Abstract: Described herein are nucleic acid detection systems, devices, and kits having a CRISPR component comprising an effector protein and a guide RNA, and/or a polynucleotide encoding a guide RNA, that binds or hybridizes to a corresponding target molecule. Also described herein are methods that utilize these nucleic acid systems, devices, and kits.

Abstract: Components with relatively high loading of active pharmaceutical ingredients (e.g., drugs), are generally provided. In some embodiments, the component (e.g., a tissue interfacing component) comprises a solid therapeutic agent (e.g., a solid API) and a supporting material (e.g., a binder such as a polymer) such that the solid therapeutic agent is present in the component in an amount of greater than or equal to 10 wt % versus the total weight of the tissue interfacing component. Such tissue-interfacing components may be useful for delivery of API doses e.g., to a subject. Advantageously, in some embodiments, the reduction of volume required to deliver the required API dose as compared to a liquid formulation permits the creation of solid needle delivery systems for a wide variety of drugs in a variety of places/tissues (e.g., tongue, GI mucosal tissue, skin) and/or reduces and/or eliminates the application of an external force in order to inject a drug solution through the small opening in the needle.

Abstract: This disclosure relates to compositions including formulated sucralfate or other aluminum-crosslinked sulfated agents for delivery of agents to biological surfaces and/or the modulation of nutrient absorption through the intestinal lining as well as methods for the manufacture of and the use of these compositions for treating disorders including diabetes type II and clinical obesity that require a modulation of certain nutrients to the body.

Abstract: An implantable, autonomously growing medical device is disclosed. The device may have an outer, braided outer element that holds an inner core. Degradation and/or softening of the inner core permits the outer element to elongate, allowing the device to grow with surrounding tissue. The growth profile of the medical device can be controlled by altering the shape/material/cure conditions of the inner core, as well as the geometry of the out element.

Abstract: The invention involves, inter alia, the use of markers of systemic inflammation to determine whether or not an individual undergoing treatment with a cardiovascular agent to reduce the risk of a future cardiovascular event will benefit from continued treatment with the cardiovascular agent. Further, this invention describes the use of markers of systemic inflammation to evaluate the efficacy of treatment and to assist physicians in deciding on the course of a treatment in an individual at risk of future cardiovascular events.

Abstract: The present disclosure provides a system comprising a communication interface and computer for assigning a label to the biomolecule fingerprint, wherein the label corresponds to a biological state. The present disclosure also provides a sensor arrays for detecting biomolecules and methods of use. In some embodiments, the sensor arrays are capable of determining a disease state in a subject.

Abstract: The methods described herein include methods for the treatment of subjects who have Clonal Hematopoiesis of Indeterminate Potential (CHIP) or a Philadelphia-negative myeloproliferative neoplasm (MPN), e.g., polycythaemia vera (PV) or essential thrombocythaemia (ET), using inhibitors of JAK-STAT signaling.

Abstract: This disclosure relates to methods of using shear-thinning compositions in the treatment of a vascular disorders, cancers, infections, abscesses, and fistulas.

Abstract: This invention relates generally to compositions and methods for identifying the regulatory network that modulates, controls or otherwise influences T cell balance, for example, Th17 cell differentiation, maintenance and/or function, as well compositions and methods for exploiting the regulatory network that modulates, controls or otherwise influences T cell balance in a variety of therapeutic and/or diagnostic indications. This invention also relates generally to identifying and exploiting target genes and/or target gene products that modulate, control or otherwise influence T cell balance in a variety of therapeutic and/or diagnostic indications.

Abstract: Self-actuating articles including, for example, self-actuating needles and/or self-actuating biopsy punches, are generally provided. Advantageously, the self-actuating articles described herein may be useful as a general platform for delivery of a wide variety of pharmaceutical drugs that are typically delivered via injection directly into tissue due to degradation in the GI tract. The self-actuating articles described herein may also be used to deliver sensors and/or take biopsies without the need for an endoscopy. In some embodiments, the article comprises a spring (e.g., a coil spring, a beam, a material having particular mechanical recovery characteristics).

