It is a highly sensitive incubation and monitoring system that detects the presence of pathogenic microorganisms (bacteria, fungi) that may be found in a patient’s blood or other normally sterile body fluids (CSF, synovial fluid, etc.). In life-threatening infections such as sepsis, it enables the detection of the pathogen at the earliest stage, thereby allowing for the timely initiation of appropriate antibiotic therapy.

It is the primary containment system that prevents aerosols (airborne particles) generated while working with pathogenic microorganisms or sensitive biological materials from spreading into the laboratory environment and from contamination. Thanks to laminar airflow and high-efficiency HEPA filtration technology, it sterilizes the air entering the work area while filtering contaminated air and safely exhausting it outdoors.

It is the gold standard for laboratory diagnostic processes, providing high-resolution views of the finest details of biological samples, tissue sections, and microorganisms. Its trinocular design, compatible with digital camera integration, enables images to be instantly displayed on a screen and documented, ensuring full compatibility with modern pathology and microbiology laboratories.

It is the most reliable sterilization system that ensures surgical instruments and medical supplies are completely free of microorganisms using high-pressure saturated steam. Thanks to advanced vacuum technology, it penetrates even the narrowest channels and porous structures of the instruments, effectively eliminating bacteria, viruses, and spores. The intelligent operating system, which provides precise temperature and pressure control, ensures that every cycle is completed in full compliance with international sterilization standards.

It is essential laboratory equipment used for drying and dehumidifying microbiological and chemical samples, sterilizing glassware, or conducting stability tests at specific temperatures (typically ranging from room temperature to 250°C/300°C). By heating the air inside the chamber uniformly, it ensures equal thermal energy transfer to every point of the samples.