Abstract: The disclosure relates to methods of slowing an increase in brain ventricular volume. In certain aspects, methods of slowing an increase in brain ventricular volume in a patient with multiple sclerosis are disclosed.

Abstract: The disclosure relates to methods of preserving myelination of axons in a human subject having a demyelinating disease by administration of an effective amount of a monoselective S1P receptor modulator, such as ponesimod.

Abstract: The present invention relates to novel, selective radiolabelled tau ligands which are useful for imaging and quantifying tau aggregates, using positron-emission tomography (PET). The invention is also directed to compositions comprising such compounds, to processes for preparing such compounds and compositions, to the use of such compounds and compositions for imaging a tissue or a subject, in vitro or in vivo, and to precursors of said compounds.

Abstract: The present invention relates to novel, selective radiolabelled tau ligands which are useful for imaging and quantifying tau aggregates, using positron-emission tomography (PET). The invention is also directed to compositions comprising such compounds, to processes for preparing such compounds and compositions, to the use of such compounds and compositions for imaging a tissue or a subject, in vitro or in vivo, and to precursors of said compounds.

Abstract: The present invention relates to novel, selective radiolabelled tau ligands which are useful for imaging and quantifying tau aggregates, using positron-emission tomography (PET). The invention is also directed to compositions comprising such compounds, to processes for preparing such compounds and compositions, to the use of such compounds and compositions for imaging a tissue or a subject, in vitro or in vivo, and to precursors of said compounds.

Abstract: The present invention relates to novel, selective radiolabelled tau ligands which are useful for imaging and quantifying tau aggregates, using positron-emission tomography (PET). The invention is also directed to compositions comprising such compounds, to processes for preparing such compounds and compositions, to the use of such compounds and compositions for imaging a tissue or a subject, in vitro or in vivo, and to precursors of said compounds.

Abstract: The present invention relates to novel, selective radiolabelled tau ligands which are useful for imaging and quantifying tau aggregates, using positron-emission tomography (PET). The invention is also directed to compositions comprising such compounds, to processes for preparing such compounds and compositions, to the use of such compounds and compositions for imaging a tissue or a subject, in vitro or in vivo, and to precursors of said compounds.

Abstract: The present invention relates to novel, selective radiolabelled tau ligands which are useful for imaging and quantifying tau aggregates, using positron-emission tomography (PET). The invention is also directed to compositions comprising such compounds, to processes for preparing such compounds and compositions, to the use of such compounds and compositions for imaging a tissue or a subject, in vitro or in vivo, and to precursors of said compounds.

Abstract: A method for synthesizing an 18F-labeled probe. The method includes a step of eluting an amount of 18F with a first solvent which includes a predetermined amount of water and at least one organic solvent. In this step, the 18F elutes as an 18F solution. The method also includes a step of using the 18F solution to perform 18F-labeling in the presence of at least one labeling reagent and at least one phase transfer catalyst so as to generate the 18F-labeled probe. In the method, there is no step of drying the 18F starting from a time when the eluting step is performed and ending at a time when the 18F-labeling step is performed.

Abstract: A method for synthesizing an 18F-labeled probe. The method includes a step of eluting an amount of 18F with a first solvent which includes a predetermined amount of water and at least one organic solvent. In this step, the 18F elutes as an 18F solution. The method also includes a step of using the 18F solution to perform 18F-labeling in the presence of at least one labeling reagent and at least one phase transfer catalyst so as to generate the 18F-labeled probe. In the method, there is no step of drying the 18F starting from a time when the eluting step is performed and ending at a time when the 18F-labeling step is performed.

Abstract: A method for generating a radiolabeled tracer. The method includes providing a phosphine molecule having at least one carbocyclic, aromatic, or pyrrolidinyl ring with an OH substitute. The OH of this phosphines molecule is then condensed with an acid to produce a phosphine ester. Staudinger ligation is then performed to generate the radiolabeled tracer by treating the phosphine ester with a radiolabeled azide having a PET radioisotope moiety.

Abstract: A microfluidic structure and method, where the structure comprises a featureless gasket layer allowing for efficient and reproducible structure production and assembly. Layering methods allow for the use of a variety of device materials and easy assembly.

Abstract: Methods and devices for a fully automated synthesis of radioactive compounds for imaging, such as by positron emission tomography (PET), in a fast, efficient and compact manner are disclosed. In particular, the various embodiments of the present invention provide an automated, stand-alone, hands-free operation of the entire radiosynthesis cycle on a microfluidic device with unrestricted gas flow through the reactor, starting with target water and yielding purified PET radiotracer within a period of time shorter than conventional chemistry systems. Accordingly, one aspect of the present invention is related to a microfluidic chip for radiosynthesis of a radiolabeled compound, comprising a reaction chamber, one or more flow channels connected to the reaction chamber, one or more vents connected to said reaction chamber, and one or more integrated valves to effect flow control in and out of said reaction chamber.

Abstract: The present application is generally directed to microfluidic devices and methods for the achievement and assessment of chemical and radiochemical purity of (microfluidic) radio-synthesis products. More particularly, the current application relates to systems for purification and analysis of radiochemical products yielded by microfluidic synthesis devices.

Abstract: This invention concerns novel thiazolopyrazole compounds and compositions comprising them. Methods of using these compounds for the treatment, prevention and management of various diseases and disorders are also encompassed by the invention.

Abstract: Described herein are automated, integrated microfluidic device comprising a chemical reaction chip comprising for performing chemical reaction, a microscale column integrated with the chip and configured for liquid flow from the column to at least one flow channel, and wherein the fluid flow into the column is controlled by on-chip valves; and comprising at least two on-chip valves for controlling fluid flow in the microfluidic device.

Abstract: A microfluidic structure and method, where the structure comprises a featureless gasket layer allowing for efficient and reproducible structure production and assembly. Layering methods allow for the use of a variety of device materials and easy assembly.

Abstract: This invention concerns novel thiazole compounds. Methods of using these compounds for the treatment, prevention and management of various diseases or disorders, as well as pharmaceutical compositions of these compounds, are also disclosed.

Abstract: The invention provides a method for identifying a candidate imaging probe, the method comprising: a) contacting a first library of candidate compounds with a target biomacromolecule, b) identifying a first member from the first library exhibiting affinity for the first binding site; c) contacting the first member identified from the first library affinity for the first binding site with the target biomacromolecule; d) contacting a second library of candidate compounds with the first member and the target biomacromolecule, e) reacting the complementary first functional group with the second functional group via a biomacromolecule induced click chemistry reaction to form the candidate imaging probe; f) isolating and identifying the candidate imaging probe; g) preparing the candidate imaging probe by chemical synthesis; and h) for imaging applications, converting the candidate imaging probe into an imaging probe.

Abstract: The present disclosure provides a method for preparing a radioactive ligand or radioactive substrate having affinity for a target biomacromolecule, the method comprising: (a) reacting a first compound comprising a first functional group capable of participating in a click chemistry reaction, with a radioactive reagent under conditions sufficient to displace the leaving group with a radioactive component of the radioactive reagent to form a first radioactive compound; (b) providing a second compound comprising a second complementary functional group capable of participating in a click chemistry reaction with the first functional group; (c) reacting the first functional group of the first radioactive compound with the complementary functional group of the second compound via a click chemistry reaction to form the radioactive ligand or substrate; and (d) isolating the radioactive ligand or substrate.