Abstract: The present disclosure provides lipid emulsions comprising at least 20 percent (w/v) lipid with an average particle size of about 200 to about 300 nm, and use thereof to treat subjects in need of lipid emulsion therapy.

Abstract: The present disclosures provides methods for decreasing injuries associated with intraoperative hypotension by intravenously administering to a subject a therapeutically effective amount of a fat emulsion, following a period of intraoperative hypotension and after the subject's mean arterial blood pressure has recovered. The disclosure also provides methods for preventing injuries associated with intraoperative hypotension, particularly for surgical candidates that have an increased risk for intraoperative hypotension. Non-limiting examples of injuries contemplated herein include myocardial injury, myocardial infarction, and acute kidney injury.

Abstract: The present disclosures provides methods for decreasing injuries associated with intraoperative hypotension by intravenously administering to a subject a therapeutically effective amount of a fat emulsion, following a period of intraoperative hypotension and after the subject's mean arterial blood pressure has recovered. The disclosure also provides methods for preventing injuries associated with intraoperative hypotension, particularly for surgical candidates that have an increased risk for intraoperative hypotension. Non-limiting examples of injuries contemplated herein include myocardial injury, myocardial infarction, and acute kidney injury.

Abstract: The present disclosure provides lipid emulsions comprising at least 20 percent (w/v) lipid with an average particle size of about 200 to about 300 nm, and use thereof to treat subjects in need of lipid emulsion therapy.

Abstract: The present disclosures provides methods for decreasing injuries associated with intraoperative hypotension by intravenously administering to a subject a therapeutically effective amount of a fat emulsion, following a period of intraoperative hypotension and after the subject's mean arterial blood pressure has recovered. The disclosure also provides methods for preventing injuries associated with intraoperative hypotension, particularly for surgical candidates that have an increased risk for intraoperative hypotension. Non-limiting examples of injuries contemplated herein include myocardial injury, myocardial infarction, and acute kidney injury.

Abstract: The present disclosure provides a lipid emulsion formulation comprising vitamin K, and methods of treating pharma toxicity.

Abstract: An apparatus for measuring intracranial pressure constituted of: a transmitter arranged to transmit a first acoustic signal through a first cranial point; a receiver arranged to receive a second acoustic signal from a second cranial point; and a control circuitry, wherein the control circuitry is arranged to: extract from the detected second acoustic signal a first set of frequency components associated with the transmitted first acoustic signal; extract from the detected second acoustic signal a second set of frequency components associated with intracranial processes; and determine intracranial pressure responsive to the extracted first set of frequency components and the extracted second set of frequency components.

Abstract: A user physiological condition sensing apparatus constituted of: a thermal sensor, the thermal sensor arranged to be positioned on the neck of the user and sense the skin temperature of the user; a core temperature functionality in communication with the thermal sensor, the core temperature functionality arranged to determine the core temperature of the user responsive to the sensed skin temperature; and an output module in communication with the core temperature functionality, the output module arranged to output the determined user core temperature, wherein the core temperature determination is further responsive to the weight and height of the user.

Abstract: An apparatus for measuring intracranial pressure constituted of: a transmitter arranged to transmit a first acoustic signal through a first cranial point; a receiver arranged to receive a second acoustic signal from a second cranial point; and a control circuitry, wherein the control circuitry is arranged to: extract from the detected second acoustic signal a first set of frequency components associated with the transmitted first acoustic signal; extract from the detected second acoustic signal a second set of frequency components associated with intracranial processes; and determine intracranial pressure responsive to the extracted first set of frequency components and the extracted second set of frequency components.

Abstract: An apparatus for measuring intracranial pressure constituted of a transmitter arranged to transmit a first acoustic signal through a first cranial point, a receiver arranged to receive a second acoustic signal from a second cranial point and a control circuitry. The control circuitry is arranged to extract from the detected second acoustic signal a first set of frequency components associated with the transmitted first acoustic signal and extract from the detected second acoustic signal a second set of frequency components associated with intracranial processes. The control circuitry is further arranged to determine intracranial pressure responsive to the extracted first set of frequency components and the extracted second set of frequency components.

Abstract: The present invention provides lipid emulsions and methods of intravenously administering lipid emulsions to treat systemic toxicity caused by foreign lipophilic and amphiphilic substances. In particular, methods are provided to treat cardiovascular impairment, such as cardiotoxicity, asystole and ischemia of the brain and heart, and neurological impairments, such as seizures and comas, caused by foreign lipophilic and amphiphilic substances, including cardiovascular impairment caused by local anesthetics, tricyclic antidepressants, sodium channel blockers, and calcium channel blockers.

Abstract: An apparatus for measuring intracranial pressure constituted of: a transmitter arranged to transmit a first acoustic signal through a first cranial point; a receiver arranged to receive a second acoustic signal from a second cranial point; and a control circuitry, wherein the control circuitry is arranged to: extract from the detected second acoustic signal a first set of frequency components associated with the transmitted first acoustic signal; extract from the detected second acoustic signal a second set of frequency components associated with intracranial processes; and determine intracranial pressure responsive to the extracted first set of frequency components and the extracted second set of frequency components.

Abstract: The present invention provides lipid emulsions and methods of intravenously administering lipid emulsions to treat systemic toxicity caused by foreign lipophilic and amphiphilic substances. In particular, methods are provided to treat cardiovascular impairment, such as cardiotoxicity, asystole and ischemia of the brain and heart, and neurological impairments, such as seizures and comas, caused by foreign lipophilic and amphiphilic substances, including cardiovascular impairment caused by local anesthetics, tricyclic antidepressants, sodium channel blockers, and calcium channel blockers.

Abstract: Lipid emulsion compositions and methods of using such composition via intravenous infusion to reduce the bioavailability and toxicity of poisonous agents in the bloodstream.

Abstract: The present invention provides compositions and methods for protecting tissues and organs from damage during transplantation or from acute ischemia due to, e.g., injury or surgery. The compositions protect the tissue or organ from acidosis, oxidative damage, ischemia and repurfusion injury while the organ is isolated from the normal circulation or receives inadequate arterial flow.