Method to allow for linking temporal record with physiological measurement in buttonless physiological meters

What is claimed is: 1. A method of operating a buttonless physiological measurement system, including temporal adjustment of the system from a remote clock, the system having a physiological meter with a microprocessor linked to a clock, memory, and display, in which the meter does not include a user input interface to permit a user to set temporal parameters, including time, for the physiological meter, and in which the clock of the meter is operable in one of relative time mode in which a relative delta-time flag is stored with measurements or an absolute time mode in which a relative delta-time flag is not stored with measurements, the method comprising the steps of: following an initiating event of the physiological meter, and automatically using the microprocessor, operating the clock of the meter in the relative time mode; responsive to a first physiological measurement being made by the meter with the clock operating in the absolute time mode, storing into memory of the microprocessor a first physiological measurement record comprising the first physiological measurement and a first temporal parameter of the clock; responsive to a second physiological measurement being made by the meter with the clock operating in the relative time mode, storing into the memory of the microprocessor a second physiological measurement record comprising the second physiological measurement, the relative delta-time flag and a second temporal parameter of the clock; preventing the meter from displaying any physiological measurement record having the relative delta-time flag; responsive to communication with a remote processor having a remote clock: receiving temporal parameters from the remote clock and calculating a differential between the received temporal parameters and the temporal parameters of the clock of the meter; setting the temporal parameters of the clock of the meter to the received temporal parameters and operating the clock of the meter in the absolute time mode; and removing the relative delta-time flag from the second physiological measurement record and adjusting the second temporal parameter to be an absolute temporal parameter using the calculated differential; responsive to the clock of the meter operating in the absolute time mode, displaying the first physiological measurement record including the first temporal parameter and the second physiological measurement record including the adjusted second temporal parameter; responsive to the clock of the meter operating in the absolute time mode, enabling clock time to be displayed on the display of the meter when the physiological measurement record is being reviewed; and responsive to the clock operating in the relative time mode, prohibiting a display of the clock time on the display of the meter when the physiological measurement record is being reviewed. 2. The method of claim 1 , further comprising: establishing whether the meter is in communication with another or remote processor that has its own local absolute time clock; responsive to the meter being in communication with the another processor, calculating using the microprocessor, a differential time between the local time clock of the remote processor and the linked clock of the meter; linking all stored measurement records having a relative delta time flag by determining a corresponding absolute temporal parameter using the differential time from the calculating step; and determining, using the microprocessor, whether a temporal adjustment between the linked clock of the meter and the clock of the remote processor is needed and then applying the temporal adjustment to the clock of the meter. 3. The method of claim 1 , in which the initial determining step comprises checking for at least one internal error of the clock circuit or any circuitry of the meter. 4. The method of claim 1 , in which the initial determining step comprises checking for electrostatic discharge in the clock circuit or any circuitry of the meter. 5. The method of claim 1 , in which the displaying comprises a display of at least one recent physiological measurement. 6. The method of claim 1 , in which the prohibiting comprises a display of at least one recent physiological measurement. 7. The method of claim 1 , in which the temporal parameters comprise date and year. 8. The method of claim 1 , in which the physiological measurement comprises an analyte measurement. 9. The method of claim 8 , in which the analyte measurement comprises a glucose measurement in a physiological fluid of the user. 10. A physiological meter with temporal adjustment from a remote clock, the meter comprising: a clock operable in one of relative time mode in which a relative delta-time flag is stored with measurements or an absolute time mode in which a relative delta-time flag is not stored with measurements, wherein the meter does not include a user input interface to permit a user to set temporal parameters, including time, of the clock; and a microprocessor linked to the clock, a memory, and a display, and configured to perform a method, the method comprising the steps of: following an initiating event of the physiological meter, and automatically using the microprocessor, operating the clock of the meter in the relative time mode; responsive to a first physiological measurement being made by the meter with the clock operating in the absolute time mode, storing into memory of the microprocessor a first physiological measurement record comprising the first physiological measurement and a first temporal parameter of the clock; responsive to a second physiological measurement being made by the meter with the clock operating in the relative time mode, storing into the memory of the microprocessor a second physiological measurement record comprising the second physiological measurement, the relative delta-time flag and a second temporal parameter of the clock; preventing the meter from displaying any physiological measurement record having the relative delta-time flag; responsive to communication with a remote processor having a remote clock receiving temporal parameters from the remote clock and calculating a differential between the received temporal parameters and the temporal parameters of the clock of the meter, setting the temporal parameters of the clock of the meter to the received temporal parameters and operating the clock of the meter in the absolute time mode, and removing the relative delta-time flag from the second physiological measurement record and adjusting the second temporal parameter to be an absolute temporal parameter using the calculated differential; responsive to the clock of the meter operating in the absolute time mode, displaying the first physiological measurement record including the first temporal parameter and the second physiological measurement record including the adjusted second temporal parameter; responsive to the clock of the meter operating in the absolute time mode, enabling clock time to be displayed on the display of the meter when the physiological measurement record is being reviewed; and responsive to the clock operating in the relative time mode, prohibiting a display of the clock time on the display of the meter when the physiological measurement record is being reviewed.