PIM-Targeted PROTACs

Proviral Integration for the Moloney murine leukemia virus (PIM) kinases are overexpressed in many solid cancers – including prostate, breast, colon, endometrial, gastric and pancreatic. High of PIM1 expression is predictive of poor survival in multiple cancer types. While several selective pan-PIM inhibitors were developed and tested in clinical trials, all ultimately increased PIM1-3 protein levels and developed intrinsic resistance. 

Potentiating Antibody Therapy for the Treatment of Cancer

This technology includes a strategy to target tumor cells that lost antigen following reaction with a therapeutic antibody by targeting the complement component C3d that has been deposited on target cells by the primary antibody. We previously generated a C3d-specific mouse/human chimeric antibody called C8xi and obtained proof of principle for the approach in two preclinical models. Here we summarize the generation of a new set of C3d targeting antibodies.

Closed-ended Linear Duplex DNA (CELiD or ceDNA) for Non-viral Gene Transfer

This technology includes an alternative source of plasmid DNA produced in eukaryotic cells for non-viral gene transfer, which represent a novel eukaryotic alternative to bacterial plasmid DNA. Once introduced into non-dividing cells, ceDNA persists and transgene expression remains stable whereas plasmid (p) DNA is lost. The ceDNA and transfection reagent complex is nonimmunogenic allowing re-administration as needed: recombinant adeno-associated virus (rMV) is immunogenic precluding repeated administration.

Trans-auricular Left Atrial Appendage Ligation to Prevent Thrombosis

This technology includes an interventional device to occlude the left atrial appendage to prevent thrombus formation. Atrial fibrillation is the most common cardiac arrhythmia and is associated with formation of thrombus in the left atrial appendage. Standard preventative treatment involves anticoagulation, which is not tolerated by all patients. Existing devices necessitate improvement because they need trans-septal puncture and anticoagulation to prevent thrombus or are prone to life-threatening complications.

A Machine Learning Strategy to Improve the Fidelity of Imaging Time-Varying Signals to Improve Clinical Imaging

This technology includes a new technique to improve the fidelity of time-varying signals acquired in the dynamic contrast enhanced (DCE) imaging. This technique enhances the time-varying signals in a given DCE image series through deep convolutional neural networks (CNN) to learn the relationship of signal versus contrast concentration from other series of different contrast doses.

Single Scan Bright-blood and Dark-blood Phase Sensitive Inversion Recovery (PSIR) Late Gadolinium Enhancement (LGE) for Cardiovascular Magnetic Resonance (CMR) Imaging

This technology includes a technique to improves detection of myocardial scar compared with conventional bright-blood late gadolinium enhancement (LGE) techniques. Dark-blood late gadolinium enhancement (DB-LGE) improves tissue delineation with signal suppression of the blood pool based on T2-preparation pulse that is relatively independent from the blood flow velocities and improves scar detection in patients with known or suspected coronary artery disease.

Compatible 3-D Intracardiac Echography Catheter and System for Interventional Cardiac Procedures

This technology includes a versatile intravascular 3D intracardiac echocardiography (ICE) catheter that can operate under conventional X-ray and MRI for use during interventional cardiac procedures. The 3D MRICE and custom, GPU-based, real-time imaging system are also included. Structural heart disease affects more than 2.9% of the US population, and common interventional procedures can be difficult because of limitations in catheter devices and inadequate image guidance.

TSLP Induces Neutrophil-mediated Killing of Methicillin-resistant Staphylococcus Aureus (MRSA)

This technology includes the use of thymic stromal lymphopoetin (TSLP) for the treatment of MRSA. Our studies show that mouse neutrophils express the TSLP receptor, TSLPR, and that TSLP protein is increased during cutaneous MRSA infection. Using in vitro MRSA whole blood killing assays, we show that TSLP acts on mouse neutrophils to enhance MRSA killing. In an in vivo MRSA intradermal ear infection, TSLPR-deficient mice exhibit increased MRSA burden compared to wild-type mice.

Vascular Anchoring Introducer Sheath for Interventional Cardiac Procedures

This technology includes a device and method for maintaining access to a location in the body while reducing or eliminating the potential for pulling an access device (i.e., catheter) back through an opening, such as a cardiac procedure. An introducer sheath includes a distal indented portion and a balloon, so that once placed in a desired location through tissue, the balloon can be inflated to anchor the sheath against retraction.

Free Breathing Motion Corrected Pixel-wise MRI Myocardial T1 Parameter Mapping for Clinical Cardiac Imaging

This technology includes a method for performing cardiac imaging without the need for the patient to hold their breath. Free breathing pixel-wise myocardial T1 parameter mapping includes performing a free-breathing scan of a cardiac region at a plurality of varying saturation recovery times to acquire a k-space dataset; generating an image dataset based on the k-space dataset; and performing a respiratory motion correction process on the image dataset.

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