling personalized approaches. Next, the genes will be filtered by blood secretion, confirming their potential as early-biomarkers. These biomarkers will be validated using data from blood samples. The project will employ a range of bioinformatic tools, including meta-analysis, differential expression analysis, and clustering methods. Collectively, these goals aim to leverage bioinformatics to enhance our understanding of breast cancer and pave the way for improved detection strategies.
Budget
High-performance Computing System: Investment in a powerful computer system is essential to handle the large-scale datasets and computationally intensive bioinformatical analyses.
Expert annotations play a crucial role in the accurate interpretation of complex bioinformatical data and ensuring the reliability of the project's findings.
Software and Bioinformatics Tools: Allocate funds for the acquisition of specialized software and bioinformatics tools required for data analysis, visualization, and interpretation. This may include licensed software packages, open-source tools, and bioinformatics databases.
Data Storage and Backup: Invest in a robust data storage system to securely store and manage the vast amount of genomic, proteomic, and transcriptomic data generated during the project. It is crucial to have backup systems in place to prevent data loss and ensure data integrity.
Endorsed by
Project Timeline
RNA-seq data will be accessed and data cleaning will be performed to ensure data quality. Next, bioinformatic tools will be employed to conduct an extensive analysis of the data. Differential expression analysis will be applied and identified biomarkers will be validated using publicly available data from blood samples. Collaboration will help to understand the potential clinical implications. Finally, reports and manuscripts will be written to communicate the results.
Jul 14, 2023
Project Launched
Jul 31, 2023
Data cleaning and normalising
Aug 07, 2023
Bioinformatical analysis
Aug 21, 2023
Data interpretation
Aug 25, 2023
Compile results
Meet the Team
Paula Doria
I am a dedicated and passionate young researcher currently in my second year of a Ph.D. program, specializing in the field of women's reproduction and pregnancy complications. With a strong academic background in biology and biotechnology, I have developed a deep interest in understanding the complexities of reproductive health and contributing to the development of novel solutions in this area.
Throughout my academic journey, I have been actively involved in conducting research and exploring various aspects of women's health. I have a particular focus on identifying and understanding biomarkers that can aid in the early detection and management of pregnancy complications. To achieve this, I have embraced the power of bioinformatics, constantly expanding my knowledge and skills in this field. I believe that integrating bioinformatics into my research enables me to uncover valuable insights and discover new potential biomarkers that can significantly impact clinical practice.
In addition to my current pursuits, I have previous experience working as a cancer researcher in a dynamic start-up environment. This opportunity allowed me to explore the intricate mechanisms underlying cancer development and progression. It also provided me with valuable insights into the importance of translational research and the potential of innovative approaches to improve patient outcomes.
Driven by my passion for research, my dedication to women's health, and my eagerness to learn, I am committed to making meaningful contributions to scientific knowledge and improving the lives of individuals affected by reproductive health issues. I aspire to bridge the gap between basic research and clinical applications, paving the way for personalized and effective treatments in the field of women's health.
Additional Information
By supporting this groundbreaking project, you have the opportunity to be at the forefront of revolutionizing breast cancer detection. I am committed to leveraging the power of bioinformatical analysis to identify novel blood-secreted biomarkers for early detection of breast cancer. Together, we can make a significant impact on global health by saving lives through earlier diagnosis and more effective treatment strategies.
Project Backers
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