Some countries may see full automation


How Can Automation improve microbiology in the twenty-first century
Introduction: The required time the manual allows in a fraction is standard, and the productions of streaks are consistent. In contrast microbiology has resisted the automation evolution and attempted to hold true to its manual. Beal, A. (2008). States that microbiology research lab are beginning to accept the change over toward automation for numerous reasons. Microbiologist and lab technician finally recognize that automated solutions are not intended to replace cognitive conclusion, but simply replace tedious repetitive staircase. Experience and streamlining work maintain consistency, but allows, microbiologist's to dedicate more time to operations that necessitate their unique acquirements. Beal, (2008). Increasing volumes of testing for the same labor is becoming more expensive and harder to find. The need for lab automation in microbiology has never been so apparent with financial constraints. Beal, (2008). To improve automated solutions the industry has responded in efficient turnaround time. The microbiology lab has stepped up its formatics in technology with more on the horizon advancements. Training in lab automation has proven to be a full investment. Lab professionals will relearn routine processes in automation to become technology dependent. Expertise and opportunity is designed to meet the lab needs. To speed up the learning curve, lab professional will have to increase their overall buy in. The return investments on lab automation are relatively quick and précised. To perform the manual process of the cost of benefits in the laboratories, consideration must be evaluated to increase the cost of scarcely labor. Technologist and microbiologist find that automated laboratory transitioning from a conventional process opens innovational and improved quality. The demand is high for technical knowledge and skills, than mechanical labor.
The research development for automation can greatly enhance the speed and quality of diagnostic testing in laboratories. The improvement in the healthcare system will help to impact budget operational efficiencies in various laboratories. Automation can reduce the cost in processing lab test. Microbiology lab revolutionizes in safety and cost efficient. Thierry, (2008). Changing outdated operations in automating has gained a foothold in the lab bringing forth significant gains and productiveness. The trend toward automation, microbiologists are more likely to embrace innovational laboratories. Full automation is no longer a distant, but is implemented in laboratories across the globe. The automated lab itself has been involved as it incorporates a more diverse ambit of microbiology. Thierry, (2008).The lab automation device cut down not only the need for manual labor, but also studies of micourinalysis. Technology has determined that a microbiologist can alleviate the system by 25%. Increase in work volume in lab challenges the shortage in skill labor. The increased efficiency by automation should continue once testing is completed. This ensures a vast opportunity for improvements in work flow. Direct communication that eliminates manual entry requirements ensures the integrity of data while eliminating paper waste. Information must flow from one system to another in a rational way through the laboratory and hospital system. Integration toward automation solutions must be developed with a broader eye to propel technology into the Twenty-First Century. Thierry, (2008).
Manufacturers and laboratories sometimes can neglect system integrity purchase, respectively. This can increase the likelihood of lab errors through relying on manual entry, but also has consequences for the laboratory work environment. Automation lab integrated into single workstation will allow more counter space for the microbiologist and technologist to research on more diagnostic testing. Integrated systems make information available for trending, budgeting, regulatory requirements, and other laboratory needs. The Automation Lab from bioMrieux, for example, consolidates results from the company's BacT/Alert and Vitek 2 instruments that ensure data easily transmits to the LIS or the physician. Just as the automated world fully follows, microbiology, chemistry and hematology into a more, disciplines structure. Clinical laboratories consider adding automation to help embrace the process in improvement of techniques such as lean lab operations. To supplement their auditing service manufacturers now offer organizational systems. Through analysis of work flow, configuration, and other aspects of its organization, a lab can decide intelligently which processes to automate and what work flow to modify in order to maintain efficiency and output quality. Also, can provide appropriate training and service methods for improving performance. Training is imperative for the new systems whether the user is a new hire or an experienced laboratorian.
Microbiology is going beyond the plates and cultures in the Twenty-First Century. Molecular approaches to microbiology are prominent among the greater number of tools now available to T
identify sources of infections. Through the development and implementation of advanced optics systems, microbiologists will continue to be able to handle a wide variety of lab functions more efficiently, so more accurate results will be obtained more quickly. 
Customer demands will continue to drive development toward the eventual automation of the microbiology in its entirety. Once the broader needs are met, manufacturers will likely turn to other product systems. However, microbiology is a cliché in itself.
Analyzing the workflow to determine which systems to implement finding the space for instruments in the laboratory, preparing scientists and informational systems to handle the flood of data generated once the robots start working. These are perennial problems. But the nature of automation presents some challenges that could take researchers and organizations by surprise.
Conclusions: Demands for greater efficiency, higher accuracy, and speedier performance that are needed in various quarters will inevitably lead to microbiology automation becoming more universal. Some countries may see full automation within two years; others will need 10 years. But the full automation of microbiology will come just as it came for other types of clinical laboratories before. In the end, fully automated microbiology labs will bring the benefits of improving patient care while saving time and money. The goal of manufacture in the discovery of automation is to improve lab efficiency.

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Case Study: Some countries may see full automation
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