Knee Osteoarthritis Treatment With Platelet-rich Plasma
90 patients around the world
Available in Brazil
- The goal of the study is to compare the clinical results of infiltration with hyaluronic
acid and platelet-rich plasma (PRP) in the conservative treatment of mild to moderate
osteoarthritis of the knee. Besides, we want to standardize two protocols for obtaining
and preparing PRP for use in the treatment of mild to moderate OA of the knee.
- The sample will consist of 90 patients with osteoarthritis of the knee being treated at
the outpatient clinic of the Osteoarthritis Monitoring and Treatment Program.
- Patients will be randomized in blocks by simple drawing of opaque envelopes before
application, in 3 experimental groups, and identified as described below:
GROUP PRP Protocol A: Composed of 30 patients who will receive an intra-articular injection
of platelet-rich plasma (PRP A), once a week, for three consecutive weeks; GROUP PRP Protocol
B: Composed of 30 patients who will receive an intra-articular injection of platelet-rich
plasma (PRP B), once a week, for three consecutive weeks; GROUP Hyaluronic acid: Composed of
30 patients who will receive an intra-articular injection of 2 mL of intra-articular
hyaluronic acid (AHI), once a week, for three consecutive weeks.
- PRP A will be prepared according to the following technique published previously
elsewhere:
1. Collection of 50 mL of peripheral blood from the antecubital vein, in sterile
vacuum collection tubes of 5 mL with 10% sodium citrate; An aliquot of collected
whole blood will be used to evaluate microbiological contamination;
2. Centrifuge the whole blood for 10 minutes at 1200 rpm, at room temperature,
separating the material into two different layers (erythrocytes, in the lower
layer, and plasma, in the upper layer), in a 6.5 cm radius centrifuge;
3. Separate and centrifuge the plasma for 5 minutes at 1200 rpm, creating two new
layers (upper, which will be removed, lower, containing the platelets); Care must
be taken to carefully aspirate the plasma from the closed tube using a syringe and
needle and transfer it to a new collection tube, carefully injecting it through the
cap;
4. Prepare the material for infiltration in the knee; after preparation, it is
estimated that 5 mL of PRP will be obtained, with half of the volume used for
injection and the other half for composition analysis and microbiological analysis.
- he preparation of PRP B will be carried out according to the following technique
published previously elsewhere::
a) Collection of 50 mL of peripheral blood from the antecubital vein, in sterile vacuum
collection tubes of 5 mL with 10% sodium citrate; b) Centrifuge the whole blood for 15
minutes at 1500 rpm, at room temperature, separating the material into two different
layers (red blood cells, in the lower layer, and plasma, in the upper layer), in a 6.5
cm radius centrifuge; e) Separate and centrifuge the plasma for 7 minutes at 3500 rpm,
creating two new layers (upper, which will be removed, lower, containing the platelets);
Care must be taken to carefully aspirate the plasma from the closed tube using a syringe
and needle and transfer it to a new collection tube, carefully injecting it through the
cap; f) Prepare the material for infiltration in the knee; after preparation, it is
estimated that 5 mL of PRP will be obtained, with half of the volume used for injection
and the other half for analysis of the composition.
- All infiltrations will be performed in the outpatient procedure room using aseptic
technique. The technique for application will follow the steps below:
1. Patient sitting on the stretcher in a comfortable position, with knees flexed and
blindfolded (blinding as to the treatment performed);
2. Clean the area where the application will be performed with gauze moistened with
degerming Clorhexidine;
3. Let the chlorhexidine act for one minute and then remove it with gauze moistened
with 70% alcohol;
4. Palpation of the knee for unguided infiltration through the anterolateral approach
to the knee;
5. Perform anesthetic button on the skin and subcutaneous tissue at the infiltration
site with 1 mL of 2% lidocaine without vasoconstrictor;
6. Insert the needle attached to the syringe of the product used through the chosen
path;
7. Inject the treatment according to randomization (AHI/PRP A/PRP B);
8. Remove the needle and empty syringe from the joint;
9. Perform 30 knee flexion-extension cycles to distribute the product over the joint;
10. Finalize the procedure with a simple dressing.
- The patient should not consume fatty foods or alcoholic beverages 48 hours
before the procedure;
- If joint effusion is present, it must be aspirated before infiltration;
- The patient should be advised to return to the hospital in case of exacerbated
pain, swelling or redness in the knee;
- NSAIDs should not be used in the week following application.
- The clinical evaluation will consist of the following steps:
1. Subjective functional assessment, based on WOMAC questionnaires, Knee Society Score
(KSS) and visual analogue scale for pain, function and satisfaction analysis
(before infiltration, on the day of the third infiltration, three months, six
months and one year after infiltration; according to knee center follow-up
protocol);
2. Clinical assessment, consisting of (1) registration of demographic data (age,
gender, weight, height, severity of osteoarthritis), (2) range of motion
measurement, (3) assessment of the axis of the lower limbs (before infiltration ,
on the day of the third infiltration, three months, six months and one year after
the infiltration; according to the knee cernter follow-up protocol); Radiographic
evaluation with panoramic, anteroposterior and profile radiographs of the knees
with load, aiming to detect alterations in the axis and joint space (before
infiltration, 6 months and 1 year after infiltration, according to the knee center
follow-up protocol).
Patients will be evaluated by an observer independent of the one who applied the
selected treatment.
- The study of PRP composition will be carried out at the Cellular Technology Center
following technique published previously elsewhere:
Peripheral blood samples from groups A and B will be processed to obtain PRP, with part of
this product used in the application and part used to analyze the composition of the
generated product.
Soon after preparation, a part of the product will be evaluated for hematological
composition: total cell count, leukocytes and platelets, and mean platelet volume. The rest
of the PRP will be stored, in aliquots of about 200ul, at the Cellular Technology Center,
where it will remain frozen in a freezer at -80°C until the proteomic analysis (specified
below) and the quantification of the factors and cytokines, through enzime linked
immunoabsorbant assay and Luminex Kits: interleukin-1β, interleukin-6, interleukin-8, tumor
necrosis factor-α, interferon-γ, interleukin-2, interleukin-2R, interleukin-7,
interleukin-15, interleukin-17, interleukin-12p40 (pro-inflammatory cytokines);
interleukin-1RA, interleukin-4, interleukin-5, interleukin-10, interleukin-13, interferon-α
(anti-inflammatory cytokines); eotaxin, Interferon-gamma inducible Protein 10kDa, Membrane
cofactor protein-1, interferon-γ-induced monokine, Macrophage inflammatory protein-1α,
Macrophage inflammatory protein-1β (chemokines); endothelium growth factor, b-fibroblast
growth factor, G-colony stimulating factor, vascular endotelium growth factor, transforming
growth factor-β1, transforming growth factor-β2, transforming growth factor-β3, platelet
derived growth factor-AB, platelet derived growth factor-BB, insulin growth factor-1 (growth
factors).