HELLO EVERYONE!!!!
Hope you guys are doing well.
This week, I will be touching on a topic which may be foreign to some of you. It will be on glycerolization/freezing and deglycerolization/thawing of red blood cells. This process is done in the cryopreservation lab of the blood bank.
Glycerolization/Freezing
Freezing RBCs with glycerol dates back to the 1950s. Frozen RBCs can be stored for up to 10 years for:
1. Patients with rare phenotypes
2. Autologous use
3. In case of national emergencies in which blood cannot be dispositioned out to hospitals quickly enough to prevent expiration.
The resulting deglycerolized product is free of leucocytes, platelets, and plasma due to washing process. Cryoprotective agents can be categorized as penetrating and nonpenetrating. A penetrating agent involves small molecules that cross the cell membrane into the cytoplasm. The osmotic force of the agent prevents water from migrating outward as extracellular ice is formed, preventing intracellular dehydration. An example of a penetrating agent is glycerol. An example of a non-penetrating agent is hydroxyethyl starch (HES). This comprises large molecules that do not enter the cell but instead form a shell around the cell, preventing loss of water and subsequent dehydration.
Two procedures used for glycerolizing RBCs are high glycerol and low glycerol methods. The methods differ in the equipment used, the temperature storage and the rate of freezing. Most blood centres practice the high glycerol method.
High Glycerol (40% w/v)
This method increases the cryoprotective power of the glycerol, thus allowing a slow, uncontrolled freezing process. The freezer is generally a mechanical freezer that provides storage at -80oC. This particular procedure is probably the most widely used because the equipment is fairly simple and the products require less delicate handling. It does however require a large volume of wash solution for deglycerolization. RBCs are frozen within 6 days of collection when the preservative is CPD or CPDA-1 and up to 42 days when preserved in AS-1, AS-3 and AS-5. AABB Standards states RBCs must be placed in the freezer within 4 hours of opening the system. It is advisable to freeze a sample of donor serum in the event additional testing is required for donor screening.
Low Glycerol (20% w/v)
In this method, the cryoprotection of the glycerol is minimal, and very rapid, more controlled freezing procedure is required. Liquid nitrogen (N2) is routinely used for this method. The frozen units must be stored at about -120oC, which is the temperature of liquid N2 vapour. Because of the minimal amount of protection by the glycerol, temperature fluctuations during storage can cause RBC destruction.
Deglycerolization/Thawing
Red cells that have been frozen require thawing and deglycerolization before they can be safely transfused. Glycerol will be removed from RBC to avoid in vivo and/or in vitro heamolysis.
The thawing process takes approximately 30 minutes and involves immersion of units into a 37oC water bath and washing the RBCs with solutions of decreasing osmolarity (eg. 12% NaCl, 1.6% NaCl, 0.9% NaCl, + 0.2% dextrose). An exception to this rule is a donor with sickle cell trait in which RBCs would haemolyze upon suspension in hypertonic solutions; in this case the cells would be washed in 12% NaCl and then 0.9% NaCl with 0.2% dextrose, omitting the 1.6% solution. Automated continuous-flow instruments can be utilized for washing. In our blood bank, a machine called the Haemonetic 215 is used. Once the RBCs have been deglycerolized, the unit is considered an open system with an expiration date of 24hrs and is stored at 1oC to 6oC.
Hope my post this week has enlightened you on some of the processes that occurs in a blood bank. Till next time..... Adios!!!
Rusydiana binte Kusni
TG02
0608485I
Angels n a Demon
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21 comments:
Hey rusy..
it is definitely foreign to me..
u mentioned quite a few times the term "open system"..what does that mean?
thanks =)
Nur Farhana
0604834B
Hi Rush,
I am not sure if there is any typo error under glycerolization as it kind of confuse me. You keep mentioning the word deglycerolized (deglycerolized product and deglycerolizing RBCs) but you were actually talking about glyercerolization. If not, then why deglycerolized you have not glycerolized in the first place?
One question for you, since you said that low glycerol has more disavdantages and high glycerol is the most widely used, then under what situation will low glycerol be used or it wouldnt be used at all?
Thanks.
Xin Yi
TG02
Hey :)
Why high glycerol method is commonly used as compareed to low glycerol method? Isit because of RBC destruction?
Another thing is, the freezing of RBCs will be carried out on Whole Blood isit?
