Abstract: An impeller includes a hub and a blade supported by the hub. The impeller has a stored configuration in which the blade is compressed so that its distal end moves towards the hub, and a deployed configuration in which the blade extends away from the hub. The impeller may be part of a pump for pumping fluids, such as blood, and may include a cannula having a proximal portion with a fixed diameter, and a distal portion with an expandable diameter. The impeller may reside in the expandable portion of the cannula. The cannula may have a compressed diameter which allows it to be inserted percutaneously into a patient. Once at a desired location, the expandable portion of the cannula may be expanded and the impeller expanded to the deployed configuration. A flexible drive shaft may extend through the cannula for rotationally driving the impeller within the patient.

Abstract: The present invention provides a combined direct cardiac compression and aortic counterpulsation device comprising: an inflatable direct cardiac compression jacket configured when inflated to directly compress a heart and assist in displacing blood therefrom, an aortic counterpulsation chamber configured when inflated to displace aortic volume for the purposes of causing a counterpulsation effect, and a driver operably connected to said inflatable direct cardiac compression jacket and to said aortic counterpulsation chamber, said driver is configured to inflate said direct cardiac compression jacket and to deflate said aortic counterpulsation chamber during systole of the heart; said driver is further configured to deflate said direct cardiac compression jacket and to inflate said aortic counterpulsation chamber during diastole of the heart.

Abstract: An impeller includes a hub and at least one blade supported by the hub. The impeller has a stored configuration in which the blade is compressed so that its distal end moves towards the hub, and a deployed configuration in which the blade extends away from the hub. The impeller may be part of a pump for pumping fluids, such as pumping blood within a patient. A blood pump may include a cannula having a proximal portion with a fixed diameter, and a distal portion with an expandable diameter. The impeller may reside in the expandable portion of the cannula. The cannula may have a compressed diameter which allows it to be inserted percutaneously into a patient. Once at a desired location, the expandable portion of the cannula may be expanded and the impeller expanded to the deployed configuration. A flexible drive shaft may extend through the cannula for rotationally driving the impeller within the patient's body.

Abstract: An impeller includes a hub and a blade supported by the hub. The impeller has a stored configuration in which the blade is compressed so that its distal end moves towards the hub, and a deployed configuration in which the blade extends away from the hub. The impeller may be part of a pump for pumping fluids, such as blood, and may include a cannula having a proximal portion with a fixed diameter, and a distal portion with an expandable diameter. The impeller may reside in the expandable portion of the cannula. The cannula may have a compressed diameter which allows it to be inserted percutaneously into a patient. Once at a desired location, the expandable portion of the cannula may be expanded and the impeller expanded to the deployed configuration. A flexible drive shaft may extend through the cannula for rotationally driving the impeller within the patient.

Abstract: Cancer treatment methods comprising a step of applying remote conditioning to the cancer subject, for example remote ischemic conditioning via several episodes of short-term limb occlusion. Upregulation and release of remote conditioning substances such as microRNA 144/451 cluster endogenously caused by remote conditioning may be beneficial in reducing the growth and proliferation of malignant cells. Remote conditioning may also be beneficial when combined with chemotherapy or radiation therapy as it may improve survival of healthy surrounding tissues and minimize side effects of these known cancer treatments. Remote conditioning may be non-invasively applied by a medical professional or self-applied by the cancer subject at home using an automatic device. The novel cancer treatment methods may be used for lung cancers, liver cancers, colorectal cancers, digestive cancers and other cancers.

Abstract: Systems and methods for remote thermographic assessment of tissue viability are disclosed. A system may include a controllable source of one or more thermal stimuli to be applied to a tissue, a measurement system to measure a heat response of the tissue before, during, and/or after the application of the thermal stimuli, and an electronic device that may control either one or both of the source of thermal stimuli and the measurement system. The electronic device may also receive tissue thermal response data from the measurement system, and may further calculate a measure of tissue viability. A method of determining tissue viability may include supplying a thermal stimulus to a tissue, receiving, by a measurement device, the thermal response of the tissue to the stimuli, and a comparison of the thermal response data to at least some viability threshold values. The results may be displayed in a graphical manner.

