You are here

Share:

Product Type

Development Stage

Therapeutic Area

Institutes and Centers

Search Technologies

Showing 41-54 of 54 results found

3D Image Rendering Software for Biological Tissues

The Frederick National Laboratory for Cancer Research seeks parties interested in collaborative research to co-develop software for the automatic 3-D visualization of biological image volumes.
  • Diagnostics
  • Software

Assays for Measuring and Quantifying DNA Damage

The National Cancer Institute seeks partners interested in licensing or co-development of assays for determining the levels of gamma-H2AX/H2AX to measure and quantify DNA damage.
  • Diagnostics

Diagnostic Assay for Determining Patient Response to Apoptosis-related Cancer Therapy

Researchers at the National Cancer Institute (NCI) developed a multiplex assay to determine the efficacy of apoptosis-related drugs targeting the Bcl2 family of proteins or aid in the selection of cancer patients likely to respond. The NCI seeks partners for co-development or licensees for commercialization of novel immunoassays for determining or predicting patient response to cancer therapy.
  • Diagnostics

Computer-Aided Diagnostic for Use in Multiparametric MRI for Prostate Cancer

Researchers at the National Institutes for Health Clinical Center (NIHCC) have developed computer-aided diagnostics (CAD) that may further improve the already superior capabilities of multiparametric magnetic resonance imaging (MRI) for detection and imaging of prostate cancer. This system produces an accurate probability map of potential cancerous lesions in multiparametric MRI images that is superior to other systems and may have multiple product applications.
  • Diagnostics
  • Software

MADCO-Accelerated Multidimensional Diffusion MRI

The marginal distribution constrained optimization (MADCO) methodology is disclosed wherein a 2D (or higher-dimensional) spectrum is estimated from initial 1D marginal distribution data. These 1D marginal distributions are used as constraints in the reconstruction of the 2D spectra. MADCO accelerates and improves the reconstruction of multidimensional NMR relaxation/diffusion spectra, making it suitable for MRI applications on a voxel-by-voxel basis by vastly reducing the amount of data acquired and data necessary for creating MRI images.
  • Diagnostics

Time Efficient Multi-Pulsed Field Gradient (mPFG) MRI Without Concomitant Gradient Field Artifacts

The Eunice Kennedy Shriver National Institute of Child Health and Human Development (NICHD) seeks research co-development partners and/or licensees for the development of diffusion tensor distribution imaging (DTD-MRI) in assessing disease (e.g., cancer), normal and abnormal developmental processes, degeneration and trauma in the brain and other soft tissues, and other applications.
  • Diagnostics

Clinical Outcome Predictors for Mantle Cell Lymphoma

The invention is a novel methodology for predicting a mantle cell lymphoma (MCL) cancer patient’s survival prognosis. This information is important in helping determine the best course of treatment for the patient.
  • Diagnostics

Sensitive and Economic RNA Virus Detection Using a Novel RNA Preparation Method

The National Eye Institute seeks research and co-development partners and/or licensees to: (1) advance the production and uses of the new RNA preparation method; (2) manufacture reagent kits for testing in patients with suspected COVID-19 and other DNA/RNA viruses, and (3) manufacture reagent kits for patient biomarker profiles and inherited disease diagnostics.
  • Diagnostics

Near-IR Light-Cleavable Antibody Conjugates and Conjugate Precursors

Researchers at the National Cancer Institute (NCI) developed novel groups of cyanine (Cy) based antibody-drug conjugate (ADC) chemical linkers that undergo photolytic cleavage upon irradiation with near-IR light. By using the fluorescent properties of the Cy linker to monitor localization of the ADC, and subsequent near-IR irradiation of cancerous tissue, drug release could be confined to the tumor microenvironment.
  • Diagnostics
  • Therapeutics

Synthetic Lethality-mediated Precision Oncology via the Tumor Transcriptome

Scientists at the National Cancer Institute (NCI) have developed SELECT (synthetic lethality and rescue-mediated precision oncology via the transcriptome), a computational precision-oncology framework harnessing genetic interactions to improve treatment options for cancer patients. NCI seeks collaborators or licensees to advance the development of this technology into precision diagnostics.
  • Diagnostics

Pages