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1611 results about "Blood–brain barrier" patented technology

The blood–brain barrier (BBB) is a highly selective semipermeable border that separates the circulating blood from the brain and extracellular fluid in the central nervous system (CNS). The blood–brain barrier is formed by endothelial cells of the capillary wall, astrocyte end-feet ensheathing the capillary, and pericytes embedded in the capillary basement membrane. This system allows the passage of some molecules by passive diffusion, as well as the selective transport of molecules such as glucose, water and amino acids that are crucial to neural function.

Stimulation for treating and diagnosing conditions

InactiveUS20050159790A1Increasing and reducing cortical blood flowMinimize damageHead electrodesMedical devicesPower flowWhole body
A method is provided for facilitating a diagnosis of a condition of a subject, including applying a current to a site of the subject selected from the list consisting of: a sphenopalatine ganglion (SPG) of the subject, and a neural tract originating in or leading to the SPG, and configuring the current to increase conductance of molecules from brain tissue of the subject through a blood brain barrier (BBB) of the subject into a systemic blood circulation of the subject. The method also includes sensing a quantity of the molecules from a site outside of the brain of the subject, following initiation of application of the current.
Owner:BRAINSGATE LTD

Parenteral delivery systems

Hypertonic sugar compositions administered by other than ingestion and swallowing or intravascular injection, such as by intranasal spray or drops, intraocular drops or ointment, oral spray, intraotic spray or drops, lozenges, chewable tablet, chewing gum, or gargle, pulmonary inhalation, vaginal or rectal suppositories, or transdermal creams, ointments, lotions, or patches, are effective to open the blood-brain barrier to permit entry into the central nervous system of a co-administered chemical compound, such as a nutrient or a therapeutic or diagnostic agent. In this way, the compositions and methods of the invention increase the therapeutic or diagnostic efficacy of such chemical compounds.
Owner:NAITO ALBERT T

Compositions and methods for enhancing drug delivery across and into epithelial tissues

This invention provides compositions and methods for enhancing delivery of drugs and other agents across epithelial tissues, including the skin, gastrointestinal tract, pulmonary epithelium, and the like. The compositions and methods are also useful for delivery across endothelial tissues, including the blood brain barrier. The compositions and methods employ a delivery enhancing transporter that has sufficient guanidino or amidino sidechain moieties to enhance delivery of a compound conjugated to the reagent across one or more layers of the tissue, compared to the non-conjugated compound. The delivery-enhancing polymers include, for example, poly-arginine molecules that are preferably between about 6 and 25 residues in length.
Owner:KAI PHARMA

Targeted release of nitric oxide in the CNS circulation for modulating the BBB and treating disorders

A method for delivering molecules to a central nervous system (CNS) of a subject includes supplying the molecules to a blood circulation of the CNS; supplying, to a body of the subject, a carrier system that encapsulates a nitric oxide (NO) facilitator; and applying energy to the carrier system at an energy level sufficient to cause the carrier system to release the NO facilitator in a blood circulation of the subject in a vicinity of a blood-brain barrier (BBB) of the subject and thereby increase passage of the molecules from the blood circulation of the CNS, through the BBB, and into the CNS of the subject.
Owner:BRAINSGATE LTD

Methods and apparatus for enhanced and controlled delivery of a biologically active agent into the central nervous system of a mammal

Disclosed are invasive and non-invasive central nervous system (CNS) drug delivery methods and devices for use in these methods that essentially circumvent the blood-brain barrier. More specifically, the disclosed methods and devices utilize iontophoresis as delivery technique that allows for enhanced delivery of a biologically active agent into the CNS of a mammal as well as for (pre)-programmable and controlled transport.
Owner:INTRABRAIN INT

