PRP is actually a growth factor and platelet enriched solution made from the own blood of a patient. Besides, PRP injections are known to promote bone formation and tissue regeneration. Hence, they are a good choice for individuals suffering the various problems like ligament injuries, osteoarthritis, and hair loss.
The following are some important steps involved in PRP preparation. Take a quick look at them!
- Collection of samples: Once the sample is collected, plasma will be extracted from it.
- Centrifugation: This step involves concentrating platelets and other important wound healing components for extracting PRP.
- Storage: As the PRP is ready now, it is important to store it properly. Otherwise, it may not show effective results.
All these procedures are generally carried out in a prescribed order within a totally closed and aseptic all-in-one system when it comes to the closed method of producing PRP. The open technique, on the other hand, allows you to optimize each stage separately, however, sterility must be maintained. The open technique is the topic of this paper, which summarises the most recent research on the best methods for collecting, centrifuging, and storing PRP.
PRP kits generally come with PRP gel tubes, transfer needles, syringes, blood collection sets, and disposable devices. If you are looking for top-quality syringes or tubes check Plasmolifting. shop online. You will definitely be surprised at the attractive prices here.
What is PRP used for?
PRP is used to treat various conditions like wrinkles, joint injuries, hair loss, muscle injuries, and arthritis-related pain. There are some misconceptions among people about PRP that it is harmful. However, the fact here is PRP is totally safe as it is derived from the patient’s own blood. This means it is 100% natural. You will not face any kind of side effects with The PRP treatment.
Collecting PRP Sample
Because PRP is made up of plasma, the initial stage in the process is to make plasma using the patient’s blood. Blood is now collected into the tubes containing an anticoagulant, which stops blood from clotting. Different anticoagulants may have a range of effects on the plasma’s properties and composition. So, which of the anticoagulants on the market—EDTA, sodium citrate, ACD-A, and the other are better for making PRP?
In comparison to sodium citrate or EDTA, data from research investigations show that ACD-A produces PRP with improved platelet concentration, activity, and shape. Growth factor concentrations, on the other hand, are unaffected by whether PRP is made with EDTA, sodium citrate, or ACD-A, whereas mesenchymal stem cells multiply more rapidly in PRP prepared with sodium citrate or ACD-A.
An adequate centrifugation strategy is required to enhance the growth factor and platelet concentrations while maintaining platelet viability and integrity. PRP centrifugation is usually done at room temperature. However, some studies show that platelet viability and recovery can be improved at 12°C–16°C. According to experts, you must store the PRP at room temperature always. Ideally, you must use the PRP within 6hrs of centrifugation and sometimes before 8hrs.