Abstract: Technologies are generally provided for identifying and marking the location of the laryngeal nerve prior to tissue dissection. A frame may include two multi-electrode stimulating probes, a slider with a guide movable between the two probes, and a marker probe including an anchor. The two probes supported on the frame may be inserted into tissue in a vicinity of the nerve, and a controller may sequentially stimulate the electrodes on each probe and measure electromyography (EMG) responses from each stimulated electrode. The controller may determine the nerve's location relative to the probes based on the measured EMG responses, where the location may include a lateral position between the probes and an estimated depth. The slider may be moved to the lateral position and the marker probe may be inserted through the slider to the determined depth. The anchor may be deployed next to the nerve to indicate the nerve location.

Abstract: Single- or dual-bladder devices for automated delivery of remote ischemic conditioning treatment via partial limb occlusion involve various methods of operating the cuff in which partial or full limb occlusion is achieved during the periods of cuff inflation. Achieving clinical benefits of remote ischemic conditioning without extended cessation of limb blood flow are advantageous due to lower required cuff pressure and reduced risk of clot formation in the limb vasculature.

Abstract: An impeller includes a hub, and a plurality of blades supported by the hub, the blades being arranged in at least two blade rows. The impeller has a deployed configuration in which the blades extend away from the hub, and a stored configuration in which at least one of the blades is radially compressed, for example by folding the blade towards the hub. The impeller may also have an operational configuration in which at least some of the blades are deformed from the deployed configuration upon rotation of the impeller when in the deployed configuration. The outer edge of one or more blades may have a winglet, and the base of the blades may have an associated indentation to facilitate folding of the blades.

Abstract: Technologies are provided for an opto-mechancial device is provided for enabling surgeons to rapidly simulate proposed intestinal/colorectal anastomosis cut lines and assess their impact upon tissue perfusion prior to their implementation. The pre-selection process enables a surgeon to decide upon the locations of the anastomotic cut lines that are most likely to reduce ischemia, while preserving most of the intestinal tissue length. The opto-mechanical device may simulate a cut line by applying pressure to intestinal tissue and detecting a light pattern transmitted through the intestinal tissue before and after the applied pressure. A perfusion map may be generated to estimate perfusion quality around the circumference of the intestinal tissue at the site of a simulated cut line, and the perfusion map may be displayed as a two-dimensional graphic image of the proposed anastomosis site. Once the site of the best cut line is selected, the surgeon may activate a cutting blade to implement the cut.

Abstract: An impeller includes a hub, and a plurality of blades supported by the hub, the blades being arranged in at least two blade rows. The impeller has a deployed configuration in which the blades extend away from the hub, and a stored configuration in which at least one of the blades is radially compressed, for example by folding the blade towards the hub. The impeller may also have an operational configuration in which at least some of the blades are deformed from the deployed configuration upon rotation of the impeller when in the deployed configuration. The outer edge of one or more blades may have a winglet, and the base of the blades may have an associated indentation to facilitate folding of the blades.

Abstract: Methods for adaptive cuff inflation for the purposes of occluding a limb of a subject include inflating a cuff to a pressure at or above limb occlusion pressure and periodically deflating the cuff to detect amplitude of oscillometric oscillations reaching or exceeding a predetermined threshold, whereby indicating that the cuff pressure has reached an updated systolic blood pressure. Selecting the cuff to be wide enough to define limb occlusion pressure at or below the systolic blood pressure assures that this maneuver does not compromise cessation of blood flow to the limb. Devices are disclosed configured to operate in at least two of the following three operating modes: a tourniquet mode, a remote conditioning mode and a blood pressure monitoring mode.

Abstract: Methods for adaptive cuff inflation for the purposes of occluding a limb of a subject include inflating a cuff to a pressure at or above limb occlusion pressure and periodically deflating the cuff to detect amplitude of oscillometric oscillations reaching or exceeding a predetermined threshold, whereby indicating that the cuff pressure has reached an updated systolic blood pressure. Selecting the cuff to be wide enough to define limb occlusion pressure at or below the systolic blood pressure assures that this maneuver does not compromise cessation of blood flow to the limb. Devices are disclosed configured to operate in at least two of the following three operating modes: a tourniquet mode, a remote conditioning mode and a blood pressure monitoring mode.

