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SciCrunch Registry is a curated repository of scientific resources, with a focus on biomedical resources, including tools, databases, and core facilities - visit SciCrunch to register your resource.
http://cancer.ucsf.edu/research/cores/biostatistics
The Biostatistics Core provides statistical support for cancer-related research at UCSF, focusing particulary on applications in clinical trials and population studies. The Computational Biology Core supports applications to genomics, genetics and molecular biology. Core faculty have expertise in study design, protocol and proposal development and review, data analysis, and publication of results. Support for Cancer Center investigators participating in established Site Committees is typically handled by the faculty member assigned to that committee. Other requests can be directed to the consulting service request page maintained by the UCSF Clinical & Translational Science Institute (CTSI). These requests will then be assigned to a Core faculty member. Basic consulting services are generally provided free of charge to Cancer Center Members. Members requiring frequent assistance are encouraged to provide regular salary support to a Core statistician when possible to support more extensive requests and for long-term projects. Services: * Study Design * Guidance on Study Conduct * Data Analysis and Reporting of Study Results * Teaching resources
Proper citation: UCSF Helen Diller Family Comprehensive Cancer Center Biostatistics Core (RRID:SCR_005701) Copy
The Terry Fox Foundation is responsible for supporting close to $20 million in discovery based research each year in Canada - all monies raised outside Canada must be distributed to (a) an institute approved by the Foundation and its advisors or (b) remitted to Canada. The Terry Fox Research Institute (TFRI) is a recipient of TFF funding for translational research. TFRI is an exciting new initiative whose goal is to translate rapidly today''s best science into better cancer treatment and diagnosis for all Canadians. The Institute will bring scientists and clinicians together across the country into a functionally integrated, geographically dispersed Institute with nodes in several provinces. Terry Fox was diagnosed with osteogenic sarcoma (bone cancer) in his right leg in 1977 and had his leg amputated 15 cm (six inches) above the knee. While in hospital, Terry was so overcome by the suffering of other cancer patients that he decided to run across Canada to raise money for cancer research. He called his journey the Marathon of Hope. Terry''s Marathon of Hope took place in 1980 with the simple objective of informing Canadians of the importance of finding a cure for cancer. With fierce determination, he ran an average of 42 kilometres (26 miles) every day for 143 days. Terry was forced to end his run on September 1, 1980 when the cancer spread to his lungs. By February 1, 1981, Terry''s dream of raising $1 for every Canadian was realized - the Terry Fox Marathon of Hope fund totaled $24.17 million. Terry died in June 1981. On May 26, 1988, The Terry Fox Run became a Trust, independent from the Canadian Cancer Society, and received tax-exempt charitable registration as a public foundation. In addition to our signature and long-standing National Terry Fox Run Day in September of each year, The Terry Fox Foundation is proud to include in its events portfolio The National School Run Day. The Foundation recognizes the duality of its mandate. Not only does it raise money for research, but it also continues to share the story of Terry Fox. The Terry Fox Foundation strives to maintain the heroic effort and integrity that Terry embodied. It is a grassroots organization that does not allow the Terry Fox name or likeness to be commercialized or conjoined with other worthy causes. To date, over $600 million has been raised worldwide for cancer research in Terry''s name.
Proper citation: Terry Fox Foundation (RRID:SCR_005873) Copy
http://purl.bioontology.org/ontology/NPO
An ontology that represents the basic knowledge of physical, chemical and functional characteristics of nanotechnology as used in cancer diagnosis and therapy.
Proper citation: NanoParticle Ontology (RRID:SCR_010369) Copy
http://bg.upf.edu/transfic/home
A method to transform Functional Impact scores taking into account the differences in basal tolerance to germline SNVs of genes that belong to different functional classes.
Proper citation: TransFIC (RRID:SCR_010788) Copy
A place where people connected to cancer can share real-life experiences -- fears, insights, stories, and advice. Adding perspectives is easy, and every contribution builds the site into a more valuable and unique community resource. Content, resources, and support on wikiCancer: * Just been diagnosed with cancer? * Living with cancer * For cancer survivors * How to support someone with cancer * Connect with other cancer patients, survivors, family and caregivers
Proper citation: wikiCancer (RRID:SCR_001824) Copy
Biomedical research institute in Germany that investigates the mechanisms of cancer and works to identify cancer risk factors. They provide the foundations for developing novel approaches in the prevention, diagnosis, and treatment of cancer and are a member of the Helmholtz Association of National Research Centers. Professor Harald zur Hausen was awarded the Nobel Prize for Medicine for his outstanding scientific contribution to the study of human papillomaviruses (HPV). In addition, the staff of the Cancer Information Service (KID) offers information about the widespread disease of cancer for patients, their families, and the general public. The Center is funded by the German Federal Ministry of Education and Research (90%) and the State of Baden-Württemberg (10%).