Abstract: The systems and methods described herein determine metrics of cardiac performance via a mechanical circulatory support device and use the cardiac performance to calibrate, control and deliver mechanical circulatory support for the heart. The systems include a controller configured to operate the device, receive inputs indicative of device operating conditions and hemodynamic parameters, and determine vascular performance, including vascular resistance and compliance, and native cardiac output. The systems and methods operate by using the mechanical circulatory support device (e.g., a heart pump) to introduce controlled perturbations of the vascular system and, in response, determine heart parameters such as stroke volume, vascular resistance and compliance, left ventricular end diastolic pressure, and ultimately determine native cardiac output.

Abstract: A system for delivering an injection of a fluid into a void within a subject is disclosed. A barrel extends from a first end to a second end and forms a lumen extending from the first end to the second end. A plug and a floating seal are arranged within the lumen. A hollow needle includes a distal end with an opening for fluid to flow from the lumen. The plug, the barrel and the floating seal include material and dimensions selected based on a threshold flowrate for a fluid arranged within the lumen to: overcome a force opposed to a force being applied to the fluid in the lumen to move the floating seal and the hollow needle into a tissue of the subject, and succumb to the opposing force to displace the fluid through the opening into the void.

Abstract: Implementations of a uterine manipulator operable to detach the uterus and cervix from the vagina are presented. The uterine manipulator can include a shaft, a handle, a tip assembly, and a cutting assembly.

Abstract: Provided herein are methods of detecting an antibody directed against a pathogen and uses thereof.

Abstract: In one aspect, the present invention features method of identifying a cell resistant to a modulator of Cereblon (CRBN). In another aspect, the present invention features a method of characterizing sensitivity of a subject to a modulator of CRBN. In yet another aspect, the present invention features a method of monitoring sensitivity of a subject to a modulator of CRBN.

Abstract: In some embodiments, a method of fabricating a skin wound patch includes preparing a biopolymeric solution comprising chitosan, collagen, chondroitin sulfate, elastin, hyaluronic acid, follistatin-like 1 (FSTL-1), iron oxide nanoparticles, and AC2-26 peptide, filtering the biopolymeric solutions through a filter membrane, extruding the biopolymeric solution through an extrusion device to form a nanofibrous composite, collecting the extruded nanofibrous composite on a sterilized plate, and drying the extruded nanofibrous composite into a solid patch. In some embodiments, a skin wound patch includes homogeneously distributed biomolecules, skin materials, pro-inflammatory, and antibacterial agents. In further embodiments, a method of treating a chronic skin wound in a subject in need thereof can include applying any of the patches described herein.

Abstract: The present disclosure provides a system comprising a communication interface and computer for assigning a label to the biomolecule fingerprint, wherein the label corresponds to a biological state. The present disclosure also provides a sensor arrays for detecting biomolecules and methods of use. In some embodiments, the sensor arrays are capable of determining a disease state in a subject.

Abstract: Described herein are compositions and methods relating to LAP-binding agents, including, for example, anti-LAP antibodies, and to their use in methods of treatment of cancer. LAP-binding agents affected both systemic and intra-tumor immunity and were shown effective to treat a broad spectrum of cancer types.

Abstract: In accordance with an aspect of the present disclosure, an apparatus for suturing tissue is provided that includes a body having a proximate end and a distal end. A suturing head is coupled to the distal end of the body, including a first set of curved needles, a second set of curved needles, and a plurality of sutures. A first end of a suture is coupled to one of the curved needles of the first set. A second end of the suture is coupled to one of the curved needles of the second set. The curved needles of the first set are oppositely oriented to the curved needles of the second set. The suturing head can be positioned between two substantially parallel sections of tissue. An actuator is coupled to the body to deploy the first and second sets of curved needles.

Abstract: The present invention relates to compositions and methods for treating early T-cell precursor acute lymphoblastic leukemia (ETP T-ALL).