Patent application number | Description | Published |
20080305077 | PHARMACEUTICAL COMPOSITIONS AND METHODS FOR ENHANCING TARGETING OF THERAPEUTIC COMPOUNDS TO THE CENTRAL NERVOUS SYSTEM - Pharmaceutical compositions and methods for enhancing targeting of therapeutic compounds to, inter alia, the CNS applied via intranasal administration while reducing non-target exposure are provided. In certain embodiments, at least one vasoconstrictor is provided intranasally prior to intranasal administration of at least one therapeutic compound. In other embodiments, the vasoconstrictor(s) and therapeutic compound(s) are combined in a pharmaceutical composition and delivered intranasally. The present invention substantially increases targeting of the therapeutic compound(s) to, inter alia, the CNS while substantially reducing unwanted and potentially harmful systemic exposure. The preferred administration of the invention applies the vasoconstrictor(s) and/or therapeutic compound(s) to the upper third of the nasal cavity, though application to the lower two-thirds of the nasal cavity is also within the scope of the invention. | 12-11-2008 |
20100061959 | METHODS FOR PROVIDING NEUROPROTECTION FOR THE ANIMAL CENTRAL NERVOUS SYSTEM AGAINST THE EFFECTS OF ISCHEMIA, NEURODEGENERATION, TRAUMA, AND METAL POISONING - Methods and pharmaceutical compositions for providing neuroprotection to the animal central nervous system against the effects of ischemia, and neurodegeneration. Patients at risk for certain diseases or disorders that are associated with cerebral ischemia may benefit, e.g., those at risk for Alzheimer's disease, Parkinson's disease, Wilson's disease or stroke or those patients having head or spinal cord injury. Patients undergoing certain medical procedures that may result in ischemia may also benefit. Initially, the possibility of ischemia or neurodegeneration is recognized. Intranasal therapeutic agents are administered to the upper third of the nasal cavity to bypass the blood-brain barrier and access the central nervous system directly to avoid unwanted and potentially lethal side effects. Therapeutic agents include those substances that interact with iron and/or copper such as iron chelators and copper chelators. A particular example of such therapeutic agents is the iron chelator deferoxamine (DFO). Intranasal administration of DFO provides an effective method for pre-conditioning the brain to protect against cerebral ischemia. | 03-11-2010 |
20100204334 | Intranasal Delivery of Modafinil - Modafinil is selectively delivered to the brain, minimizing delivery to the blood, of a person in need thereof by administering to the person a therapeutically-effective dosage of modafinil, wherein the dosage is less than 1 mg, formulated in a lipid microemulsion (LME) and selectively delivered to the upper third of the nasal cavity. The method may be implemented with an intranasal pharmaceutical delivery device loaded with a modafinil composition and adapted to deliver the dosage to the upper third of the nasal cavity. | 08-12-2010 |
20100267834 | METHODS AND PHARMACEUTICAL COMPOSITIONS FOR DIFFERENTIALLY ALTERING GENE EXPRESSION TO PROVIDE NEUROPROTECTION FOR THE ANIMAL CENTRAL NERVOUS SYSTEM AGAINST THE EFFECTS OF ISCHEMIA, NEURODEGENERATION, TRAUMA AND METAL POISONING - Pharmaceutical compositions for treating and/or pre-treating or preconditioning the animal central nervous system against the effects of Alzheimer's Disease including the associated neurodegeneration and cognitive, behavioral and physical impairments. In one embodiment, an effective dose of deferoxamine (DFO) is administered to the upper one-third of the subject patient's nasal cavity to effectively bypass the blood-brain barrier, thereby allowing application of the DFO dose directly to the central nervous system. | 10-21-2010 |
20110311654 | METHODS AND PHARMACEUTICAL COMPOSITIONS FOR TREATING THE ANIMAL CENTRAL NERVOUS SYSTEM FOR PSYCHIATRIC DISORDERS - The present invention comprises methods and pharmaceutical compositions for intranasal delivery of effective amounts of DFO directly to the CNS, in particular the brain treatments that inhibit GSK3b in patients with psychiatric disorders including, but not limited to, bipolar disorder, depression, ADHD and schizophrenia. In addition a treatment composition is disclosed which comprises DFO and in certain embodiments combines DFO with one or more of the psychotropic drug types, i.e., antipsychotics, mood stabilizers and antidepressants. Moreover, a treatment for treating impairment of neural plasticity through inhibition of GSK3b is provided as well as prevention of apoptosis of cells through inhibition of GSK3b. | 12-22-2011 |
20140051763 | METHODS OF TREATING FRONTAL TEMPORAL DEMENTIA (FTD) WITH COMPRISING ADMINISTERING METAL CHELATORS TO THE UPPER ONE-THIRD OF THE NASAL CAVITY - The present invention comprises methods and pharmaceutical compositions for intranasal delivery of effective amounts of DFO directly to the CNS, in particular the brain treatments that inhibit GSK3b in patients with psychiatric disorders including, but not limited to, bipolar disorder, depression, ADHD and schizophrenia. In addition a treatment composition is disclosed which comprises DFO and in certain embodiments combines DFO with one or more of the psychotropic drug types, i.e., antipsychotics, mood stabilizers and antidepressants. Moreover, a treatment for treating impairment of neural plasticity through inhibition of GSK3b is provided as well as prevention of apoptosis of cells through inhibition of GSK3b. | 02-20-2014 |
