| Patent application number | Description | Published |
|---|
| 20080269801 | SURGICAL STAPLER - A surgical stapler comprises a hollow shaft | 10-30-2008 |
| 20080269802 | SURGICAL STAPLER - A surgical stapler comprises a hollow shaft | 10-30-2008 |
| 20080272173 | SURGICAL STAPLER - A surgical stapler comprises a hollow shaft | 11-06-2008 |
| 20090105733 | ANASTOMOSIS DEVICES AND METHODS - Methods and devices are provided for anastomosing tissue in the body. In one exemplary embodiment, an anastomotic device is provided having an elongate tubular body that is disposable through a body lumen and that includes proximal and distal portions. The proximal and distal portions can each include a plurality of asymmetrical s-shaped slits and can each be adapted to expand upon rotation to form proximal and distal wings. The proximal and distal wings can extend toward one another to engage tissue therebetween and thereby form a passageway through the tissue. | 04-23-2009 |
| 20090230168 | SURGICAL STAPLER - A surgical stapler comprises a hollow shaft | 09-17-2009 |
| 20100004681 | WOUND CLOSURE METHODS - Methods and devices are provided for closing a puncture wound. In one exemplary embodiment, a puncture closure device is provided having an elongate tubular body that is disposable through a puncture in tissue and that includes proximal and distal portions. The proximal portion can be adapted to expand to form proximal wings upon rotation of the elongate tubular body, preferably in a first direction. The distal portion can be adapted to expand to form distal wings upon rotation of the elongate tubular body, preferably in a second, opposite direction. The proximal and distal portions can also be adapted to be moved toward one another as they expand upon rotation. As a result, the proximal and distal wings can engage tissue therebetween. | 01-07-2010 |
| 20100114128 | GASTRIC BYPASS DEVICES AND PROCEDURES - Methods and devices for treating obesity are provided, and more particularly, methods and devices for performing gastric bypasses are disclosed. In one exemplary embodiment a gastric bypass procedure is provided that includes forming a gastro-entero anastomosis between a stomach and an intestine and forming an entero-entero anastomosis between a portion of the intestine distal to the gastro-entero anastomosis and a portion of the intestine proximal to the gastro-entero anastomosis. A surrogate path is formed between the esophagus and the gastro-entero anastomosis to at least partially direct fluid from the esophagus to the intestine by way of the gastro-entero anastomosis, thereby bypassing the stomach. A variety of devices that are particularly useful in gastric bypass procedures are also disclosed. The devices include anastomotic devices that can be coupled to or integrally formed with a shunt. The devices can include a plurality of tubular bodies that are configured to have an adjustable length. Still further, methods for repairing an abdominal aortic aneurysm and leaking heart valve are also disclosed. | 05-06-2010 |
| 20110144663 | Blood Vessel Closure Clip and Delivery Device - A clip for closing a puncture hole in a blood vessel comprises a ring having a resiliently expandable circumference and a plurality of barbed prongs extending at least approximately in the same direction from one edge of the ring. A device for deploying such a clip is also described. | 06-16-2011 |
| 20110144691 | SURGICAL STAPLE - A generally U-shaped surgical staple comprises a base | 06-16-2011 |
| Patent application number | Description | Published |
|---|
| 20120130866 | METHOD AND SYSTEM FOR CONSUMER TRANSACTIONS USING VOICE OR HUMAN BASED GESTURE ACTIONS - A method of initiating a consumer transaction using a human interaction device to read voice or human based gesture actions is disclosed. Video data is transmitted from a processing device to a display device. The video is monitoring for event data corresponding to a plurality of consumer products or services, and monitored event data is received in the processing device. A consumer is notified on the display device of an eligible consumer transaction. Voice or human based gesture actions are read with a human interaction device and are analyzed. If the voice or human based gesture actions conform to a predetermined set of requirements, then a consumer transaction for the plurality of consumer products or services is initiated. | 05-24-2012 |
| 20120130888 | METHOD AND SYSTEM FOR DISTRIBUTION OF ADVERTISEMENTS TO MOBILE DEVICES PROMPTED BY AURAL SOUND STIMULUS - A method for distributing context-based data using an acoustic receiving device and a high frequency analog acoustic signal is disclosed. The acoustic receiving device a high frequency analog acoustic signal. A high frequency analog acoustic signal is of a frequency of at least 21,000 Hz and contains encoded data. The high frequency analog acoustic signal is converted to a digital acoustic signal and then analyzed to obtain the encoded data. The data is decoded to obtain information, and the information is then displayed on the acoustic receiving device. | 05-24-2012 |
