Dittman
Brian Dittman, Lenexa, KS US
Patent application number | Description | Published |
---|---|---|
20140286911 | CELL REPOPULATED COLLAGEN MATRIX FOR SOFT TISSUE REPAIR AND REGENERATION - The present invention provides compositions for treating soft tissue injuries comprising a collagen matrix and mesenchymal stem cells adhered to the collagen matrix. Methods of making and using compositions comprising a collagen matrix and mesenchymal stem cells adhered to the collagen matrix are also provided. | 09-25-2014 |
Gavin Dittman, Anchorage, AK US
Patent application number | Description | Published |
---|---|---|
20130312958 | RESERVOIR TREATMENT - A method of treatment of a subterranean hydrocarbon-bearing reservoir, the reservoir comprising at least one porous and permeable rock formation, the reservoir being penetrated by a plurality of injection wells and one or more production wells, the injection wells sharing a common injection header for delivering an aqueous injection fluid to the injection wells, the method comprising: a. identifying a group of injection wells selected from the injection wells sharing the common injection header; b. determining a cumulative volume of the treatment stream that is to be supplied contemporaneously to all of the injection wells within the identified group; c. simultaneously transmitting the treatment stream only to the identified group of injection wells so as to inject the treatment stream into the reservoir, thereby treating the reservoir to improve the sweep efficiency of subsequently injected fluid. | 11-28-2013 |
Jay A. Dittman, Indianapolis, IN US
Patent application number | Description | Published |
---|---|---|
20100179635 | PROSTHESIS DEPLOYMENT SYSTEM - An introducer for an expandable endovascular prosthesis having a self expanding stent has a distal prosthesis positioning mechanism and a proximal prosthesis retention mechanism. The proximal prosthesis retention mechanism includes a cylindrical sleeve adapted to retain the self expanding stent. A release mechanism extends proximally from the distal prosthesis positioning mechanism exerts a force in the proximal direction on the self expanding stent to retain the self expanding stent in the cylindrical sleeve. | 07-15-2010 |
Jay A. Dittman, Bloomington, IN US
Patent application number | Description | Published |
---|---|---|
20100163159 | LARGE DIAMETER DELIVERY CATHETER/SHEATH - A large diameter, flexible, kink-resistant, delivery catheter or sheath for percutaneous delivery of a contained and implantable medical device in the vasculature of a patient. The delivery catheter or sheath includes a reinforcement such as a flat wire coil with uniform spacing between the turns, which is compression fitted about an inner, lubricous PTFE tube. The delivery catheter or sheath further includes an outer tube of a heat formable polyamide material which is heat formed and compressed through the spaces between the turns of the wire coil to mechanically connect to a roughened outer surface of the inner tube. A polymeric radiopaque marker tube may be positioned at the distal end of the coil and between the inner and outer tubes for radiographic visualization. A side port may also be positioned thereat for the infusion of contrast media. | 07-01-2010 |
Markus Dittman, Karlsruhe DE
Patent application number | Description | Published |
---|---|---|
20100183267 | OPTOELECTRONIC INTERCONNECTION SYSTEM - An optoelectronic interconnection system is for use in optical communications. The optoelectronic interconnection system may include a substrate having a main portion and a foldable portion formed on a substrate of a board for positioning an optically active device connected to the foldable portion. The foldable portion is adapted to be folded with respect to the main portion into a desired optical coupling orientation for which an optical operative axis (OA) of the optically active device arranged therein is substantially aligned with an optical transmission axis (TT′) that is other than perpendicular to the main portion. A holding fixture holds the foldable portion in the desired optical coupling orientation. | 07-22-2010 |
Mike Dittman, Lauchhammer DE
Patent application number | Description | Published |
---|---|---|
20100218843 | PROCESS AND DEVICE FOR FILLING A TUBE WITH GRANULAR MATERIAL - A process for filling a tube with granular material, which material is guided downwardly in a vertically oriented tube along a line provided with flexible elements in the shape of wires which are arranged substantially to the line, and having a radial dimension which is smaller than the inner diameter of the tube, the line being removed from the tube as the latter is filled with the granules, the line being moved during the removal movement with a non uniform speed which is related to the filling speed of the device. | 09-02-2010 |
Ralf-Peter Dittman, Rotenburg DE
Patent application number | Description | Published |
---|---|---|
20110272086 | MOULDED BODY FOR PRODUCING A FIBRE COMPOSITE COMPONENT - A shaped body and a method for producing fibre composite components, wherein the shaped body is formed using a paper and/or cardboard material, at least in part. This makes possible cost-effective manufacture of hollow profiles of any desired length from fibre composite materials, in particular from prepreg materials and/or reinforcing fibre arrangements which are subsequently impregnated with a curable plastics material. The paper and/or cardboard material can be provided with further properties, such as gas-tightness and non-stick properties, by applying suitable functional layers. Moreover, the material makes it possible to produce highly dimensionally stable shaped bodies or support cores, in such a way that fibre composite components having highly reproducible spatial dimensions can be produced. In addition, after curing, the shaped bodies can be collapsed in a simple manner by applying a vacuum and thus removed from the fibre composite component without residues. | 11-10-2011 |
Rick Terrell Dittman, Tenino, WA US
Patent application number | Description | Published |
---|---|---|
20150014949 | Carrying Device Attachment - Embodiments are disclosed that relate to attaching carrying devices to one another for convenient transport. For example, one disclosed embodiment provides a system comprising a first carrying device and a second carrying device. A catch is disposed on an anterior surface of the first carrying device, and a receiver is disposed on a posterior surface of the second carrying device. The catch is configured to releasably attach to the receiver to thereby connect the first carrying device to the second carrying device. | 01-15-2015 |
Scott Dittman, Denver, CO US
Patent application number | Description | Published |
---|---|---|
20140283452 | PHOTOSYNTHETIC GROW MODULE AND METHODS OF USE - A photosynthetic grow module including a fully enclosed ISO container, within which resides a removable cartridge including a lighting system and hydroponic system, is described. The removable cartridges are configured to be readily removed from within an ISO container for planting and harvesting, and readily inserted into an ISO container for growing. The removable cartridges are typically removed from and inserted into an ISO container by use of a fork lift or crane. The photosynthetic grow modules are typically adapted to stack and interlock one atop another, without requiring additional framework or other support structure. Each photosynthetic grow module can include its own heat pump for independent heating and cooling of individual modules, and the units can have a coating within which ceramic microspheres and aluminum flakes are embedded. Lighting systems can include fluorescent lamps combined with LED lamps. | 09-25-2014 |
Vicky Elizabeth Dittman, Aurora, IL US
Patent application number | Description | Published |
---|---|---|
20140070484 | FEEDER SYSTEM FOR BEVERAGE CONTAINER HOLDER PROCESS - A system includes a sheet holder configured to hold a sheet of blanks, the sheet of blanks including a first blank and a second blank attached to the first blank. A conveyor mechanism is configured to transport the sheet of blanks from the sheet holder to a separator mechanism. The separator mechanism is configured to apply a pulling force to the first blank. A resistance component is configured to apply a resistance force to the second blank to resist the pulling force. The pulling force and the resistance force are configured to separate the first blank from the second blank. | 03-13-2014 |