20140057984 | METHODS OF TREATING CORTICOBASAL DEGENERATION COMPRISING ADMINISTERING METAL CHELATORS TO THE UPPER ONE-THIRD OF THE NASAL CAVITY - Methods for preconditioning and/or providing neuroprotection to the animal central nervous system against the effects of ischemia, trauma, metal poisoning and neurodegeneration, including the associated cognitive, behavioral and physical impairments. Patients diagnosed with, or at risk for, certain diseases or disorders that are associated with risk for cerebral ischemia may benefit, e.g., those at risk for Alzheimer's disease, Parkinson's disease, corticobasal degeneration, Wilson's disease or stroke or those patients having head or spinal cord injury. Intranasal therapeutic agents are administered to the upper third of the nasal cavity to bypass the blood-brain barrier and access the central nervous system directly to avoid unwanted and potentially lethal side effects. Therapeutic agents include those substances that interact with iron and/or copper such as iron chelators, copper chelators, and antioxidants. A particular example of such therapeutic agents is the iron chelator deferoxamine (DFO). | 02-27-2014 |
20140178331 | METHOD OF TREATING CEREBRAL HEMORRHAGE AND SUBARACHNOID HEMORRHAGE COMPRISING ADMINISTERING METAL CHELATORS TO THE UPPER ONE-THIRD OF THE NASAL CAVITY - Methods for preconditioning and/or providing neuroprotection to the animal central nervous system against the effects of cerebral hemorrhage and subarachnoid hemorrhage. Therapeutic agents are administered to the upper third of the nasal cavity to bypass the blood-brain barrier and access the central nervous system directly to avoid unwanted and potentially lethal side effects. Therapeutic agents include those substances that interact with iron and/or copper such as iron chelators, copper chelators, and antioxidants. A particular example of such therapeutic agents is the iron chelator deferoxamine (DFO). An effective amount of DFO may be administered to the upper third of the nasal cavity of a patient at risk for, or diagnosed with, cerebral hemorrhage and subarachnoid hemorrhage. The effective amount of DFO is delivered directly to the patient's central nervous system for preconditioning, preventing and/or treating the cerebral hemorrhage and subarachnoid hemorrhage. | 06-26-2014 |
20140179787 | METHOD OF TREATING SPINAL CORD INJURY COMPRISING ADMINISTERING METAL CHELATORS TO THE UPPER ONE-THIRD OF THE NASAL CAVITY - Methods for treating the animal central nervous system against the effects of spinal cord injury, including associated cognitive, behavioral and physical impairments. Effective amounts of therapeutic agents are administered to the upper third of the patient's nasal cavity to bypass the blood-brain barrier and access the central nervous system directly to avoid unwanted and potentially lethal side effects. Therapeutic agents include those substances that interact with iron and/or copper such as iron chelators, copper chelators, and antioxidants. A particular example of a therapeutic agent is the iron chelator deferoxamine (DFO). | 06-26-2014 |
20140179788 | METHOD OF PRE-TREATING PATIENTS FOR STROKE COMPRISING ADMINISTERING METAL CHELATORS TO THE UPPER ONE-THIRD OF THE NASAL CAVITY - Methods for preconditioning and/or providing neuroprotection to the animal central nervous system against the effects of stoke, including associated cognitive, behavioral and physical impairments. Initially, a patient at risk for stroke is identified. Effective amounts of therapeutic agents are administered to the upper third of the at-risk patient's nasal cavity to bypass the blood-brain barrier and access the central nervous system directly to avoid unwanted and potentially lethal side effects. Therapeutic agents include those substances that interact with iron and/or copper such as iron chelators, copper chelators, and antioxidants. A particular example of a therapeutic agent is the iron chelator deferoxamine (DFO). | 06-26-2014 |
20140179789 | METHODS OF TREATING HUNTINGTON'S DISEASE COMPRISING ADMINISTERING METAL CHELATORS TO THE UPPER ONE-THIRD OF THE NASAL CAVITY - Methods for preconditioning and/or providing neuroprotection to the animal central nervous system against the effects of Huntington's disease. Therapeutic agents are administered to the upper third of the nasal cavity to bypass the blood-brain barrier and access the central nervous system directly to avoid unwanted and potentially lethal side effects. Therapeutic agents include those substances that interact with iron and/or copper such as iron chelators, copper chelators, and antioxidants. A particular example of such therapeutic agents is the iron chelator deferoxamine (DFO). An effective amount of DFO may be administered to the upper third of the nasal cavity of a patient at risk for, or diagnosed with Huntington's disease. The effective amount of DFO is delivered directly to the patient's central nervous system for preconditioning, preventing and/or treating Huntingon's disease. | 06-26-2014 |