Devices and methods for optimized neuromodulation and their application

Disclosed are methods and systems for optimized deep or superficial deep-brain stimulation using multiple therapeutic modalities impacting one or multiple points in a neural circuit to produce Long-Term Potentiation (LTP) or Long-Term Depression (LTD). Also disclosed are methods for treatment of clinical conditions and obtaining physiological impacts. Also disclosed are: methods and systems for Guided Feedback control of non-invasive deep brain or superficial neuromodulation; patterned neuromodulation, ancillary stimulation, treatment planning, focused shaped or steered ultrasound; methods and systems using intersecting ultrasound beams; non-invasive ultrasound-neuromodulation techniques to control the permeability of the blood-brain barrier; non-invasive neuromodulation of the spinal cord by ultrasound energy; methods and systems for non-invasive neuromodulation using ultrasound for evaluating the feasibility of neuromodulation treatment using non-ultrasound / ultrasound modalities; neuromodulation of the whole head, treatment of multiple conditions, and method and systems for neuromodulation using ultrasound delivered in sessions.
Owner:MISHELEVICH DAVID J

Antisense oligonucleotide against human acetylcholinesterase (AChE) and uses thereof

InactiveUS20060178333A1Improving stamina in physical exerciseReduce muscle fatigueOrganic active ingredientsNervous disorderDiseaseNervous system
The invention relates to an antisense oligonucleotide targeted to the coding region of the human acetylcholinesterase (AChE), which selectively suppresses the AChE-R isoform of the enzyme. The antisense oligonucleotide is intended for use in the treatment and / or prevention of neuromuscular disorders, preferably myasthenia gravis. In addition, it can penetrate the blood-brain barrier (BBB) and destroy AChE-R within central nervous system neurons, while also serving as a carrier to transport molecules across the BBB.
Owner:YISSUM RES DEV CO OF THE HEBREWUNIVERSITY OF JERUSALEM LTD

Compositions and methods for enhancing drug delivery across and into epithelial tissues

This invention provides compositions and methods for enhancing delivery of drugs and other agents across epithelial tissues, including the skin, gastrointestinal tract, pulmonary epithelium, ocular tissues and the like. The compositions and methods are also useful for delivery across endothelial tissues, including the blood brain barrier. The compositions and methods employ a delivery enhancing transporter that has sufficient guanidino or amidino sidechain moieties to enhance delivery of a compound conjugated to the reagent across one or more layers of the tissue, compared to the non-conjugated compound. The delivery-enhancing polymers include, for example, poly-arginine molecules that are preferably between about 6 and 25 residues in length.
Owner:KAI PHARMA

Fusion proteins for delivery of gdnf to the CNS

ActiveUS20090156498A1Avoid significant immunogenic reactionPolypeptide with localisation/targeting motifNervous disorderMediated transportBlood–brain barrier
The invention provides compositions, methods, and kits for increasing transport of GDNF across the blood brain barrier while allowing its activity to remain substantially intact. The GDNF is transported across the blood brain barrier via one or more endogenous receptor-mediated transport systems.
Owner:JCR PHARMA +1

Administration of anti-inflammatory drugs into the central nervous system

Apparatus is provided for delivering a Non Steroidal Anti-Inflammatory Drug (NSAID) supplied to a body of a subject for delivery to at least a portion of a central nervous system (CNS) of the subject via a systemic blood circulation of the subject, including a stimulator adapted to stimulate at least one site of the subject, so as to cause an increase in passage of the NSAID from the systemic blood circulation across a blood brain barrier (BBB) of the subject to the portion of the CNS, during at least a portion of the time that the NSAID is present in the blood, the site selected from the list consisting of: a sphenopalatine ganglion (SPG) of the subject, an anterior ethmoidal nerve of the subject, a posterior ethmoidal nerve of the subject, a communicating branch between an anterior ethmoidal nerve and a retro-orbital branch of an SPG of the subject, a communicating branch between a posterior ethmoidal nerve and a retro-orbital branch of an SPG of the subject, a greater palatine nerve of the subject, a lesser palatine nerve of the subject, a sphenopalatine nerve of the subject, a communicating branch between a maxillary nerve and an SPG of the subject, a nasopalatine nerve of the subject, a posterior nasal nerve of the subject, an infraorbital nerve of the subject, an otic ganglion of the subject, an afferent fiber going into the otic ganglion of the subject, an efferent fiber going out of the otic ganglion of the subject, a vidian nerve of the subject, a greater superficial petrosal nerve of the subject, and a lesser deep petrosal nerve of the subject.
Owner:BRAINSGATE LTD

