Abstract: The present invention generally relates to in vitro methods for mimicking in vivo pathological or physiologic conditions. The methods comprise applying shear forces to a cell type or cell type plated on a surface within a cell culture container. Methods for testing drugs or compounds in such systems are also described.

Abstract: The present invention generally relates to in vitro methods for mimicking in vivo pathological or physiologic conditions. The methods comprise applying shear forces to a cell type or cell type plated on a surface within a cell culture container. Methods for testing drugs or compounds in such systems are also described.

Abstract: The present invention generally relates to in vitro methods for mimicking in vivo pathological or physiologic conditions. The methods comprise applying shear forces to a cell type or cell type plated on a surface within a cell culture container. Methods for testing drugs or compounds in such systems are also described.

Abstract: The present invention generally relates to in vitro methods for mimicking in vivo pathological or physiologic conditions. The methods comprise applying shear forces to a cell type or cell type plated on a surface within a cell culture container. Methods for testing drugs or compounds in such systems are also described.

Abstract: The present invention generally relates to in vitro methods for mimicking in vivo pathological or physiologic conditions. The methods comprise applying shear forces to a cell type or cell type plated on a surface within a cell culture container. Methods for testing drugs or compounds in such systems are also described.

Abstract: Embodiments relate to systems and methods allowing selective bypass of code flows in computer software. According to particular embodiments, a bypass attribute is introduced into code flows (e.g., present for development and/or testing purposes only) that are to be disabled prior to releasing the final operational version of the software. A value for the bypass attribute is determined at single, a central engine. Based upon that bypass attribute value, the code flow is either executed or bypassed. In certain embodiments the bypass attribute is implemented in the form of a substitute variable. In some embodiments the bypass attribute is implemented in the form of a code flow call. The bypass attribute may operate in a sequential manner, such that execution of other downstream code flows is also bypassed. One example is provided in the form of bypassing code flows of an Extract, Transform, Load (ETL) process.

Abstract: Described herein is an extensible extract, transform and load (ETL) framework. In accordance with one aspect of the framework, a file location object and a corresponding file format object are retrieved from a repository. The file location object stores file location parameters that specify a remote file system directory and a local file system directory, while the file format object stores location configuration parameters that specify a data file and the file location object. The data file may be transferred from the remote file system directory to the local file system directory according to the file location parameters and the location configuration parameters. An extract, transform and load (ETL) job may then be performed on the data file to generate an output file.

Abstract: The present invention generally relates to in vitro methods for mimicking in vivo pathological or physiologic conditions. The methods comprise applying shear forces to a cell type or cell type plated on a surface within a cell culture container. Methods for testing drugs or compounds in such systems are also described.

Abstract: The present invention generally relates to in vitro methods for mimicking in vivo pathological or physiologic conditions. The methods comprise applying shear forces to a cell type or cell type plated on a surface within a cell culture container. Methods for testing drugs or compounds in such systems are also described.

Abstract: Described herein is an extensible extract, transform and load (ETL) framework. In accordance with one aspect of the framework, a file location object and a corresponding file format object are retrieved from a repository. The file location object stores file location parameters that specify a remote file system directory and a local file system directory, while the file format object stores location configuration parameters that specify a data file and the file location object. The data file may be transferred from the remote file system directory to the local file system directory according to the file location parameters and the location configuration parameters. An extract, transform and load (ETL) job may then be performed on the data file to generate an output file.

Abstract: The present invention generally relates to in vitro methods for mimicking in vivo pathological or physiologic conditions. The methods comprise applying shear forces to a cell type or cell type plated on a surface within a cell culture container. Methods for testing drugs or compounds in such systems are also described.

Abstract: Embodiments relate to systems and methods allowing selective bypass of code flows in computer software. According to particular embodiments, a bypass attribute is introduced into code flows (e.g., present for development and/or testing purposes only) that are to be disabled prior to releasing the final operational version of the software. A value for the bypass attribute is determined at single, a central engine. Based upon that bypass attribute value, the code flow is either executed or bypassed. In certain embodiments the bypass attribute is implemented in the form of a substitute variable. In some embodiments the bypass attribute is implemented in the form of a code flow call. The bypass attribute may operate in a sequential manner, such that execution of other downstream code flows is also bypassed. One example is provided in the form of bypassing code flows of an Extract, Transform, Load (ETL) process.

Abstract: The present invention generally relates to in vitro methods for mimicking in vivo pathological or physiologic conditions. The methods comprise applying shear forces to a cell type or cell type plated on a surface within a cell culture container. Methods for testing drugs or compounds in such systems are also described.

Abstract: RGO is coupled with AgP in a novel one-pot photo-reduction technique in presence of a sacrificial agent like dry ethanol. Tests of the collected dirty green semiconducting towards adosoptive photodegradation of textile dyes showed that 4 wt. % RGO-AgP can degrade 100, 76, 98.57, 67.88, 69.92% of RhB, Rh6G, MB, CR and MO, respectively within only 5 min under VISL illumination over 1.5 g/L of catalyst.

Abstract: The present invention generally relates to in vitro methods for mimicking in vivo pathological or physiologic conditions. The methods comprise applying shear forces to a cell type or cell type plated on a surface within a cell culture container. Methods for testing drugs or compounds in such systems are also described.

Abstract: In an external system, a request handler may receive, at the external system, a logon ticket from a proprietary software system, the logon ticket associated with a request from a user of the proprietary system for access to the external system. A ticket handler may provide the logon ticket to an authentication service which is configured to perform a validation of the logon ticket at the proprietary system. A session manager may receive, from the authentication service and based on the validation, a user session and access rights related to the requested access. An access control manager may provide the requested access to the user via the proprietary system, according to the access rights and within the user session.

Abstract: Data read from a database may be transferred to an external system utilizing a dynamic interface, through a remote procedure call (RPC) communication mechanism. In particular embodiments within the SAP environment, data is transferred utilizing an executable program in a high level language such as Advanced Business Application Programming (ABAP). Data may be streamed from the ABAP executable program directly to a Data Services Job engine via a NetWeaver remote function call (NWRFC) C/C++ connector.

Abstract: The present invention generally relates to in vitro methods for mimicking in vivo pathological or physiologic conditions. The methods comprise applying shear forces to a cell type or cell type plated on a surface within a cell culture container. Methods for testing drugs or compounds in such systems are also described.

Abstract: Data read from a database may be transferred to an external system utilizing a dynamic interface, through a remote procedure call (RPC) communication mechanism. In particular embodiments within the SAP environment, data is transferred utilizing an executable program in a high level language such as Advanced Business Application Programming (ABAP). Data may be streamed from the ABAP executable program directly to a Data Services Job engine via a NetWeaver remote function call (NWRFC) C/C++ connector.

Abstract: In an external system, a request handler may receive, at the external system, a logon ticket from a proprietary software system, the logon ticket associated with a request from a user of the proprietary system for access to the external system. A ticket handler may provide the logon ticket to an authentication service which is configured to perform a validation of the logon ticket at the proprietary system. A session manager may receive, from the authentication service and based on the validation, a user session and access rights related to the requested access. An access control manager may provide the requested access to the user via the proprietary system, according to the access rights and within the user session.