| 20120130889 | FINANCIAL CARD METHOD, DEVICE AND SYSTEM UTILIZING BAR CODES TO IDENTIFY TRANSACTION DETAILS - An electronic financial transaction arrangement using a payer device to read a machine-readable pay code in which transaction details for a specific transaction may be encoded by a pay code provider is disclosed. The machine-readable pay code may be distributed to the payer device through acoustic stimuli, or as a result of voice or human based gesture actions. A user of the payer device may also participate in the financial transaction through the indirect control of a display by reading a unique machine-readable code unique to the display. Additional transaction details for the specific transaction may be received in the payer device through near field communication, or accessed at a later time when there is established connectivity to a mobile network. | 05-24-2012 |
| 20120131094 | METHOD AND SYSTEM FOR INDIRECT CONTROL OF A WEBSITE - A method for indirectly controlling a website using a user communication device is disclosed. A unique machine-readable code is displayed on a display device, the unique machine-readable code being specific to the display device displaying contents from a website through a server. The unique machine-readable code is readable by a user communication device, the user communication device in turn being able to communicate with the server through a communication path not involving an input device associated with the display device. Commands to control content displayed through the server are received from the user communication device. The commands include the identity of the specific display device by the displayed unique machine readable code. The content displayed on the specific display device is then changed accordingly. | 05-24-2012 |
| Patent application number | Description | Published |
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| 20090141767 | Integrated Electronic Sensor - A single chip wireless sensor ( | 06-04-2009 |
| 20090273009 | Integrated CMOS porous sensor - A single chip wireless sensor ( | 11-05-2009 |
| 20110089439 | INTEGRATED CMOS POROUS SENSOR - A single chip wireless sensor comprises a microcontroller connected by a transmit/receive interface to a wireless antenna. The microcontroller is also connected to an 8 kB RAM, a USB interface, an RS232 interface, 64 kB flash memory, and a 32 kHz crystal. The device senses humidity and temperature, and a humidity sensor is connected by an 18 bit ΣΔ A-to-D converter to the microcontroller and a temperature sensor is connected by a 12 bit SAR A-to-D converter to the microcontroller. The device is an integrated chip manufactured in a single process in which both the electronics and sensor components are manufactured using standard CMOS processing techniques, applied to achieve both electronic and sensing components in an integrated process. | 04-21-2011 |
| 20110089472 | INTEGRATED MOS SENSOR HAVING TEMPERATURE SENSOR - A single chip wireless sensor comprises a microcontroller connected by a transmit/receive interface to a wireless antenna. The microcontroller is also connected to an 8 kB RAM, a USB interface, an RS232 interface, 64 kB flash memory, and a 32 kHz crystal. The device senses humidity and temperature, and a humidity sensor is connected by an 18 bit ΣΔ A-to-D converter to the microcontroller and a temperature sensor is connected by a 12 bit SAR A-to-D converter to the microcontroller. The device is an integrated chip manufactured in a single process in which both the electronics and sensor components are manufactured using standard CMOS processing techniques, applied to achieve both electronic and sensing components in an integrated process. | 04-21-2011 |
| 20110098937 | INTEGRATED MOS WIRELESS SENSOR - A single chip wireless sensor comprises a microcontroller connected by a transmit/receive interface to a wireless antenna. The microcontroller is also connected to an 8 kB RAM, a USB interface, an RS232 interface, 64 kB flash memory, and a 32 kHz crystal. The device senses humidity and temperature, and a humidity sensor is connected by an 18 bit ΣΔ A-to-D converter to the microcontroller and a temperature sensor is connected by a 12 bit SAR A-to-D converter to the microcontroller. The device is an integrated chip manufactured in a single process in which both the electronics and sensor components are manufactured using standard CMOS processing techniques, applied to achieve both electronic and sensing components in an integrated process. | 04-28-2011 |
| 20110226041 | Integrated CMOS porous sensor - A single chip wireless sensor comprises a microcontroller connected to a transmit/receive interface, which is coupled to a wireless antenna by an L-C matching circuit. The sensor senses gas or humidity and temperature. The device is an integrated chip manufactured in a single process in which both the electronics and sensor components are manufactured using standard CMOS processing techniques, applied to achieve both electronic and sensing components in an integrated process. A Low-K material with an organic polymer component is spun onto the wafer to form a top layer incorporating also sensing electrodes. This material is cured at 300° C., which is much lower than CVD temperatures. The polyimide when cured becomes thermoset, and the lower mass-to-volume ratio resulting in K, its dielectric constant, reducing to 2.9. The thermoset dielectric, while not regarded as porous in the conventional sense, has sufficient free space volume to admit enough gas or humidity for sensing. | 09-22-2011 |