Assessing blood brain barrier dynamics or identifying or measuring selected substances or toxins in a subject by analyzing Raman spectrum signals of selected regions in the eye

InactiveUS6574501B2Reduced energy/density exposure ratingImproved margin of safetyRaman scatteringDiagnostic recording/measuringConjunctivaNon invasive
A non-invasive method for analyzing the blood-brain barrier includes obtaining a Raman spectrum of a selected portion of the eye and monitoring the Raman spectrum to ascertain a change to the dynamics of the blood brain barrier. Also, non-invasive methods for determining the brain or blood level of an analyte of interest, such as glucose, drugs, alcohol, poisons, and the like, comprises: generating an excitation laser beam (e.g., at a wavelength of 600 to 900 nanometers); focusing the excitation laser beam into the anterior chamber of an eye of the subject so that aqueous humor, vitreous humor, or one or more conjunctiva vessels in the eye is illuminated; detecting (preferably confocally detecting) a Raman spectrum from the illuminated portion of the eye; and then determining the blood level or brain level (intracranial or cerebral spinal fluid level) of an analyte of interest for the subject from the Raman spectrum. In certain embodiments, the detecting step may be followed by the step of subtracting a confounding fluorescence spectrum from the Raman spectrum to produce a difference spectrum; and determining the blood level and / or brain level of the analyte of interest for the subject from that difference spectrum, preferably using linear or nonlinear multivariate analysis such as partial least squares analysis. Apparatus for carrying out the foregoing methods are also disclosed.
Owner:CHILDRENS HOSPITAL OF LOS ANGELES +1

Methods for delivery therapeutic compounds across the blood-brain barrier

The present invention relates to amphiphilic drug-oligomer conjugates capable of traversing the blood-brain barrier ("BBB") and to methods of making and using such conjugates. An amphiphilic drug-oligomer conjugates comprise a therapeutic compound conjugated to an oligomer, wherein the oligomer comprises a lipophilic moiety coupled to a hydrophilic moiety. The conjugates of the invention further comprise therapeutic agents such as proteins, peptides, nucleosides, nucleotides, antiviral agents, antineoplastic agents, antibiotics, etc., and prodrugs, precursors, derivatives and intermediates thereof, chemically coupled to amphiphilic oligomers.
Owner:BIOCON LTD

Assessing blood brain barrier dynamics or identifying or measuring selected substances, including ethanol or toxins, in a subject by analyzing Raman spectrum signals

InactiveUS7398119B2Fast “ triage ” assessmentReliable and faster treatment decisionRadiation pyrometrySpectrum investigationNon invasivePhysics
A non-invasive method for analyzing the blood-brain barrier includes obtaining a Raman spectrum of a selected portion of the eye and monitoring the Raman spectrum to ascertain a change to the dynamics of the blood brain barrier.Also, non-invasive methods for determining the brain or blood level of an analyte of interest, such as glucose, drugs, alcohol, poisons, and the like, comprises: generating an excitation laser beam at a selected wavelength (e.g., at a wavelength of about 400 to 900 nanometers); focusing the excitation laser beam into the anterior chamber of an eye of the subject so that aqueous humor, vitreous humor, or one or more conjunctiva vessels in the eye is illuminated; detecting (preferably confocally detecting) a Raman spectrum from the illuminated portion of the eye; and then determining the blood level or brain level (intracranial or cerebral spinal fluid level) of an analyte of interest for the subject from the Raman spectrum. In certain embodiments, the detecting step may be followed by the step of subtracting a confounding fluorescence spectrum from the Raman spectrum to produce a difference spectrum; and determining the blood level and / or brain level of the analyte of interest for the subject from that difference spectrum, preferably using linear or nonlinear multivariate analysis such as partial least squares analysis. Apparatus for carrying out the foregoing methods are also disclosed.
Owner:CALIFORNIA INST OF TECH +1

