DNA Methylation Based Non-invasive Blood Diagnostic Assay for Precision Cancer Detection and Classification

This technology includes a panel of 46 genomic loci of DNA methylation (represented by CpG dinucleotides on different chromosomes) with application in blood-based cancer screening. The markers robustly distinguish tumor from normal samples using 8 loci and classify 13 different tumor types. Using 39 loci, inventors were able to discriminate between individual tumor types or peripheral blood. In 4052 tumor samples from 13 tumor types, the true positive rate of classification was 91.4%.

Imaging Inflammation using PET Radioligands that Target Translocator Protein 18?kDa with High Affinity Regardless of Genotype

This technology includes a group of radioligands that label inflammatory cells specifically, accurately, and across different genotypes and can be detected using Positron Emission Tomography (PET). The radioligands target the Translocator protein 18 kDa (TSPO) receptor which is present on the outer mitochondrial membrane and is involved in the production of steroids. Current TSPO radioligands either lack specificity or have highly variable inter-subject sensitivities due to TSPO genotypic differences.

A Diagnostic Kit for Assessing Exposure or Infection by the Koala Family of Retroviruses

This invention relates to a diagnostic kit for assessing exposure to or infection by a koala retrovirus. The kit consists of specific primers and probes for the detection of three distinct subtypes of infectious koala retrovirus and may be useful in various species, including humans, primates, and koalas.

Imaging Inflammation using PET Radioligands that Target Translocator Protein 18?kDa with High Affinity Regardless of Genotype

This technology includes a group of radioligands that label inflammatory cells specifically, accurately, and across different genotypes and can be detected using Positron Emission Tomography (PET). The radioligands target the Translocator protein 18 kDa (TSPO) receptor which is present on the outer mitochondrial membrane and is involved in the production of steroids. Current TSPO radioligands either lack specificity or have highly variable inter-subject sensitivities due to TSPO genotypic differences.

Diagnosis and Treatment of Pediatric Acute Neurologic Syndrome with Antineuronal Antibodies

The invention is a panel of five tests of patient sera for immune responses that may attack the brain and lead to the characteristic symptoms of pediatric acute neurologic syndrome (PANS). PANS is a condition defined by a sudden onset of obsessive-compulsive symptoms, eating restrictions, and other cognitive and/or behavioral symptoms. Currently, the diagnosis of PANS is made when other possible symptoms are ruled out, a diagnosis of exclusion.

Detecting Levels of Chymotrypsin and Amylase using Rabbit Polyclonal Antibodies Generated from Purified Human Enzymes

The invention relates to rabbit antisera raised against purified human chymotrypsin and amylase. Both chymotrypsin and amylase are produced by the pancreas and play important roles in digestion. Abnormal levels of chymotrypsin and amylase have been known to occur with multiple pancreas-related disorders, including pancreatitis. Measuring levels of these two enzymes using these polyclonal antibodies can help determine if a pancreas is functioning correctly.

Radioligand for imaging brain PDE4 subtype D receptors with positron emission tomography

The technology relates to the first radioligands that can be used to image and quantify the enzyme phosphodiesterase subtype D (PDE4D). The PDE4D proteins have a role in carrying out signal transduction pathways in several cell types and is thought to be the key target of various antidepressants. Current work with imaging the radioligands in monkey brains using positron emission tomography (PET) has been successful, and further work with humans is needed.

Automatic brain lesion incidence and detection from multimodal longitudinal magnetic resonance imaging using SuBLIME

This invention relates to methods and algorithms that incorporate information from multiple imaging modalities to identify, estimate the size, and track the time course of brain lesions. Subjects develop brain lesions over the natural course of a disease. Currently, lesions are measured and tracked by a trained neuroradiologist using slice-by-slice inspection, a slow process that is prone to human error and hard to generalize to large observational studies.

HeLa Cells Stably Expressing YFP-Parkin and mt-mKeima to Study Parkinson Disease

This technology includes a cell line that stably expresses YFP-Parkin and mt-mKeima that can be used to study mitochondrial degradation, mitophagy, using flow cytometry (FACS). Compromised mitophagy is implicated in Parkinson disease. The effects of any compounds or genetic alteration on Parkin-mediated mitophagy can be monitored.

Improved cortical lesion detection by MRI using high resolution CSF-suppressed T2*-weighted imaging

This technology is an improvement on the ability to visualize cortical lesions in neurological diseases that cause focal tissue damage to the cortex, including multiple sclerosis (MS). Two approaches are used. The first approach includes optimization of routinely available diffusion-weighted sequences to maximize resolution and contrast, both of which are required to differentiate small cortical lesions from normal-appearing cortex.