20140179790 | METHOD OF TREATING TRAUMATIC BRAIN INJURY/HEAD INJURY COMPRISING ADMINISTERING METAL CHELATORS TO THE UPPER ONE-THIRD OF THE NASAL CAVITY - Methods for treating the animal central nervous system for the effects of traumatic brain injury. Therapeutic agents are administered to the upper third of the nasal cavity to bypass the blood-brain barrier and access the central nervous system directly to avoid unwanted and potentially lethal side effects. Therapeutic agents include those substances that interact with iron and/or copper such as iron chelators, copper chelators, and antioxidants. A particular example of such therapeutic agents is the iron chelator deferoxamine (DFO). An effective amount of DFO may be administered to the upper third of the nasal cavity of a patient suffering from traumatic brain injury. The effective amount of DFO is delivered directly to the patient's central nervous system for treating the traumatic brain injury. | 06-26-2014 |
20140179791 | METHOD OF TREATING PROGRESSIVE SUPRANUCLEAR PALSY COMPRISING ADMINISTERING METAL CHELATORS TO THE UPPER ONE-THIRD OF THE NASAL CAVITY - Methods for preconditioning and/or providing neuroprotection to the animal central nervous system against the effects of progressive supranuclear palsy. Therapeutic agents are administered to the upper third of the nasal cavity to bypass the blood-brain barrier and access the central nervous system directly to avoid unwanted and potentially lethal side effects. Therapeutic agents include those substances that interact with iron and/or copper such as iron chelators, copper chelators, and antioxidants. A particular example of such therapeutic agents is the iron chelator deferoxamine (DFO). An effective amount of DFO may be administered to the upper third of the nasal cavity of a patient at risk for, or diagnosed with, progressive supranuclear palsy. The effective amount of DFO is delivered directly to the patient's central nervous system for preconditioning, preventing and/or treating the progressive supranuclear palsy. | 06-26-2014 |
20140179792 | METHOD OF TREATING LEWY BODY SYNDROME WITH COMPRISING ADMINISTERING METAL CHELATORS TO THE UPPER ONE-THIRD OF THE NASAL CAVITY - Methods for preconditioning and/or providing neuroprotection to the animal central nervous system against the effects of Lewy body syndrome. Therapeutic agents are administered to the upper third of the nasal cavity to bypass the blood-brain barrier and access the central nervous system directly to avoid unwanted and potentially lethal side effects. Therapeutic agents include those substances that interact with iron and/or copper such as iron chelators, copper chelators, and antioxidants. A particular example of such therapeutic agents is the iron chelator deferoxamine (DFO). An effective amount of DFO may be administered to the upper third of the nasal cavity of a patient at risk for, or diagnosed with, Lewy body syndrome. The effective amount of DFO is delivered directly to the patient's central nervous system for preconditioning, preventing and/or treating the Lewy body syndrome. | 06-26-2014 |
20140179793 | METHODS OF TREATING NEURODEGENERATION CAUSED BY IRON ACCUMULATION IN THE BRAIN COMPRISING ADMINISTERING METAL CHELATORS TO THE UPPER ONE-THIRD OF THE NASAL CAVITY - Methods for preconditioning, treating and/or providing neuroprotection to the animal central nervous system against the effects of neurodegeneration caused by iron accumulation in the brain. Therapeutic agents are administered to the upper third of the nasal cavity to bypass the blood-brain barrier and access the central nervous system directly to avoid unwanted and potentially lethal side effects. Therapeutic agents include those substances that interact with iron and/or copper such as iron chelators, copper chelators, and antioxidants. An examplary therapeutic agent is the iron chelator deferoxamine (DFO). An effective amount of DFO may be administered to the upper third of the nasal cavity of a patient at risk for or diagnosed with neurodegeneration caused by iron accumulation in the brain. The effective amount of DFO is delivered directly to the patient's central nervous system for preconditioning, preventing and/or treating neurodegeneration caused by iron accumulation in the brain. | 06-26-2014 |
20140213655 | METHOD OF TREATING STROKE COMPRISING ADMINISTERING METAL CHELATORS TO THE UPPER ONE-THIRD OF THE NASAL CAVITY - Methods for treating the animal central nervous system against the effects of stoke, including associated cognitive, behavioral and physical impairments. Effective amounts of therapeutic agents are administered to the upper third of the stroke patient's nasal cavity to bypass the blood-brain barrier and access the central nervous system directly to avoid unwanted and potentially lethal side effects. Therapeutic agents include those substances that interact with iron and/or copper such as iron chelators, copper chelators, and antioxidants. A particular example of a therapeutic agent is the iron chelator deferoxamine (DFO). | 07-31-2014 |
20140242067 | TREATMENT OF CENTRAL NERVOUS SYSTEM DISORDERS BY INTRANASAL ADMINISTRATION OF IMMUNOGLOBULIN G - The present invention provides, among other aspects, methods and compositions for treating a central nervous system (CNS) disorder by delivering a therapeutically effective amount of a composition of pooled human immunoglobulin G (IgG) to the brain via intranasal administration of the composition directly to the olfactory epithelium of the nasal cavity. In particular, methods and compositions for treating Alzheimer's disease are provided. | 08-28-2014 |