Rapidlab 1265 pdf

Complies with the IVD directive. Read how blood-gas testing can enable instant critical-treatment decisions without sacrificing the quality of care. Product availability varies by country. Due to regulatory reasons their future availability cannot be guaranteed. Please contact your local Siemens Healthineers organization for further details. Get trusted results for critical analytes with ease, efficiency, and economy.

Quality control materials A full range of quality control materials are available to help ensure the performance of the system. Partnership you can trust. Siemens blood gas systems incorporate responsive on-site service, comprehensive training and clinical education support to deliver exceptional value for customers over the long-term. Increase productivity and operator efficiency in the low-volume laboratory The RAPIDLab EX analyzer combines proven Siemens blood gas technology with a range of next-generation system enhancements designed to streamline and simplify day-to-day operations and workflow.

Easy-to-use with fast access to sensors, reagents, and waste Intuitive, color, touch screen user interface features large, easy-to-read system icons that display analyzer status One-touch icon selection of sampling mode - syringe, capillary, dialysis fluid, QC Easy navigation to all routine functions from the Ready screen Measurement chamber houses all sensors and is designed for easy access and replacement All reagents are located on the front panel of the analyzer, enabling easy reagent replacement Clear plastic bottles and blue-colored solutions allow at-a-glance checks of fill volumes Minimal maintenance requirements further extend system uptime.

Do not stretch the tubing. NOTE: 2. Press the tubing around the outside of the rollers. Place the upper tubing cuff onto the upper side of the platen. Remove the waste assembly: a. Lift the orange lever up. Orange lever Figure Waste Assembly b. Slide the waste assembly to the right.

To start the procedure, select Continue 3. Remove the sensor: a. Lift the door to the Measurement module. Align the top of the sensor with the sensor contact. Use the sensor names on the contact assembly to verify that the sensors are installed in the correct order. If you replaced the pH or Na sensors, condition the sensors.

Analyze a minimum of 2 levels of quality control material. Remove the cylinder, so the needle remains attached to the vial. Rinse the sensor. Insert the needle, attached to the vial, into the sensor. Gently squeeze the fill solution vial until the sensor is full of solution. Check the sensor for bubbles at the electrode tip and between the electrode compartment and the KCl reservoir. Stand the internal electrode on its cap to drain it.

Fill the internal electrode compartment of the new sensor with KCl fill solution: a. Insert the tip of the KCl fill solution container into the internal electrode compartment. Fill the KCl reservoir with KCl fill solution: a. Remove the reservoir cap using the hex tool and set the cap aside.

Partially fill the KCl reservoir. Tap the front face of the sensor with your knuckle to remove any bubbles. Remove the internal reference electrode using the hex tool. Add fill solution: For these sensors Replacing the Printer Paper Replace the printer paper when a red stripe is displayed on the edge of the paper. You need printer paper for this task. Open the back cover. Remove the lamp: a. Stand directly behind the system and grasp the base of the lamp. Start up the system: a.

Turn the power switch on. At the interface screen, use the numeric buttons to enter your password. Grasp the lower tubing cuff and gently pull it away from the platen. Turn the power off and disconnect the power cord from the electrical outlet.

Do not proceed while the power is on. To prevent electrical shock or Flushing the Tubing for the RCx Reagent 1. Connect a piece of tubing to a syringe. Connect the syringe tubing to the upper connector for the wash reagent. Water collection area Upper connector Figure Reagent Manifold 2.

Flush with a minimum of 3 mL water. Connect the syringe tubing to the lower connector for the wash reagent. Flush with a minimum of 12 mL air. Connect the syringe tubing to the connector for samples. Flush the sample tubing with a minimum of 3 mL water.

Flush the sample tubing with a minimum of 12 mL air. Disconnect the tubing from the left side of the pressure sensor bubbler. Connect the syringe tubing to the pressure sensor bubbler. Flush the measurement module tubing with a minimum of 3 mL water. Disconnect the tubing on the reagent manifold coming from the pressure sensor bubbler. Connect the syringe tubing to the connector on the reagent manifold. Connect the syringe tubing to the AutomaticQC manifold.

Disconnect the reagent manifold tubing from the CO-ox pump tubing. Connect the syringe to the waste tubing. Remove the CO-ox roller cage. Disconnect the CO-ox sample tubing from the connector on the measurement module. Lift the front cover, push up the latches on the measurement module door, and then lift the door.

The schedule displays a calendar week with the day and date at the top of the schedule and the state of each task in the grid. When you perform a maintenance task within this grace period and mark the task as complete, the system automatically sets the next date for the task. Probable Error Cause Corrective Action The parameter The parameter For recommendations to resolve failed calibrations, has a single failed refer to Troubleshooting Checklist for Failed line through it.

Using the Calibration Report to Identify Problems The full calibration report shows the measurement and drift values. Rapidlab systems use a 2-point calibration curve. The two points on the curve are the Cal Point and Slope Point. Scan the barcode shown below. Shut the system down and then restart it. Carefully pull the reagent manifold out slightly, then straight down, to avoid the sample connector item 3, Figure Discard the gauze.