Proper citation: German Cancer Research Center (RRID:SCR_012942) Copy
https://portal.imaging.datacommons.cancer.gov
Portal for finding and analyzing cancer imaging data. Part of Cancer Research Data Commons to support cancer imaging research. Provides cloud based access to medical imaging data and library of analytical tools and workflows to share, analyze, and visualize multi modal imaging data from both clinical and basic cancer research studies.
Proper citation: NCI Imaging Data Commons (RRID:SCR_019127) Copy
https://datacommons.cancer.gov
Cloud based data science infrastructure that provides secure access to cancer research data from NCI programs and key external cancer programs. Serves as coordinated resource for public data sharing of NCI funded programs. Users can explore and use analytical and visualization tools for data analysis. Enables to search and aggregate data across repositories including Cancer Data Service, Clinical Trial Data Commons, Genomic Data Commons, Imaging Data Commons, Integrated Canine Data Commons, Proteomic Data Commons.
Proper citation: Cancer Research Data Commons (RRID:SCR_019128) Copy
A cancer research center whose goal is to offer innovative technoligies to spur the develpment of new methods of diagnosing and treating cancer. CNIO contains a variety of programs of investigation, including a biotechnology program, a clinical research program, and a molecular oncology program. CNIO also provides services that allow researchers to access and use technologies and tools such as cytogenetics and monoclonal antibodies, and hosts a biomedical biobank.
Proper citation: Spanish National Cancer Research Center (RRID:SCR_014054) Copy
Ratings or validation data are available for this resource
http://pubs.rsc.org/en/content/articlehtml/2017/LC/C7LC00703E
Equipment that is a magnetic micropore chip for rapid unbiased circulating tumor cell isolation and in situ RNA analysis. The chip detects tumor cells and can help doctors treat patients with these tumors.
Proper citation: CaTCh FISH Chip (RRID:SCR_015810) Copy
Portal to make cancer related proteomic datasets easily accessible to public. Facilitates multiomic integration in support of precision medicine through interoperability with other resources. Developed to advance our understanding of how proteins help to shape risk, diagnosis, development, progression, and treatment of cancer. One of several repositories within NCI Cancer Research Data Commons which enables researchers to link proteomic data with other data sets (e.g., genomic and imaging data) and to submit, collect, analyze, store, and share data throughout cancer data ecosystem. PDC provides access to highly curated and standardized biospecimen, clinical, and proteomic data, intuitive interface to filter, query, search, visualize and download data and metadata. Provides common data harmonization pipeline to uniformly analyze all PDC data and provides advanced visualization of quantitative information. Cloud based (Amazon Web Services) infrastructure facilitates interoperability with AWS based data analysis tools and platforms natively. Application programming interface (API) provides cloud-agnostic data access and allows third parties to extend functionality beyond PDC. Structured workspace that serves as private user data store and also data submission portal. Distributes controlled access data, such as patient-specific protein fasta sequence databases, with dbGaP authorization and eRA Commons authentication.
Proper citation: Proteomic Data Commons (RRID:SCR_018273) Copy
https://proteomics.cancer.gov/programs/cptac
Clinical proteomic tumor analysis consortium to systematically identify proteins that derive from alterations in cancer genomes and related biological processes, in order to understand molecular basis of cancer that is not possible through genomics and to accelerate translation of molecular findings into clinic. Operates through Proteome Characterization Centers, Proteogenomic Translational Research Centers, and Proteogenomic Data Analysis Centers. CPTAC investigators collaborate, share data and expertise across consortium, and participate in consortium activities like developing standardized workflows for reproducible studies.
Proper citation: CPTAC (RRID:SCR_017135) Copy
Project to create network based understanding of biology by cataloging changes in gene expression and other cellular processes when cells are exposed to genetic and environmental stressors. Program to develop therapies that might restore pathways and networks to their normal states. Has LINCS Data Coordination and Integration Center and six Data and Signature Generation Centers: Drug Toxicity Signature Generation Center, HMS LINCS Center, LINCS Center for Transcriptomics, LINCS Proteomic Characterization Center for Signaling and Epigenetics, MEP LINCS Center, and NeuroLINCS Center.
