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This technology includes genetic manipulation of natural killer (NK) cells to express thrombopoietin receptor (c-MPL) growth factor receptor as strategy to augment NK cell proliferation and anti-tumor immunity. Many investigational adoptive immunotherapy regimens utilizing NK cells require the administration of IL-2 or IL-15 cytokines to support the survival and function of the cells in patients, however administration of these cytokines causes a number of serious dose-dependent toxicities.

This technology includes the method of blocking CD38 in expanded natural killer (NK) cell therapy in combination with daratumumab in patients with multiple myeloma. Our in vitro studies have already confirmed the addition of NK cells to myeloma cells that have been exposed to daratumumab enhances myeloma killing compared to single agent treatment.

This technology includes a peptide containing alternating Alanine and Lys(DOTA-Gd) residues can be used to increase the MRI relaxivity of a peptide. The low molecular weight construct can be appended to proteins, antibodies and peptides to increase MRI signals. This approach offers advantages over previous dendrimeric constructs.

This technology includes a number of RNAs that can induce strong fluorescence of otherwise non-fluorescent small molecules to be used for imaging and analysis of RNA. These RNAs have many potential applications as tags for live-cell imaging of cellular RNAs, as well as reporters for in vitro diagnostics. The "Mango" family of fluorescent RNA-fluorophore complexes has been previously reported.

This technology includes a pair of subsystems for a novel transcatheter bicuspid valve (frame and leaflets) intended for implantation in the mitral position. It is simple, it overcomes key limitations to transcatheter bicuspid mitral valve implants, and it overcomes key limitations to transcatheter tricuspid mitral valve implants.

This technology includes a new class of nanoparticles in the carbon family, fluorescent nanodiamonds (FNDs), exhibiting superb physical and chemical properties for diagnostic imaging applications. We have developed a simple, fast, and robust method to encapsulate FNDs in polydopamine that can be further functionalized. By integrating anatomical and molecular based imaging capabilities, multimodal nanoparticle probes are becoming important in the paradigm shift from conventional to future imaging technologies.

Cell-to-cell heterogeneity in gene expression is a widespread phenomenon, and may play important roles in cellular differentiation, function and disease development. Human Cell Atlas aims to profile gene expression in every single human cells. Recent studies have implicated a potential role of chromatin in the heterogeneity in gene expression. Understanding the mechanisms of cellular heterogeneity requires simultaneous measurement of RNA and occupancy of histone modifications and transcription factors on chromatin due to their critical roles in transcriptional regulation.

This technology includes design enhancements to transcatheter mitral cerclage annuloplasty. They include a device to convert from crossing guidewire to tension element, refinements to the tension element which incorporates a coronary artery protection device, a target/capture/snare device, a wishbone locking device, and a cutting device.

This technology includes a family of transcatheter endovenous intramyocardial tether (MIRTH) procedures to impose myocardial constraint on the LV (MIRTH), LV and RV (SCIMITAR), and cardiac resynchronization procedures. Included is a set of advanced cardiac treatment technologies that focus on minimally invasive procedures for heart patients. The main technology is the transcatheter endovenous intramyocardial tether (MIRTH) procedure, which is designed to apply physical constraint to the left ventricle (LV) of the heart.

This technology includes a novel transcatheter repair for functional mitral valve regurgitation, called mitral cerclage annuloplasty. This includes coronary artery protection for mitral cerclage annuloplasty against inside-out compression from subsequent transcatheter valve-in-ring mitral valve implantation, wherein the ring is created by the cerclage annuloplasty. Cerclage annuloplasty is to create a semi-rigid ring at the level of the mitral annulus.