A dry pharmaceutical composition is provided that is suitable for respiratory tract delivery of levodopa and DDI for treatment of Parkinson's disease or Parkinson syndrome. The dry pharmaceutical composition comprises levodopa, a dopa decarboxylase inhibitor (DDI) and at least one excipient. A unit dosage form of the dry pharmaceutical composition and a method of treating a patient with Parkinson's disease or Parkinson syndrome by administering the dry pharmaceutical composition are also provided.

A dry pharmaceutical composition is provided that is suitable for respiratory tract delivery of levodopa and DDI for treatment of Parkinson's disease or Parkinson syndrome. The dry pharmaceutical composition comprises levodopa, a dopa decarboxylase inhibitor (DDI) and at least one excipient. A unit dosage form of the dry pharmaceutical composition and a method of treating a patient with Parkinson's disease or Parkinson syndrome by administering the dry pharmaceutical composition are also provided.

The present invention relates to compositions and methods for treatment of cholangiocarcinoma and in particular to combination therapies comprising panobinostat compositions in combination with other cytotoxic agents, e.g. agents that potentiate the effects of panobinostat, for use in the treatment of cholangiocarcinoma. Pharmaceutical compositions comprising panobinostat and other cytotoxic agents are also provided.

The present invention relates to compositions and methods for treatment of cholangiocarcinoma and in particular to combination therapies comprising panobinostat compositions in combination with other cytotoxic agents, e.g. agents that potentiate the effects of panobinostat, for use in the treatment of cholangiocarcinoma. Pharmaceutical compositions comprising panobinostat and other cytotoxic agents are also provided.

It is proposed that dissipation of relative benefit during long-term treatment is due to long-term tolerance to stimulant medications. To improve adherence and persistence of medication use, it is advantageous to develop medications that are not undermined by long-term tolerance. Disclosed herein in certain implementations are formulations and methods relating to an alternative formulation of medication for the treatment of ADHD based on two principles: (a) retaining the initial immediate-release component of controlled-release formulations that targets a neural mechanism, which elicits acute tolerance, and (b) replacing the subsequent sustained-release component with a medication that maintains the initial benefit by targeting a different neural mechanism does not elicit tolerance, thus allowing more time for acute tolerance elicited by the initial bolus dose of stimulant medication to dissipate completely each day and avoid carry-over and accumulation that results in long-term tolerance.

It is proposed that dissipation of relative benefit during long-term treatment is due to long-term tolerance to stimulant medications. To improve adherence and persistence of medication use, it is advantageous to develop medications that are not undermined by long-term tolerance. Disclosed herein in certain implementations are formulations and methods relating to an alternative formulation of medication for the treatment of ADHD based on two principles: (a) retaining the initial immediate-release component of controlled-release formulations that targets a neural mechanism, which elicits acute tolerance, and (b) replacing the subsequent sustained-release component with a medication that maintains the initial benefit by targeting a different neural mechanism does not elicit tolerance, thus allowing more time for acute tolerance elicited by the initial bolus dose of stimulant medication to dissipate completely each day and avoid carry-over and accumulation that results in long-term tolerance.

It is proposed that dissipation of relative benefit during long-term treatment is due to long-term tolerance to stimulant medications. To improve adherence and persistence of medication use, it is advantageous to develop medications that are not undermined by long-term tolerance. Disclosed herein in certain implementations are formulations and methods relating to an alternative formulation of medication for the treatment of ADHD based on two principles: (a) retaining the initial immediate-release component of controlled-release formulations that targets a neural mechanism, which elicits acute tolerance, and (b) replacing the subsequent sustained-release component with a medication that maintains the initial benefit by targeting a different neural mechanism does not elicit tolerance, thus allowing more time for acute tolerance elicited by the initial bolus dose of stimulant medication to dissipate completely each day and avoid carry-over and accumulation that results in long-term tolerance.

Autism (ASD) symptoms of aggression-toward others or self, and paranoia with social isolation, are presently treated with antipsychotic medications such as haloperidol, Thorazine, and newer generation antipsychotics risperidone and aripiprazole (latter two are the only FDA approved drugs for treating autism irritability/aggression). But these antipsychotics including the newer generation, after a two or more years of use, often lead to irreversible tardive dyskinesia, other dystonias, loss of effectiveness, and brain volume loss. The present invention overcomes the irreversible tardive dyskinesia and dystonias and loss of effectiveness with long term-use of antipsychotics, by replacing the antipsychotic completely with a three (3) drug novel composition consisting of fluoxetine or sertraline with guanfacine and oxcarbazepine. This novel composition markedly reduces aggression and paranoia/social isolation in ASD adults and adolescents without concomitant antipsychotic use that often causes irreversible tardive dyskinesia, eventual tachyphylaxis, or brain volume loss from antipsychotic long-term use.

Autism (ASD) symptoms of aggression-toward others or self, and paranoia with social isolation, are presently treated with antipsychotic medications such as haloperidol, Thorazine, and newer generation antipsychotics risperidone and aripiprazole (latter two are the only FDA approved drugs for treating autism irritability/aggression). But these antipsychotics including the newer generation, after a two or more years of use, often lead to irreversible tardive dyskinesia, other dystonias, loss of effectiveness, and brain volume loss. The present invention overcomes the irreversible tardive dyskinesia and dystonias and loss of effectiveness with long term-use of antipsychotics, by replacing the antipsychotic completely with a three (3) drug novel composition consisting of fluoxetine or sertraline with guanfacine and oxcarbazepine. This novel composition markedly reduces aggression and paranoia/social isolation in ASD adults and adolescents without concomitant antipsychotic use that often causes irreversible tardive dyskinesia, eventual tachyphylaxis, or brain volume loss from antipsychotic long-term use.

The invention provides compositions, methods and kits for the removal of harmful or irritating substances from bodily surfaces. Kits may include a composition containing capsaicin and a capsaicin-cleansing composition, e.g., a composition in which capsaicin is soluble.