Thanks.
Yvonne Teo
0605109H
hey rusy,
why are the freezing period of RBCs differerent when different preservatives are used?
what is the differences between preservative CPD or CPDA-1 and AS-1,AS-3 and AS-5?
sutiana
to farhana
an open system means exposure to the environment. at some point of time in the process, the product, in this case, the RBCs are exposed to the environment. For example, when connecting the glycerol bottle to the blood bag, there is a use of connective tubings. There will be a point of time where the blood is briefly exposed to allow the connection of the tubing. However, to ensure minimal contamination or no contamination at all, all areas to be exposed will be cleaned with alcohol swab and the whole connecting process done in a laminar flow hood.
rusydiana
to xin yi
I'm sorry about the confusion as yes, "the two procedures used for GLYCEROLIZATION are high glycerol and low glycerol methods" thanks for highlighting it and i will make amendments.
But as for the first part, "The resulting DEGLYCEROLIZED product is free of leucocytes, platelets, and plasma due to washing process." is not a typo error.
The glycerolization process will always occur before the deglycerolization process. In simple terms, glycerolization means "to add" glycerol to the blood product while deglycerolization means "to remove" glycerol from the blood product.
The low glycerol technique is not used at all in our blood bank as it has many disadvantages over the high glycerol.
1. low glycerol has a lower initial freezing temperature of -196oC compared to high glycerol -80oC
2. there is a need to control freezing rate for low glycerol
3. the type of freezer used is liquid nitrogen freezer compared to mechanical freezer for high glycerol
4. low glycerol requires liquid nitrogen for transportation
5. effects of changes in storage temperature would give a critical condition for low glycerol, but for high glycerol, the RBCs can be thawed and refrozen.
rusydiana
to yvonne
The answer to your question is quite similar to the one that i have replied to Xin Yi. It is not because of RBC destruction. The main reason is because low glycerolization method is more expensive in a sense that it requires more manitenance in the form of liquid nitrogen. And its storage conditions are more demanding as it requires lower temperature than high glycerol method.
The freezing of RBCs will be carried out only on packed cells/red cell concentrate after processing of whole blood into other products such as platelet concentrate and fresh frozen plasma.
rusydiana
to sutiana
CPD and CPDA-1 are classified under anticoagulant preservative solutions, while AS-1, AS-3 and AS-5 are classified under additive solutions. When blood is being collected, the collection bag normally comes in a set of 3 bags attached to each other. This is to aid in separation of whole blood into the different blood products like plasma and platelets during blood processing.
When blood is first being collected, it will enter the first bag (primary bag), which contains an anticoagulant preservative solution, mainly to prevent the blood from clumping. After separation, a blood will enter the next bag (secondary bag), which will contain the additive solution. Additive solutions are preserving solutions that are added to the RBCs after removal of the plasma, one of the reasons being, removal of the plasma component during preparetion of RBC concentrates removed much of nutrients needed to maintain RBCs during storage.
Therefore, additive solutions are coupled with anticoagulant preservative solution in collection bags. Example, AS-1 is coupled with CPD.
The reason why the freezing periods vary is due to the composition of the solutions. RBCs in CPD and CPDA-1 become low in 2,3-DPG by 2nd week. To avoid this, the RBCs need to be frozen before the second week. Additive solutions contain nutrients for the RBCs, which maintain the RBCs for a longer period of time allowing them to be frozen later.
rusydiana
Hi Rush. =)
Can I know how the washing procedures enables the resulting deglycerolized product to be free of leucocytes, platelets, and plasma? What the washing solutions contains?
Thanks
Lyn
0611027D
Hi there
May I know in what situation is non-penetrating agent used or penetrating agent used? Or is glycerol (penetrating agent) always used? What are the differences in advantages and disadvantages between these 2 types of cryoprotective agents?
Thanks.
Lim Xin Ni
TG02
Hi Rush,
You mentioned under Glycerolization/Freezing that "Frozen RBCs can be stored for up to 10 years for...
in case of national emergencies in which blood cannot be dispositioned out to hospitals quickly enough to prevent expiration". Could you explain this point please? Do you mean that the blood would be suitable for transfusion after the freezing process?