Abstract: Single- or dual-bladder devices for remote ischemic preconditioning and blood pressure monitoring are disclosed along with various oscillometry-based and other methods for detecting systolic and diastolic blood pressure while the ischemic preconditioning treatment is in progress. The devices and methods of the invention provide for delivery of ischemic preconditioning at the lowest effective cuff pressure while closely monitoring patient's hemodynamics. Advantageously, the device of the invention allows both ischemic preconditioning and blood pressure monitoring to be done on the same limb. Disposable battery-powered version of the device of the present invention is especially useful for emergency use with patients suffering from acute myocardial infarction, acute stroke, or acute trauma. Additional device configurations are described for use in a percutaneous intervention and vascular sealing settings.

Abstract: Device methods and systems for ablating a mucosal surface to treat patients with mucin hypersecretion is disclosed. An ablation device having a balloon membrane with a plurality of electrodes arranged on an external surface thereof is disclosed. The ablation device may be configured to ablate epithelial tissue of one or more target structures, such as the inner wall of a gallbladder. Each of the plurality of electrodes may be electrically coupled to a controller configured to selectively activate one or more of the plurality of electrodes at a time. The controller may activate less than all of the plurality of electrodes, thereby implementing a partial ablation procedure.

Abstract: Systems and methods for remote thermographic assessment of tissue viability are disclosed. A system may include a controllable source of one or more thermal stimuli to be applied to a tissue, a measurement system to measure a heat response of the tissue before, during, and/or after the application of the thermal stimuli, and an electronic device that may control either one or both of the source of thermal stimuli and the measurement system. The electronic device may also receive tissue thermal response data from the measurement system, and may further calculate a measure of tissue viability. A method of determining tissue viability may include supplying a thermal stimulus to a tissue, receiving, by a measurement device, the thermal response of the tissue to the stimuli, and a comparison of the thermal response data to at least some viability threshold values. The results may be displayed in a graphical manner.

Abstract: A dual mode automatic device for delivery of remote ischemic preconditioning treatment includes a cuff and a controller configured to deliver a first regular treatment protocol or a second extended treatment protocol. Switching to an extended treatment protocol may be done by an operator for selected groups of patients such as elderly or patients with diabetes. Automatic determination of the best mode is also disclosed. Optimal delivery of remote ischemic preconditioning treatment in this individualized patient-specific manner provides strong ischemic protection to a greater number of patients.

Abstract: Single- or dual-bladder devices for remote ischemic preconditioning and blood pressure monitoring are disclosed along with various oscillometry-based and other methods for detecting systolic and diastolic blood pressure while the ischemic preconditioning treatment is in progress. The devices and methods of the invention provide for delivery of ischemic preconditioning at the lowest effective cuff pressure while closely monitoring patient's hemodynamics. Advantageously, the device of the invention allows both ischemic preconditioning and blood pressure monitoring to be done on the same limb. Disposable battery-powered version of the device of the present invention is especially useful for emergency use with patients suffering from acute myocardial infarction, acute stroke, or acute trauma. Additional device configurations are described for use in a percutaneous intervention and vascular sealing settings.

Abstract: A dual mode automatic device for delivery of remote ischemic preconditioning treatment includes a cuff and a controller configured to deliver a first regular treatment protocol or a second extended treatment protocol. Switching to an extended treatment protocol may be done by an operator for selected groups of patients such as elderly or patients with diabetes. Automatic determination of the best mode is also disclosed. Optimal delivery of remote ischemic preconditioning treatment in this individualized patient-specific manner provides strong ischemic protection to a greater number of patients.

Abstract: Disclosed herein are heart pumps that include a catheter assembly and that can be applied percutaneously. Some embodiments include a locking device that prevents components of the catheter assembly from being separated when in use. The catheter assembly can include an expandable tip. In some embodiments, the catheter assembly includes a housing having a wall structure, a portion of which can have a bulbuous shape or can be deformable. In other embodiments, the housing can be configured to reduce fluttering or deflection of the housing and/or to maintain a gap between the housing and an impeller blade disposed therein.