Abstract: Embodiments of the disclosure provide a method for treatment of damaged lung tissue, e.g., lungs of a patient with a viral infection (e.g., coronavirus) and/or a bacterial infection and/or a parasitic pathogen or a patient whose lung tissue was damaged by exposure to a chemical, and a patient with acute respiratory distress syndrome (ARDS). Also provided is a method for protecting the brain from neuro-invasion and preventing inflammatory damage to organs remote from the lungs, by blocking cytokine synthesis in the lungs. The treatment includes administering a leptin antagonist (LepA) locally to the upper airways and/or to the lungs of the patient. Typically, the LepA is administered in an inhalable composition, such as, an aerosol.

Abstract: A system for identifying and optionally treating biological material is provided. The system includes a coherent light source for irradiating the biological material and device for collecting light waves reflected from the biological material and transforming the light waves to nanoplasmonic waves. The system also includes a processing module for extracting phase and amplitude information from the nanoplasmonic waves to identify the biological material based on the phase and amplitude information.

Abstract: Embodiments of the disclosure provide a method for treatment of damaged lung tissue, e.g., lungs of a patient with a viral infection (e.g., coronavirus) and/or a bacterial infection and/or a parasitic pathogen or a patient whose lung tissue was damaged by exposure to a chemical, and a patient with acute respiratory distress syndrome (ARDS). Also provided is a method for protecting the brain from neuro-invasion and preventing inflammatory damage to organs remote from the lungs, by blocking cytokine synthesis in the lungs. The treatment includes administering a leptin antagonist (LepA) locally to the upper airways and/or to the lungs of the patient. Typically, the LepA is administered in an inhalable composition, such as, an aerosol.

Abstract: A non-occlusive intravascular device for local application of a therapeutic agent to a selected segment of a lumenal wall of a blood vessel without applying radial force on the wall. The device comprises a radially expandable/collapsible flexible scaffold of an open-skeletal structure and a flexible outer surface capable of conforming to the lumenal wall without applying radial force thereon and a controllable mechanism for expanding and collapsing the scaffold. The therapeutic agent is loaded and carried on the outer surface of the scaffold. Also provided are a method and a system for delivering a therapeutic agent to a selected segment within a blood vessel.

Abstract: A method and device for localized treatment of tissues or organs that were exposed to ischemia and reperfusion (IR) injury, in order to reduce their structural damage and loss of function. The method further includes intra-arterial treatment of transplanted tissues or organs, which are exposed to similar damage of IR and are at risk of impaired function. Leptin antagonist is administered as a bolus injection directly into a re-opened artery, which supplies blood to the tissue or organ involved, immediately after reperfusion. In some cases, after administering a bolus injection of leptin antagonist, the effect of leptin antagonist in the involved organ can be prolonged by deploying a double function drug eluting stent, which elutes leptin antagonist into the lumen, e.g., by sustained release, while eluting antiproliferative drug into the vessel wall to prevent local stenosis, which may appear due to stent deployment.

Abstract: A method and device for localized treatment of tissues or organs that were exposed to ischemia and reperfusion (IR) injury, in order to reduce their structural damage and loss of function. The method further includes intra-arterial treatment of transplanted tissues or organs, which are exposed to similar damage of IR and are at risk of impaired function. Leptin antagonist is administered as a bolus injection directly into a re-opened artery, which supplies blood to the tissue or organ involved, immediately after reperfusion. In some cases, after administering a bolus injection of leptin antagonist, the effect of leptin antagonist in the involved organ can be prolonged by deploying a double function drug eluting stent, which elutes leptin antagonist into the lumen, e.g., by sustained release, while eluting antiproliferative drug into the vessel wall to prevent local stenosis, which may appear due to stent deployment.

Abstract: Devices and methods for treating ischemia and reperfusion injury (IRI) are configured for sustained-release of anti-proliferative drug into the wall of a blood vessel (to prevent in-stent stenosis), and for sustained-release of leptin antagonist into the lumen to be carried by the blood and be uptaken by tissue cells that were subjected to IRI.