CO-ox waste exit port this illustration shows ports only and does not show the reagent manifold tubing that remains connected to this port when you perform this procedure Sample exit port Repeat the procedure on the CO-ox waste port Rapidlab and systems. Fill the plastic syringe with water and place it against the CO-ox waste port item 6, Figure Press the syringe plunger gently to insert water into the CO-ox waste port, while Select to calibrate the system.

The clot clearing procedure is complete. Clearing the Clot from the Preheater Wear personal protective equipment. Replace the pO sensor with the clot clearing tool. Push the black spring-loaded latch assembly item 1, Figure , located at the right of the Reference sensor, to the right, until the mechanism clicks in place. Insert the clot clearing tool in the place of the pO sensor.

Press the black lever item 2, Figure , located below the black spring-loaded latch assembly, to reapply pressure to the sensor assembly. If using a standard syringe, hold the syringe firmly. If the path is totally obstructed, liquid may be expelled suddenly and CAUTION: with great force through the port at the back of the sample connector. Reinsert the reagent manifold tubing item 2, Figure into the fitting item 1, Figure that connects to the CO-ox pump tubing Rapidlab and systems.

Reinsert the waste tubing into the port on the top, right-side of the reagent manifold item 4, Figure Use this procedure only if the Clearing the Clot from the Preheater procedure fails to clear the obstruction. Press the syringe plunger gently into the clot clearing tool, while holding gauze against the sample port of the reagent cartridge, to catch the obstruction and any excess liquid.

Press the black spring enclosure assembly lever to reapply pressure to the sensor assembly. Close the measurement module cover. Close the front cover of the system. Select Stop Select the Return button twice to exit Diagnostics mode. To remove obstructions from the sample tubing in the reagent manifold, push the clot-removal line through the fluid connector on the reagent manifold. Push a clot-removal line through the preheater from right to left, opposite to the direction of sample flow, until you see the clot-removal line at the sample connector.

If you detect an obstruction, fill a syringe with water, place the syringe against the sample path and inject water through the sample path. If the obstruction is not removed, use a syringe filled with water and inject the water through the sample path. Push a clot-removal line through the latch. Remove obstructions from the sample waste path in the reagent manifold: a.

Disconnect the tubing from the reagent manifold. Push the clot-removal line through the fluid connector on the reagent manifold until the clot-removal line appears again. Dry each sensor, ensure that the O-rings are in place, and then reinstall each sensor. Push the new tubing through the fluid detector. Connect the tubing to the steel measurement module connector and to the sample chamber connector. Push the clot-removal line through the fluid connector on the reagent manifold.

Pump tubing at the fitting. Fluid connector. Re-connect the CO-ox pump tubing. Reinstall the cartridges and close both the reagent and wash doors. Enter your password, if necessary. Select Waste Detector 4. Remove the waste bottle, empty it, and set it aside. Wait while the system performs the test. The pump test moves the pump at 4 speeds numbered 1 through 4.

When you select , the system displays the number of the current speed on the screen. Look for obstructions and listen for any unusual noises that may indicate a problem with the pump. Select to advance the pump to the next speed. Change b. Continue selecting and listening and looking for problems until you have Change tested all 4 speeds. The test moves the valve from the home position to each fluid position. During the procedure, select The report provides the system ID, the date and time of the report, and sensor data in the order represented in Table D Codes The Rapidlab diagnostics system assists operators in identifying and resolving hardware problems.

This section describes the Rapidlab system diagnostic codes D codes and messages, the conditions that cause them, and possible solutions. If salt or leaks are present, clean the sensor with water, dry, reinstall, and perform a 2-point calibration.

Perform a leak test. If the test Replace eject. CO-ox optical If the problem persists, call for technical assistance. For QC samples, ensure that you Error chamber is beyond the acceptable Ensure that you tightly close the range. Cartridge wash cartridge. The cartridge Replace the cartridge. Refer to may not be installed correctly. Calibration calibration to perform another action, for example to load a STAT test.

W Cartridge The wash cartridge has exceeded Replace the cartridge. The records are sorted by date, beginning with the most recently saved data. Select the type of data you want to copy, Copy the data: If you are copying data Page System Configuration Use this section to modify the system configuration options on the Setup menu. The Setup menu contains the options for customizing the analysis and reporting characteristics of your Rapidlab system. After you customize any of these settings you can select another Setup option or save the setup data.

At the Setup screen, select 2. Select the QC range to view. The screen for the QC range you selected displays. Select Save The Intervals screen closes.

Cartridge- based system eliminates gas tanks and reagent bottles. On-board, fully automatic quality control with no operator intervention required during its day life. When it comes to such small and vulnerable patients, fast results, delivered instantly, can make a big difference.

Read how blood-gas testing can enable instant critical-treatment decisions without sacrificing the quality of care. Due to regulatory reasons their future availability cannot be guaranteed. Please contact your local Siemens Healthineers organization for further details. Leverage the benefits of RAPIDLab Systems: Comprehensive test menu addresses a variety of critical care testing needs Intuitive operation and minimal maintenance help increase productivity without increasing staff.