Type:
Volume: 10ml (8ml, 9ml, 12ml, 15ml, 20ml, 30-60ml is available.)
Application: Cosmetology, Dermatology, Skin Rejuvenation, Plastic Surgery , Dental, Hair, Fat transfer, Knee injection, Bone grafting, Stem cell extraction, Buffy coat extraction, Cosmetology, Dermatology, Androgenetic alopecia, Wound healing, Tendon injuries and Osteoarthritis treatment, pain treatment etc.
PRP tubes come in different compositions, with ACD-A+gel, HA PRP TUBE, BIOTIN PRP TUBE, and ACTIVATOR PRP TUBE being the most common.
ACD-A+gel tubes contain an anticoagulant called acid citrate dextrose, which prevents blood clotting and promotes the separation of blood components
HA PRP TUBE contains hyaluronic acid, which is known for its healing and anti-inflammatory properties.
BIOTIN PRP TUBE contains biotin, which supports healthy skin, hair, and nails.
ACTIVATOR PRP TUBE contains calcium chloride and thrombin, which helps to activate the platelets and increase the concentration of growth factors.
Usage: Face,Skin Care
Material :Glass
Tube Size:
8ml,9ml:16×100mm,
10ml:16×120mm
15ml:16*125mm
Additive Anticoagulant +Separation Gel +Activator
Results: 4-5ml activated PRP
Usage: Hair Regeneration
Material: Glass
Tube Size:
8ml,9ml:16×100mm,
10ml:16×120mm
15ml:16*125mm
Additive: Anticoagulant+Separation Gel+Biotin
Results: 4-5ml activated PRP
Usage:Dental,Orthopedics,Woundhealing Material:PET/Glass
Tube Size:
8ml,9ml:16×100mm
10ml: 16×120mm
15ml: 16*125mm
Additive:No additive
Results:5-8ml PRF(Non-liquid)
PRP gel filling
Centrifuge
Labeling (with label printing)
Solution filling
Cap or rubber adding
Vacuuming & cap pressing
Quality checking
Packaging
Box packaging
Shrink packaging
Carton packaging
Sterilization
The main difference with ordinary blood collection tubes is Normal blood collection tubes,
raw material and before production usually
not sterile, not washed.
and production in the 100,000 class workshop.
Generally there is no irradiation sterilization.
The PRP tube production process is critical to ensure the quality and consistency of the PRP tubes used in PRP therapy. The following steps are typically involved in the production of PRP tubes:
Material Selection: The materials used in the production of PRP tubes are carefully selected to ensure that they are of high quality and free from contaminants.
Tube Molding: The PRP tubes are molded using precise molds that ensure consistency in size and shape.
Separation Gel: The separation gel is added to the tube to ensure optimal separation of the blood components during centrifugation.
Anticoagulant: The appropriate anticoagulant is added to the tube to prevent clotting during the collection process.
Sterilization: The PRP tubes are sterilized using validated methods to ensure that they are free from contaminants.
Quality Control: The PRP tubes undergo rigorous quality control checks to ensure that they meet the required specifications for use in PRP therapy.
Conclusion
The quality of the PRP tube used in the preparation of PRP is critical to the success of PRP therapy. The PRP tube must be made from high-quality materials, designed to facilitate optimal separation of blood components, and sterile to prevent contamination of the PRP sample. The PRP tube production process must be carefully controlled to ensure that the tubes meet the required specifications for use in PRP therapy. By evaluating the quality of PRP tubes and ensuring a robust production process, practitioners can maximize the effectiveness of PRP therapy and promote healing and tissue regeneration in their patients.
PRP tubes are special blood collection tubes that are designed to collect a patient’s blood for PRP therapy. These tubes are made from high-quality materials and are designed to optimize the separation of platelets from other blood components during the centrifugation process. PRP tubes are typically made from medical-grade plastic PET or glass, and they are available in different sizes and shapes like:
Acd-A+gel/ Sodium Citrate/ MACD-7+gel/ HA/ Biotin Prp Tube , 8ml/10ml/12ml/15ml/22ml/30ml etc.
PRP tubes are composed of several different layers, each of which plays a critical role in the PRP preparation process. The layers are:
Separation Layer: This layer is designed to separate the blood into its different components during the centrifugation process. It is usually composed of a gel or polymer that has a specific density and viscosity to ensure optimal separation.
Red Blood Cell Layer: This layer is composed of red blood cells that are separated from the platelets and other blood components during the centrifugation process.
Buffy Coat Layer: This layer contains the platelets and other white blood cells that are used in PRP therapy.
PRP Layer : Platelet-rich plasma usually refers to blood that has been centrifuged, separated to remove red blood cells, and enriched with a portion of platelet plasma.
PPP Layer : Similar to platelet rich plasma (PRP) except that it has a lower concentration of platelet cells and growth factors. PPP is a biologic treatment that is derived from your own blood. It is similar to platelet rich plasma (PRP) except that it has a lower concentration of platelet cells and growth factors.
When choosing a PRP tube, it is essential to consider the following factors for a longer-lasting effect:
Anticoagulant: Choose a tube with an anticoagulant that is effective in preventing blood clotting and promoting platelet separation.
Additives: Consider the additives in the tube and choose one that best suits the patient’s specific needs.
Gel: Choose a tube with a gel that is compatible with the anticoagulant and helps to separate the red blood cells from the plasma.
Size: Choose a tube that is appropriate for the amount of blood required for the procedure.
Manufacturer: Choose a tube from a reputable manufacturer with a proven track record of producing high-quality PRP tubes.
PRP therapy is an effective treatment for promoting healing and tissue regeneration. The use of PRP tubes and kits has made the process more accessible and efficient. The choice of PRP tube and the centrifugation process can significantly influence the plasma activity and the concentration of platelets and growth factors.
The quality of PRP tubes is critical to the success of PRP therapy. The tubes must be made from high-quality materials that are free from contaminants that could affect the purity of the PRP sample. Additionally, the tubes must be designed to optimize the separation of platelets and other blood components during the centrifugation process. This ensures that the resulting PRP sample is rich in platelets and other growth factors that are essential for tissue regeneration and healing.
Some of the key factors that affect the quality of PRP tubes include:
Material: PRP tubes should be made from high-quality, medical-grade materials that are free from contaminants.
Design: PRP tubes should be designed to optimize the separation of platelets and other blood components during the centrifugation process.
Sterility: PRP tubes must be sterile to prevent contamination of the PRP sample.
Shelf Life: PRP tubes should have a long shelf life to ensure that they can be stored for future use.
Compatibility: PRP tubes should be compatible with the specific centrifuge being used in the PRP preparation process.
STEP 01
Blood Collection
STEP 02
Centrifugation
STEP 03
Remove PPP
STEP 04
Platelet
Resuspension
STEP 05
Read to use
To extract PRP, a small sample of the patient’s blood is drawn and collected in a PRP tube. The PRP tube contains an anticoagulant that prevents the blood from clotting during centrifugation. After the blood is collected, the PRP tube is placed in a centrifuge, where it spins at a high speed to separate the blood components. The PRP, which is rich in platelets and growth factors, is then extracted from the tube using a syringe and injected into the affected area.
The quality of the PRP tube and the centrifugation process can significantly influence the plasma activity. The PRP tube’s composition, design, and size can affect the platelet recovery rate and plasma activity. The centrifugation process’s speed and duration can also affect the concentration and quality of the PRP.
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We always endeavors to popularize PRP therapy in various fields such as Dermatology, Plastic surgery, Orthopedics, Neurosurgery, and so on.