A computer-executable application receives genetic test results for a genetic test a patient has undergone, an identifier for the genetic test, and an identifier for the genetic laboratory that performed the genetic test. The application identifies a format type of the genetic test results. When the format type is unstructured, the application performs an optical character recognition process to the genetic test results such that the format type of the genetic test results is semi-structured. When the format type is semi-structured, the application identifies a set of lexing and parsing rules assigned to the genetic test. The application generates processed genetic test results by applying the set of lexing and parsing rules to the genetic test results and stores the processed genetic test results in a data store. When the format type is structured, the application stores the genetic test results as the processed genetic test results in the data store.

A computer-executable application receives genetic test results for a genetic test a patient has undergone, an identifier for the genetic test, and an identifier for the genetic laboratory that performed the genetic test. The application identifies a format type of the genetic test results. When the format type is unstructured, the application performs an optical character recognition process to the genetic test results such that the format type of the genetic test results is semi-structured. When the format type is semi-structured, the application identifies a set of lexing and parsing rules assigned to the genetic test. The application generates processed genetic test results by applying the set of lexing and parsing rules to the genetic test results and stores the processed genetic test results in a data store. When the format type is structured, the application stores the genetic test results as the processed genetic test results in the data store.

An adhesive-backed label having a plurality of adhesive-backed label portions, each of the adhesive-backed label portions comprising an instance of an identifying indicia, whereby one or more of the plurality of adhesive-backed label portions is applied to at least one collected sample so that the identifying indicia on the adhesive-backed label portion on the collected sample corresponds to the identifying indicia on at least one of the adhesive-backed label portions that remains on the adhesive-backed label, at least one of the adhesive-backed label portions on the adhesive-backed label also comprising a field configured to receive additional identifying indicia.

A method for monitoring medical data is disclosed, the method being applicable to a system comprising a portable medical device, a mobile communications device, and, optionally, a medical care server. The portable medical device and the mobile communications device each comprise at least one interface for data transfer. The method comprises a step of establishing a download link between the mobile communications device and a download server. The method comprises a step of selecting an appropriate communication software package from a plurality of communication software packages for controlling data transfer between the mobile communications device and the portable medical device from the download server. Further, the method comprises a download step for downloading communication software packages from the download server to the mobile communications device and a step of installation of the communication software package on the mobile communications device.

A method for monitoring medical data is disclosed, the method being applicable to a system comprising a portable medical device, a mobile communications device, and, optionally, a medical care server. The portable medical device and the mobile communications device each comprise at least one interface for data transfer. The method comprises a step of establishing a download link between the mobile communications device and a download server. The method comprises a step of selecting an appropriate communication software package from a plurality of communication software packages for controlling data transfer between the mobile communications device and the portable medical device from the download server. Further, the method comprises a download step for downloading communication software packages from the download server to the mobile communications device and a step of installation of the communication software package on the mobile communications device.

A remote monitoring system for medical data collection can include a data-flagging process embeds authorization and settings information into a file containing the test results. Such data flagging can occur at a medical device or testing site, and may be based in policy settings received from a remote system. A file containing the test results can also include data category information that can be used to protect sensitive information by preventing such information from being communicated to the wrong server.

A remote monitoring system for medical data collection can include a data-flagging process embeds authorization and settings information into a file containing the test results. Such data flagging can occur at a medical device or testing site, and may be based in policy settings received from a remote system. A file containing the test results can also include data category information that can be used to protect sensitive information by preventing such information from being communicated to the wrong server.

The present invention relates to a method and system for quality compliance, system and operator verification, and process management for point of care biological sample testing systems used in hospitals and other medical delivery environments. Specifically, the present invention may be directed to a computing device configured to generate a plurality of attributes configured to assess a competency level of an operator to operate at least one sample testing instrument, obtain operator derived data pertaining to the operator's ability to operate the at least one sample testing instrument, and determine a competency level of the operator for the at least one sample testing instrument based the plurality of attributes and the operator derived data.

Systems, devices, and methods are provided for the management of multiple sensor control devices and/or multiple reader devices in an in vivo analyte monitoring environment, and also for resolving conflicts when merging data collected by different reader devices.

The present invention provides improved methods, facilities and systems for parallel processing of biological cellular samples in an efficient and scalable manner. The invention enables parallel processing of biological cellular samples, such as patient samples, in a space and time efficient fashion. Process simulation may be used to determine the optimal arrangement and/or quantity of cell processing equipment needed. The methods, facilities and systems of the invention find particular utility in processing patient samples for use in cell therapy.