5/2/2023 0 Comments Labmanager equipment interfaceHIPPS codes and related DRGs were voted into law in 1982. With the government footing the bill for the majority of these costs, it was obvious that a change was in the wind to control reimbursements. The lab equipment of the day was relatively simple to operate, and the faster you could pipette and aliquot, the better.īetween 19, hospital reimbursement costs rose more than tenfold, from approximately $3 billion to $37 billion annually. After all, the baby boomers would arrive on the scene to drive healthcare services to greater heights. There was a plentiful supply of laboratory technologists, as the market’s growth appeared nearly unlimited. As the Archie and Edith Bunker characters from All in the Family sang in 1971, “Those were the days!” and yes, they were. In these early days, automation in the laboratory was a collection of electromechanics and peristaltic pumps to move the samples, with spinning colorimetric light sources assisting in analysis it was not too dissimilar to “pinball machine” logic and the game’s flashing lights with some computer and limited microprocessor control. In the heady days of clinical chemistry laboratory management, when the lab was a profit center and the goal was publishing more reportable test results, these laboratory workhorses were not bounded by restrictive government reimbursement policy such as DRGs (diagnosis-related group) and the Health Insurance Prospective Payment System (HIPPS) codes-originally developed for Medicare. Nearly 50% of respondents are engaged in purchasing a new PCR system.The Importance of Power Protection in Laboratory Automationįor many of us, our introduction to laboratory automation revolves around the formerly popular Technicon SMA (Sequential Multiple Analyzer, circa 1969) and the SMAC (SMA + C), when a computer interface was added to the platform in 1974. PCR applications as reported by survey respondents: Gene expression Types of PCR performed by survey respondents: Standard PCR For high-throughput applications, systems that can accommodate larger plate formats, or that have integrated automation and robotics may be desirable. Consider your throughput requirements. How many users will be using the system? Systems that can run two independent PCRs at the same time might be desirable for labs with multiple users.Ideally, you want a system with fast temperature ramp up/cool down time, and with low error. Consider the ramp temperature and time.What sample formats do you require? While most users run their reactions in a 96-well format with 0.2 mL tubes, other formats are available.Consider the type of equipment you need, whether it be standard PCR, quantitative real-time PCR (qPCR), or digital PCR.Top 5 Questions You Should Ask When Buying PCR Equipment PCR has found applications in a variety of fields including medical and biological research, cloning, functional genetic analysis, forensics, and disease diagnosis. This technique employs thermal cycling, which consists of repeated heating and cooling of the reaction for DNA melting and enzymatic replication. Polymerase chain reaction (PCR) is a technology used to amplify a piece of DNA across several orders of magnitude.
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