Microbiology Products
BC60
Autobio BC60 is an automated blood culture system used in clinical microbiology labs to detect the growth of bacteria and fungi in blood samples, helping diagnose bloodstream infections (like sepsis). It incubates and monitors blood culture bottles automatically, using advanced temperature control, smart algorithms, and continuous growth detection so that positive cultures are reported quickly and reliably. It typically holds up to 60 bottles per module and can be expanded for higher capacity.
Graphic Design
Autobio BC120 Plus is an automated blood culture and microbial detection system used in clinical microbiology laboratories to incubate and monitor blood culture bottles for bacterial and fungal growth, helping diagnose bloodstream infections faster and more accurately than manual methods. It features stable temperature control, real-time growth detection, and intelligent algorithms to shorten time to positive results and reduce false positives, with flexible capacity that can scale up to large numbers of bottles.
BC120
Autobio BC120 is an automated blood culture system used in clinical microbiology labs to culture and detect bacteria and fungi in blood (and other sterile body fluids) for diagnosing bloodstream infections like bacteremia and sepsis. It continuously incubates and monitors culture bottles, detecting microbial growth automatically to provide timely results for clinical decision-making.
Autof TX8
Autof TX8 is a crucial microbiology product due to its high sensitivity and specificity in detecting a wide range of microorganisms, making it invaluable in clinical diagnostics, food safety, and environmental monitoring. Its rapid result turnaround enables timely decision-making, while its user-friendly design ensures accessibility across various settings without the need for extensive training. The automation features enhance throughput and reliability, allowing laboratories to efficiently handle large sample volumes, ultimately leading to cost savings.
MALDI-TOF MS System
The MALDI-TOF MS (Matrix-Assisted Laser Desorption/Ionization Time-of-Flight Mass Spectrometry) system is vital in microbiology for its ability to rapidly and accurately identify microorganisms at the species level. This technology significantly enhances clinical diagnostics by providing quick results, which are essential for timely treatment decisions in healthcare settings. By analyzing the unique protein profiles of bacteria and fungi, MALDI-TOF MS offers high sensitivity and specificity, dramatically reducing the time required compared to traditional methods. Its automated operation streamlines workflows, allowing laboratories to process multiple samples efficiently.
AutoMimo 1200
The AutoMimo 1200 is an essential microbiology product that revolutionizes the automation of microbiological testing and pathogen detection. This advanced system enhances laboratory efficiency by automating routine processes, thereby significantly reducing human error and increasing throughput. Its ability to perform multiple analyses simultaneously allows for rapid results, which is critical in clinical settings where timely diagnosis impacts patient care. Additionally, the AutoMimo 1200’s user-friendly interface streamlines operations, making it accessible for technicians with varying levels of expertise.
AutoStreak S1800 Microbial Sample Pretreatment System
The AutoStreak S1800 Microbial Sample Pretreatment System is a pivotal innovation in microbiology that enhances the preparation of microbial samples for analysis. By automating the streaking and plating process, it reduces the risk of contamination and human error, ensuring the integrity of samples in clinical and research settings. The system significantly accelerates workflow, allowing laboratories to achieve consistent and reproducible results while minimizing manual labor.
AutoMic-i600
The AutoMic-i600 is a cutting-edge microbiology product that significantly streamlines the identification and susceptibility testing of microorganisms. This automated system enhances laboratory efficiency by integrating rapid sample processing with advanced detection technologies, allowing for quick and accurate results. Its ability to handle multiple samples concurrently reduces turnaround times, which is critical in clinical environments where timely treatment decisions can impact patient outcomes.