Method and apparatus for stimulating the sphenopalatine ganglion to modify properties of the BBB and cerebral blood flow

InactiveUS7120489B2Promote absorptionPermeability of BBB is increasedHead electrodesBlood flow measurement devicesCerebral blood volumeRetinal blood flow
Apparatus for modifying a property of a brain of a patient is provided, including one or more electrodes (7), adapted to be applied to a site selected from a group of sites consisting of: a sphenopalatine ganglion (SPG) (6) of the patient and a neural tract originating in or leading to the SPG. A control unit (8) is adapted to drive the one or more electrodes to apply a current to the site capable of inducing (a) an increase in permeability of a blood-brain barrier (BBB) of the patient, (b) a change in cerebral blood flow of the patient, and / or (c) an inhibition of parasympathetic activity of the SPG.
Owner:BRAINSGATE LTD

Treatment of Neurodegenerative Diseases Through Inhibition of HSP90

Treatment of neurodegenerative diseases is achieved using small molecule purine scaffold compounds that inhibit Hsp90 and that possess the ability to cross the blood-brain barrier or are other wise delivered to the brain.
Owner:THE ROCKEFELLER UNIV +1

Compounds and amyloid probes thereof for therapeutic and imaging uses

The present invention provides compounds and amyloid probes thereof that allow for an antemortem method of diagnosing AD and quantitating the extent or progression of amyloid deposits (plaques) by in vivo imaging of amyloid and / or amyloid deposits in the regions of the brain. Preferably, an amyloid probe of the invention can cross the blood-brain barrier and distinguish AD brain from normal brain. An amyloid probe can be administered to a patient in amounts suitable for in vivo imaging of amyloid deposits. Amyloid probes of the invention can also be used to detect and quantitate amyloid deposits in diseases including, without limitation, Down's syndrome, familial AD and homozygotes for the apolipoprotein E4 allele. In one aspect, the compounds may be used in the treatment or prophylaxis of diseases that include, without limitation, AD and type 2 diabetes mellitus. The compounds and amyloid probes of the invention include analogs, salts, pharmaceutical compositions, derivatives, prodrugs, racemic mixtures or tautomeric forms thereof.
Owner:MOLECULAR NEUROIMAGING

Fusion proteins for blood-brain barrier delivery

ActiveUS20070081992A1Avoid significant immunogenic reactionAvoid significant reactionSenses disorderNervous disorderMediated transportBlood–brain barrier
The invention provides compositions, methods, and kits for increasing transport of agents across the blood brain barrier while allowing their activity once across the barrier to remain substantially intact. The agents are transported across the blood brain barrier via one or more endogenous receptor-mediated transport systems. In some embodiments the agents are therapeutic, diagnostic, or research agents.
Owner:ARMAGEN TECH +1

Method for transporting a compound across the blood-brain barrier

The present invention relates to improvements in the field of drug delivery. More particularly, the invention relates to a non-invasive and flexible method and carrier for transporting a compound or drug across the blood-brain barrier of an individual. In particular the present invention relates to a carrier for transporting an agent attached thereto across a blood-brain barrier, wherein the carrier is able to cross the blood-brain barrier after attachment to the agent and thereby transport the agent across the blood-brain barrier. The present invention relates to improvements in the field of drug delivery. More particularly, the invention relates to a non-invasive and flexible method and carrier for transporting a compound or drug across the blood-brain barrier of an individual. In particular the present invention relates to a carrier for transporting an agent attached thereto across a blood-brain barrier, wherein the carrier is able to cross the blood-brain barrier after attachment to the agent and thereby transport the agent across the blood-brain barrier.
Owner:ANGLACHEM INC

Methods for treatment and prevention of neuromuscular and muscular conditions by peripherally administered erythropoietin