Proper citation: LINCS Project (RRID:SCR_016486) Copy
http://www.capitalbiosciences.com/
Biological products including Cell Immortalization Products, Clinically Defined Human Tissue, cDNA ORF Clones, Premade Adenoviruses, Purified Proteins, Viral Expression Systems and others as well as services like Custom Recombinant Adenovirus Production, Custom Recombinant Lentivirus Production, Protein Detection and Quantification and Stable Cell Line Production for academic and governmental research institutes, pharmaceutical and biotechnology industry. Capital Biosciences offers most types of human tissues, normal and diseased, with extensive clinical history and follow up information. Standard specimen format: Snap-frozen(flash-frozen), Formalin fixed and paraffin embedded (FFPE) tissues, Blood and blood products, Bone marrow, Total RNA, Genomic DNA, Total Proteins, Primary cell cultures, Viable frozen tissue. Tumor tissue samples include: Bladder cancer, Glioblastoma, Medulloblastoma, Breast Carcinoma, Cervical Cancer, Colorectal Cancer, Endometrial Cancer, Esophageal Cancer, Head and Neck (H&N) Carcinoma, Hepatocellular Carcinoma (HCC), Hodgkin's lymphoma, Kidney, Renal Cell Carcinoma, Lung Cancer, Non-Small Cell (NCSLC), Lung Cancer, Small Cell (SCLC), Melanoma, Mesothelioma, non-Hodgkin's Lymphoma, Ovarian Adenocarcinoma, Pancreatic Cancer, Prostate Cancer, Stomach Cancer.
Proper citation: Capital Biosciences (RRID:SCR_004879) Copy
Founded in 1995, the Southeastern Brain Tumor Foundation (SBTF), a 501c3 not-for-profit charitable foundation, is devoted to improve the quality of life for brain tumor patients and their families. By offering information, education and support services, we aspire to instill hope, knowledge and comfort to all involved. The Southeastern Brain Tumor Foundation also raises funds for research and medical personnel so that a cure can be found. For over a decade, the SBTF has become a well-known fundraising entity supporting critical, cutting edge brain tumor research at major medical centers in the Southeast. Our annual Race for Research held in Atlanta, Georgia each summer, is our main fundraising event popular throughout Atlanta and the surrounding metropolitan area and has funded over $1.2 million dollars in research grants to leading researchers at major medical centers throughout the Southeast over the past decade. We are proud of our dedicated, all volunteer Board of Directors who meet monthly. Our Board is a diverse group comprised of individuals who''ve been touched by brain tumors in many different ways. Ranging from patients and family members to healthcare professionals; we are all committed to promoting the awareness of brain tumors in the community, communicating with patients and families and raising critical funds for research grants furthering advancements in the treatment of brain tumors. Our monthly support group, lead by a nurse practitioner, welcomes patients and their families to sit side by side with each other, share their experiences, communicate and receive support. As a neurosurgeon-scientist focused on the treatment of patients with brain tumors, I am committed to advancing the mission of SBTF forward in the fight against brain tumors. Our ability to serve the brain tumor community is dependent on each of you. Whether you support us with a financial donation in our fundraising efforts or with your time as a volunteer, each of you are a vital and integral part of our success and we thank you.
Proper citation: Southeastern Brain Tumor Foundation (RRID:SCR_004768) Copy
http://odin.mdacc.tmc.edu/~xsu1/VirusSeq.html
An algorithmic software tool for detecting known viruses and their integration sites using next-generation sequencing of human cancer tissue. VirusSeq takes FASTQ files (paired-end reads) as input.
Proper citation: VirusSeq (RRID:SCR_005206) Copy
http://snpeff.sourceforge.net/
Genetic variant annotation and effect prediction software toolbox that annotates and predicts effects of variants on genes (such as amino acid changes). By using standards, such as VCF, SnpEff makes it easy to integrate with other programs.
Proper citation: SnpEff (RRID:SCR_005191) Copy
http://gmt.genome.wustl.edu/somatic-sniper/current/
Software program to identify single nucleotide positions that are different between tumor and normal (or, in theory, any two bam files). It takes a tumor bam and a normal bam and compares the two to determine the differences. It outputs a file in a format very similar to Samtools consensus format. It uses the genotype likelihood model of MAQ (as implemented in Samtools) and then calculates the probability that the tumor and normal genotypes are different. This probability is reported as a somatic score. The somatic score is the Phred-scaled probability (between 0 to 255) that the Tumor and Normal genotypes are not different where 0 means there is no probability that the genotypes are different and 255 means there is a probability of 1 ? 10(255/-10) that the genotypes are different between tumor and normal. This is consistent with how the SAM format reports such probabilities. It is currently available as source code via github or as a Debian APT package.
Proper citation: SomaticSniper (RRID:SCR_005108) Copy
Tool for calling indels in Tumor-Normal paired sample mode.
Proper citation: SomaticIndelDetector (RRID:SCR_005107) Copy
A biomedical research institute that aims to understand and develop more effective treatments for human disease, focusing on critical research areas such as heart disease, cancer, lupus and Alzheimer's disease.
Proper citation: Oklahoma Medical Research Foundation (RRID:SCR_005287) Copy
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