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Cryopreservation equipment play a vital role in long-term storage of biological samples at very low sub-zero temperatures. The global cryopreservation equipment industry is witnessing strong growth due to factors like growing demand from biobanks and stem cell research centers. This demand is fueled by the need for long-term storage of stem cells, sperms, eggs, embryos, and other biological materials used in research and medical applications.
Types of Cryopreservation Equipment Liquid nitrogen storage systems: Storage of biological samples in liquid nitrogen tanks at a temperature of around -196°C is one of the most common cryopreservation techniques. Cryopreservation Equipment manufacturers offer different types of liquid nitrogen storage systems to meet the varying storage needs of end-users. Manual fill and automated fill liquid nitrogen tanks are popular choices for small to medium biobanks. Large volume liquid nitrogen tanks are used by biobanks and biorepositories requiring mass storage capacity. Controlled-rate freezers: These cryopreservation equipment are used to slowly cool down biological materials to cryogenic temperatures using controlled cooling rates. This avoids damaging the cells due to formation of ice crystals during freezing. Programmable controlled-rate freezers enable researchers to define different freezing profiles for different sample types based on their cryopreservation protocols. Vapor phase storage systems: An alternative to liquid nitrogen tanks, vapor phase storage systems use liquid nitrogen vapors for cryopreservation. These provide a cost-effective and more stable storage temperature over liquid nitrogen tanks. Vapor phase cryogenic equipment are suited for long-term cryogenic archiving of large sample collections. Ultra-low freezers: Ultra-low freezers with temperatures between -70°C to -150°C are used for short to medium term cryopreservation needs. These are suitable for storage of cell lines, tissue cultures, and other biological materials that do not require long-term preservation at liquid nitrogen temperatures. Upright and chest style ultra-low freezers are available with different heat-transfer technology and storage capacities. Accessories: Besides core cryopreservation equipment, manufacturers also offer supporting accessories like cryogenic shipping dewars, vials and boxes, storage racks, controlled freezing containers, and temperature monitoring data loggers. Comprehensive accessories packages facilitate safe transport and long-term monitoring of cryopreserved samples. Biobanking Applications Driving Demand Established as well as startup biobanks are major end-users of cryopreservation equipment. Growing biobanking activities worldwide necessitated by genetic research, population biobanking initiatives and personalized medicine is a key growth factor. Biomedical research: Long-term storage needs of cell lines, stem cells, and bio-samples used in genomics, proteomics and drug discovery researches is boosting sales. Cryopreservation enables researchers to store and retrieve biological materials for extended study periods. Regenerative Medicine: With the immense potential of stem cell therapy applications, tissue engineering and organ transplantation, demand from regenerative medicine companies is rising. Proper cryopreservation is critical for stem cell banks and clinical-grade stem cell processing facilities. Fertility Clinics: IVF clinics heavily rely on cryopreservation equipment for long-term banking of gametes and embryos. Rising IVF treatment rates globally is propelling related equipment procurement. Agriculture sector: Storage of genetic material from commercially important plant and animal species forms a smaller application area. Cryopreservation helps preserve biodiversity and breed genetic resources. Regional Markets and Key Players North America dominated the market owing to extensive research activities, advanced biobanking infrastructure and supportive funding. Europe and Asia Pacific are other major regional cryopreservation equipment markets witnessing high CAGR during the forecast period. Some of the leading global players in this field include Thermo Fisher Scientific, Worthington Industries, Custom Biogenic Systems, Barber-Nichols, Chart Industries, Hamilton Thorne Inc., Brooks Automation, Merck KGaA, PHC Corporation and Cryogenic Control. They provide a wide array of equipment with advanced technology along with application specialist support services. Technological Advancements Equipment manufacturers are enhancing their cryopreservation product lines by continuous technological innovations. Advancements like integrated software modules, wireless data monitoring systems, remotely controlled freezing functions have upgraded user experience. Miniaturized desktop cryogenic storage systems are gaining traction in clinical laboratories and research facilities with limited floor space. Researchers are engaged in developing innovative freezing methods like vitrification, which enable ultrarapid cooling without ice crystal formation. These technology advancements and ongoing R&D are expected to further strengthen the cryopreservation equipment industry. Get more insights on Cryopreservation Equipmen
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