Methods and compositions are provided for protecting or enhancing excitable tissue function in mammals by systemic administration of an erythropoietin receptor activity modulator, such as erythropoietin, which signals via an EPO-activated receptor to modulate the function of excitable tissue. Excitable tissues include central neuronal tissues, such as the brain, peripheral neuronal tissues, retina, and heart tissue. Protection of excitable tissues provides treatment of hypoxia, seizure disorders, neurodegenerative diseases, hypoglycemia, and neurotoxin poisoning. Enhancement of function is useful in learning and memory. The invention is also directed to compositions and methods for facilitating the transport of molecules across endothelial cell tight junction barriers, such as the blood-brain barrier, by association of molecules with an erythropoietin receptor activity modulator, such as an erythropoietin.
Owner:THE KENNETH S WARREN INST

Use of nitrogen-containing curcumin analogs for the treatment of alzheimers disease

A curcumin analog in which natural curcumin is modified by an amino acid moiety that increases the analog's transport across the blood brain barrier by the LAT1 transporter.
Owner:DEPUY SYNTHES PROD INC

Delivery of antibodies to the central nervous system

The invention relates to improvements in the field of drug delivery. More particularly, the invention relates to polypeptide derived from aprotinin and from aprotinin analogs as well as conjugates and pharmaceutical compositions comprising these polypeptides. The present invention also relates to the use of these polypeptide for transporting an antibody or antibody fragment across the blood-brain barrier of an individual and in the treatment and diagnosis of neurological diseases.
Owner:ANGLACHEM INC

Nucleic acids encoding and methods of producing fusion proteins

ActiveUS20070082380A1Senses disorderNervous disorderMediated transportNucleic acid
The invention provides compositions, methods, and kits for increasing transport of agents across the blood brain barrier while allowing their activity once across the barrier to remain substantially intact. The agents are transported across the blood brain barrier via one or more endogenous receptor-mediated transport systems. In some embodiments the agents are therapeutic, diagnostic, or research agents.
Owner:JCR PHARMA +1

Treatment of pain with combinations of nalbuphine and other kappa-opioid receptor agonists and opioid receptor antagonists

InactiveUS20040180916A1Enhances nalbuphine analgesiaMinimize ToxicityBiocideNervous disorderOpioid antagonistPentazocine
Methods and compositions for treating, managing or ameliorating pain in a subject (preferably, a mammal, and more preferably, a human) comprising administration of a centrally acting (i.e., crosses the blood brain barrier) agonist of a kappa-opioid receptor and a centrally acting opioid antagonist such that the analgesia achieved by this administration is greater than with administration of either the kappa-opioid receptor agonist or the opioid antagonist alone. Preferably the kappa-opioid receptor is nalbuphine or a salt or prodrug of nalbuphine and the opioid antagonist is naloxone or a salt or prodrug of naloxone. Preferred methods of administration include mucosal (e.g. intranasal or pulmonary) and intravenous. Other kappa-opioid receptors include pentazocine and butorphanol.
Owner:RGT UNIV OF CALIFORNIA

Methods of treatment and prevention of neurodegenerative diseases and disorders

The present invention provides compostions and methods useful for treating and preventing neurodegenerative disease and neurologically related disorders by inhibition of Lp-PLA2. The compositions and methods are useful for treating and preventing diseases and disorders with abnormal blood brain barrier (BBB) function, for example neurodegenerative diseases with a permeable BBB, such as but not limited to, Alzheimer's Disease, Huntington's Disease, Parkinson's Disease and Vascular Dementia.
Owner:UNIV OF MEDICINE & DENTISTRY OF NEW JERSEY +1

Aprotinin-like polypeptides for delivering agents conjugated thereto to tissues

Based on our identification of a polypeptide (Angiopep-7) that is efficiently transported to cells such as liver, lung, kidney, spleen, and muscle, the invention provides polypeptides, conjugates including the polypeptides, and methods for treating diseases associated with these cell types. Unlike other aprotinin related polypeptides identified herein (including Angiopep-3, Angiopep-4a Angiopep-4b Angiopep-5, and Angiopep-6) which efficiently cross the blood-brain barrier (BBB), Angiopep-7 is not efficiently transported across the BBB.
Owner:ANGLACHEM INC
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