You had also mentioned that “A penetrating agent involves small molecules that cross the cell membrane into the cytoplasm. The osmotic force of the agent prevents water from migrating outward as extracellular ice is formed, preventing intracellular dehydration.” This is actually very different from what we had learnt in MCT whereby the freezing process is controlled to be a very gradual to prevent cell rupture from water crystals due to water freezing too rapidly. Thus, my question is wouldn’t preventing the water in the RBCs from migrating outward cause the water to crystallize intracellularly, thus causing cell rupture too?
Big thanks.
Alexander Soo TG02
0608122H
hello rusy..
How does decreasing osmolarity solution help in removing glycerol?
By the way, what are other examples of penetrating solution apart from glycerol? And do u all use DMSO as well?
Shihui
0607135A
hey rusy!
may i reconfirm with you, that when you said 'the resulting deglycerolized product is free of leucocytes, platelets, and plasma', are those the cryoprotective agents?
and how does glycerol actually causes in vivo or in vitro haemolysis? Is it because it is a penetrating agent and thus, when the extracellular ice is formed, it will lead to haemolysis?
thanks alot
Liyanah Zaffre
0607718D
TG02
hey rusy!
may i reconfirm with you, that when you said 'the resulting deglycerolized product is free of leucocytes, platelets, and plasma', are those the cryoprotective agents?
and how does glycerol actually causes in vivo or in vitro haemolysis? Is it because it is a penetrating agent and thus, when the extracellular ice is formed, it will lead to haemolysis?
thanks alot
Liyanah Zaffre
0607718D
TG02
hi rusy,
could you explain what you meant by "autologous use"?
thanks.
Nur Azeimah
TG 02
0607060A
to lyn
the washing of the blood is done by density gradient centrifugation. upon infusion of the wash solutions of decreasing osmolarity, the mixture will be centrifuged. since leucocytes, platelets and plasma, together with glycerol are of lower density than red blood cells, the red blood cells will be at the bottom. when excess wash solution is being removed, the leucocytes, platelets, plasma and glycerol will be washed off, leaving the red cells.
rusydiana
to xin ni
i am rather unsure about the situations in which each agent is used,and the advantages and disadvantages as there is limitted information about them. however, i believe that both agents have the same ultimate aim, which is to preserve the integrity of the cells during freezing. they differ in principle of preserving.
glycerol is mainly used in our blood bank.
rusydiana
to shihui
by adding solutions of decreasing osmolarity (12% NaCl, 1.6% NaCl, 0.9% NaCl), it allows glycerol to move out of the cells due to a presence of concentration gradient in the cell and in the environment. glycerol moves out of the cells by diffusion. the different concentrations are added in stages to gradually allow the glycerol to move out. if we add a solution of low osmolarity straight away, the cells will rupture as water will move into the cells and cause it to burst.
we do not use DMSO to preserve our red blood cells.
rusydiana
to liyanah
no, they are not cryoprotective agents. the cryoprotective agent is the glycerol. leucocytes, platelets and plasma are blood components which gets washed away together with glycerol during the deglycerolization process.
due to improper or inadequate washing, the glycerol concentration may be too concentrated for the cells. this will then lead to the in vivo or in vitro haemolysis after the deglycerolization stage.
rusydiana
to azeimah
there are some patients who prefer to be transfused with their own blood. they are either uneasy or do not want to take any risks with donated blood. therefore, prior to any operations or surgeries, they will draw a certain amount of blood and this blood will be kept in the inventory until it is needed.
freezing one's own blood for future use is almost the safest way of preventing transfusion reaction. furthermore, it can be stored for up to 10 years.
rusydiana
to alexander
the point of freezing in the first place is to make sure there is adequate supply. and of course, it can be used after deglycerolization. what is the point of freezing in the first place if it cant be used after deglycerolization
to explain the point, during emergencies, there is a high demand of blood. there may be a possibility that blood supply at that point of time is either insufficient to meet the demand or near expiration. in this kind of situation, thawing of frozen blood would help greatly in supply of blood.
for the next part of your question,
honestly, it question set me thinking, even collegues were trying to find logical explainations to answer the question. so, here it goes...
you are not wrong in stating that intracellular ice crystals will cause the cell to rupture. the principle behind glycerolization is that glycerol enters the cells and prevent water from migrating outwards, preventing intracellular dehydration. glycerol interacts with water in the cell and prevents it from crystallizing intracellularly by forming a semi-liquid mixture. this prevents the intracerllular water from freezing, therefore maintaining cell integrity.
rusydiana
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