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Chou, Vancouver
Doug Ta Hung Chou, Vancouver CA
| Patent application number | Description | Published |
|---|---|---|
| 20090088464 | Merged ion channel modulating compounds and Uses Thereof - Merged compounds of ion channel modulating compounds, including, for example, merged compounds of the ion channel modulating compound of the following formula: (I) are described herein, as well as methods of making and using such merged compounds and pharmaceutical compositions containing such merged compounds. | 04-02-2009 |
| 20090105256 | PRODRUGS OF ION CHANNEL MODULATING COMPOUNDS AND USES THEREOF - Prodrugs of ion channeling modulating compounds, including, for example, prodrugs of the ion channel modulating compound of the following formula: are described herein, as well as methods of making and using such prodrugs and pharmaceutical compositions containing such prodrugs. | 04-23-2009 |
| 20100152276 | DEUTERATED AMINOCYCLOHEXYL ETHER COMPOUNDS AND PROCESSES FOR PREPARING SAME - This invention is directed to deuterated aminocyclohexyl ether compounds and processes for preparing same and methods of using same. | 06-17-2010 |
| 20100152464 | SYNTHETIC PROCESS FOR AMINOCYCLOHEXYL ETHER COMPOUNDS - Methods for the preparation of stereoisomerically substantially aminocyclohexyl ether compounds such as trans-(1R,2R)-aminocyclohexyl ether compounds and/or trans-(1S,2S)-aminocyclohexyl ether compounds as well as various intermediates and substrates are disclosed. | 06-17-2010 |
| 20100217014 | SYNTHETIC PROCESSES FOR THE PREPARATION OF AMINOCYCLOHEXYL ETHER COMPOUNDS - This invention is directed to stereoselective synthesis of compounds of formula (I) or formula (II): | 08-26-2010 |
| 20100273724 | PEGYLATED ION CHANNEL MODULATING COMPOUNDS - This invention is directed to PEGlyated derivatives, drug conjugates and isotopic derivatives of certain ion channel modulating compounds. Pharmaceutical compositions and methods of use of also disclosed | 10-28-2010 |
| 20110004006 | AMINOCYCLOHEXYL ETHER COMPOUNDS AND USES THEREOF - Aminocyclohexyl ether compounds are disclosed. The compounds of the present invention may be incorporated in compositions and kits. The present invention also discloses uses for the compounds and compositions, including the treatment of arrhythmia. | 01-06-2011 |
Wa Lok Chou, Vancouver CA
| Patent application number | Description | Published |
|---|---|---|
| 20100041562 | MICROFLUIDIC MICROARRAY ASSEMBLIES AND METHODS OF MANUFACTURING AND USING - Microarray devices fabricated using microfluidic reagent distribution techniques are provided. As described herein, the invention encompasses microfluidic microarray assemblies (MMA) and subassemblies and methods for their manufacture and use. In one embodiment first and second channel plates are provided which may be sealed to a test chip in consecutive steps. Each channel plate includes microfluidic channels configured in a predetermined reagent distribution pattern. For example, the first channel plate may have a radial (linear) reagent distribution pattern and the second channel plate may have a spiral (curved) reagent distribution pattern, or vice versa. In one embodiment the first channel plate is connected to the test chip and at least one first reagent is distributed on the test chip in a first predetermined reagent pattern. The first reagent is then immobilized on the test chip. Next, the first channel plate is removed, the second channel plate is connected to the test chip and at least one second reagent is distributed on the test chip in a second predetermined reagent pattern. The first and second reagent patterns intersect to define a plurality of microarray test positions on the test chip. In one embodiment, the first reagent may comprise a plurality of separate probes each distributed to selected test position(s) of the microarray and the second reagent may comprise a plurality of test samples each distributed to selected test position(s) of the microarray. Positive or negative reactions between the probes (or other first reagent) and test samples (or other second reagent) may then be detected at the microarray test positions. For example, hybridization between selected nucleic acid probes and selected nucleic acid samples may be detected at particular test positions. The invention thus provides an efficient means to fabricate high density multi-probe, multi-sample microarrays. Preferably the test chips and channel plates are circular and centrifugal force is used to achieve fluid flow through the microfluidic channels, such as by rotating the MMA in a disc spinner. | 02-18-2010 |