Abstract: A non-occlusive intravascular device for local application of a therapeutic agent to a selected segment of a lumenal wall of a blood vessel without applying radial force on the wall. The device comprises a radially expandable/collapsible flexible scaffold of an open-skeletal structure and a flexible outer surface capable of conforming to the lumenal wall without applying radial force thereon and a controllable mechanism for expanding and collapsing the scaffold. The therapeutic agent is loaded and carried on the outer surface of the scaffold. Also provided are a method and a system for delivering a therapeutic agent to a selected segment within a blood vessel.

Abstract: Devices, methods and compositions for treating cardiovascular disorders are configured for sustained-release of leptin antagonist into a blood vessel in order to down-regulate an expression or activity of leptin in a cardiovascular tissue that is affected by a disorder.

Abstract: A method and device for localized treatment of tissues or organs that were exposed to ischemia and reperfusion (IR) injury, in order to reduce their structural damage and loss of function. The method further includes intra-arterial treatment of transplanted tissues or organs, which are exposed to similar damage of IR and are at risk of impaired function. Leptin antagonist is administered as a bolus injection directly into a re-opened artery, which supplies blood to the tissue or organ involved, immediately after reperfusion. In some cases, after administering a bolus injection of leptin antagonist, the effect of leptin antagonist in the involved organ can be prolonged by deploying a double function drug eluting stent, which elutes leptin antagonist into the lumen, e.g., by sustained release, while eluting antiproliferative drug into the vessel wall to prevent local stenosis, which may appear due to stent deployment.

Abstract: Devices and methods for treating ischemia and reperfusion injury (IRI) are configured for sustained-release of anti-proliferative drug into the wall of a blood vessel (to prevent in-stent stenosis), and for sustained-release of leptin antagonist into the lumen to be carried by the blood and be uptaken by tissue cells that were subjected to IRI.

Abstract: Devices, methods and compositions for treating cardiovascular disorders are configured for sustained-release of leptin antagonist into a blood vessel in order to downregulate an expression or activity of leptin in a cardiovascular tissue that is affected by a disorder.

Abstract: A system for identifying and optionally treating biological material is provided. The system includes a coherent light source for irradiating the biological material and device for collecting light waves reflected from the biological material and transforming the light waves to nanoplasmonic waves. The system also includes a processing module for extracting phase and amplitude information from the nanoplasmonic waves to identify the biological material based on the phase and amplitude information.

Abstract: A composition-of-matter for treating cardiovascular disorders and a method of using same are provided. The composition-of-matter includes a leptin antagonist and a carrier configured for localized release of the leptin antagonist.

Abstract: Devices, methods and compositions for treating cardiovascular disorders are configured for sustained-release of leptin antagonist into a blood vessel in order to downregulate an expression or activity of leptin in a cardiovascular tissue that is affected by a disorder.

Abstract: A composition-of-matter for treating cardiovascular disorders and a method of using same are provided The composition-of-matter includes a leptin antagonist and a carrier configured for localized release of the leptin antagonist.

Abstract: Disclosed is a catheter for disconnecting, collecting and removing an intraluminal mass from a luminal aspect of a blood vessel, comprising an elongate catheter body, an elongate tubular element extending proximally from an end of the proximal catheter body portion and an intraluminal mass collector configured for collecting an intraluminal mass from a blood vessel. An exemplary collector has a body portion connected to the proximal portion of the catheter body and a radially expandable portion extending in a proximal direction from the body portion, the expandable portion having a reduced diameter configuration with a reduced cross sectional size and at least one expanded diameter configuration. The exemplary catheter additionally includes a disconnector configured for disconnecting an intraluminal mass from a luminal aspect of a blood vessel located proximally from the collector.

Abstract: A method for extirpating a thrombus from an aorta, comprising positioning a detachment device proximal to a thrombus inside an intact portion of an aorta moving said detachment device to contact said thrombus so as to detach said thrombus from said aortic wall and extirpating said detached thrombus from said lumen.