Abstract:
Configuration software implements techniques for customizing names of insulin delivery profiles with improved patient safety. The techniques include: receiving a string of characters which serve as a name for a given insulin delivery profile, where the insulin delivery profile includes at least one parameter pertaining to insulin delivery by an insulin pump and is one of a plurality of insulin delivery profiles associated with a given patient; normalizing the string of characters in accordance with a rule set; comparing the normalized string of characters with names for each of the plurality of insulin delivery profiles; and updating the name of the given insulin delivery profile in a pump configuration file residing on the configuration device when the normalized string of characters is unique in relation to the names of the plurality of insulin delivery profiles.
Abstract:
Configuration software implements techniques for customizing names of insulin delivery profiles with improved patient safety. The techniques include: receiving a string of characters which serve as a name for a given insulin delivery profile, where the insulin delivery profile includes at least one parameter pertaining to insulin delivery by an insulin pump and is one of a plurality of insulin delivery profiles associated with a given patient; normalizing the string of characters in accordance with a rule set; comparing the normalized string of characters with names for each of the plurality of insulin delivery profiles; and updating the name of the given insulin delivery profile in a pump configuration file residing on the configuration device when the normalized string of characters is unique in relation to the names of the plurality of insulin delivery profiles.
Abstract:
A diabetes management system having a reliable data management scheme is disclosed. The system comprises a plurality of devices, each device performing a different function relating to treatment of diabetes. Each device has a device identifier and each device generates data records relating to the function of the device. Each device includes a metadata generator configured to generate a metadata tag for a data record generated by the device. A metadata tag includes the device identifier of the corresponding device, a record identifier, and a source identifier indicating whether the record was originated by a human or the device. The system further includes a diabetes management device in communication with the plurality of devices and configured to manage records received from the plurality of devices. When a first device of the plurality of devices generates a new record to be communicated to the diabetes management device, the metadata generator of the first device generates a new unique record identifier and a new metadata tag based on the new unique record identifier and the device identifier of the first device, and the first device propagates the new record and the new metadata tag to the second device.
Abstract:
A computer-implemented method of operating a diabetes treatment system that includes an insulin pump and a pump controlling device is disclosed. The method includes receiving, by the device, a request for the pump to perform an operation that is dependent on a specified state of the pump. The method also includes requesting, by the device, a current state of the pump from the pump. Moreover, the method includes receiving, by the device, the current state of the pump. Also, the method includes determining, by the device, whether the current state of the pump matches to the specified state of the pump. Additionally, the method includes sending, by the device to the pump, a command to perform the operation in response to a determination that the current state of the pump matches the specified state of the pump.
Abstract:
An insulin pump is configurable by a configurator. The pump has parameter blocks, each with a respective parameter and an associated restriction setting, and the configurator has an authorization level. Configuring the pump includes receiving, by the configurator, a request to access a parameter on the pump. The method also includes identifying, by the configurator, the parameter block that includes the parameter. Moreover, the method includes retrieving, by the configurator from the pump, the parameter and the associated restriction setting, and comparing, by the configurator, the authorization level of the configurator to the restriction setting. Also, the method includes determining, by the configurator, whether the configurator is authorized to write to the parameter block based on the comparison. Additionally, the method includes writing, by the configurator, to the parameter block on the insulin pump in response to a determination that the configurator is authorized to write to the parameter block.
Abstract:
A method of operating an insulin treatment system that includes an insulin pump and a pump controlling device is disclosed. The method includes receiving, by the pump controlling device, a request to execute a function that is included on the pump controlling device. The function is governed by a rule having a parameter. The method also includes requesting, by the pump controlling device, a value for the parameter from the insulin pump, and receiving the value from the insulin pump. Also, the method includes executing, by the pump controlling device, the function using the received value for the parameter.
Abstract:
A computer-implemented method is presented for synchronizing time between two handheld medical devices that interoperate with each other. The method includes: determining a first time as measured by a first clock residing in the first medical device; determining a second time as measured by a second clock residing in a second medical device; evaluating whether the first clock is synchronized with the second clock; determining whether at least one of the first clock and the second clock was set manually by a user; and setting time of the first clock in accordance with the second time when the second clock was set manually by the user.
Abstract:
A computer-implemented method is presented for synchronizing time between two handheld medical devices that interoperate with each other. The method includes: determining a first time as measured by a first clock residing in the first medical device; determining a second time as measured by a second clock residing in a second medical device; evaluating whether the first clock is synchronized with the second clock; determining whether at least one of the first clock and the second clock was set manually by a user; and setting time of the first clock in accordance with the second time when the second clock was set manually by the user.
Abstract:
An insulin pump is configurable by a configurator. The pump has parameter blocks, each with a respective parameter and an associated restriction setting, and the configurator has an authorization level. Configuring the pump includes receiving, by the configurator, a request to access a parameter on the pump. The method also includes identifying, by the configurator, the parameter block that includes the parameter. Moreover, the method includes retrieving, by the configurator from the pump, the parameter and the associated restriction setting, and comparing, by the configurator, the authorization level of the configurator to the restriction setting. Also, the method includes determining, by the configurator, whether the configurator is authorized to write to the parameter block based on the comparison. Additionally, the method includes writing, by the configurator, to the parameter block on the insulin pump in response to a determination that the configurator is authorized to write to the parameter block.
Abstract:
A computer-implemented method of operating a diabetes treatment system that includes an insulin pump and a pump controlling device is disclosed. The method includes receiving, by the device, a request for the pump to perform an operation that is dependent on a specified state of the pump. The method also includes requesting, by the device, a current state of the pump from the pump. Moreover, the method includes receiving, by the device, the current state of the pump. Also, the method includes determining, by the device, whether the current state of the pump matches to the specified state of the pump. Additionally, the method includes sending, by the device to the pump, a command to perform the operation in response to a determination that the current state of the pump matches the specified state of the pump.