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Where Will You Find Excellent Performance in an Affordable System?
As a fully automated instrument, the ACL 1000 is an affordable solution for low volume workloads, or as a backup analyzer. The test menu includes a variety of clotting assays, such as Lupus and APCR-V Leiden. The ACL 1000 also offers bar code capability to help improve efficiency in your lab. Plus, it's backed by superior technology that has set a standard for precision and reliability in coagulation analysis.
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Product Features
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The ACL 1000 Offers Many Benefits That Will Improve Your Lab's Efficiency
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Fully automated to increase productivity
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Clotting assays, including LAC, Factors and APCR-V
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Direct tube sampling from original collection vials for operator safety
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Bar code capability to reduce manual input
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Proven technology to provide accurate results
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110 throughput per hour for PT and Fibrinogen
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Minimum maintenance required
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More Info
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Advanced Robotics
IL's microprocessor-controlled positive-displacement fluidics system
assures superior precision and eliminates the need to flush or replace
peristaltic pump tubing. The advanced robotics control sample and
reagent pipetting, eliminating technique variables.
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Nephelometric Clot Detection
The ACL accurately measures fibrin strand formations, bringing the
precision of a chemistry analyzer to the coagulation laboratory.
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Patient ID
A 12-digit patient identification number can be keyed in, or the
system's bar code scanner (optional on some packages) can read the
number directly from the tube. Either way, the ID number is printed out
with the patient results.
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Primary Tube Sampling
Dedicated sample trays on the ACL Thousand series analyzers accept two
sizes of primary sample tubes (13 x 75 mm evacuated tubes with total
filling volumes of 3.5 and 5 mL). Tubes can be loaded immediately after
centrifugation.
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Parallel Processing
ACL systems process up to 18 samples simultaneously, measuring and
calculating up to 22,000 data points in about one minute. The robotic
sampling arm pipettes both sample and reagents automatically into the
rotor. After dispensing each sample, the system automatically performs
rinse cycles. Parallel processing ensures that all reactions start and
stop simultaneously, so reaction timing is inherently uniform from
sample to sample.
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