Guide to Choose The Right Micropipette For Your Application
February 24, 2023
Stirring and agitation are common steps in almost all research and testing labs worldwide, for blending, dissolving, or other purposes…
4th July 2022
Cryopreservation is a technique used to preserve cells, tissues, organoids, and biological material at ultralow temperatures.
All cryogenic liquids are gases at normal temperatures, they must be cooled below room temperature before an increase in pressure can liquefy them upon removal from low-temperature storage. Liquid nitrogen that may have seeped into the closed tube may suddenly expand (690 times) during conversion from gas to the liquid phase. When not handled properly, the cryovials may explode and result in physical injuries and exposure to the vial contents. Hence it is to be noted to cryopreserve in vapour phase of liquid nitrogen.
1. Use of cryoprotectant/ antifreeze chemical (glycerol/ethylene glycol/propylene glycol/DMSO): Using a cryoprotectant increases the solvent content by balancing the solute concentration which prevents ice crystallization and cell damage.
DMSO and glycerol are generally used in concentrations ranging from 5-10% and are not used together. The optimum concentration of the cryoprotectant varies with the cell type and for optimal results, the cells which can tolerate the highest concentration should be used.
2. Slow Freezing: Slow cooling results in a greater loss of water from the cell and less internal ice being formed, resulting in an increase in the solution effects. Cell permeability affects the rate of water loss, more permeable cells can tolerate rapid cooling better than less permeable cells
Different cryogens become liquids under varying conditions of temperature and pressure, but all have several potential hazards in common, which are outlined below.
Cryogenic liquid and its associated cold vapour and gases cause an adverse effect on the skin like thermal burns. Short exposure does not affect skin, face and hands but can damage delicate tissue such as eyes, hence protective gears must be used in handling gaseous cryogen.
Toxic hazards from a few gaseous cryogens can cause specific health effects, for Eg: liquid carbon monoxide can release large quantities of carbon monoxide gas, which can cause immediate demise. Hence refer to the material safety data sheet for the toxic hazards of any particular cryogen being used in your laboratory setup.
Cryogens must be used and stored in areas with adequate ventilation to prevent creating an oxygen-deficient atmosphere.
For any additional assistance in
cryopreservation reach your product specialist.
For any additional assistance in
cryopreservation reach your product specialist.
Stirring and agitation are common steps in almost all research and testing labs worldwide, for blending, dissolving, or other purposes…
Stirring and agitation are common steps in almost all research and testing labs worldwide, for blending, dissolving, or other purposes…
Stirring and agitation are common steps in almost all research and testing labs worldwide, for blending, dissolving, or other purposes…