TY - JOUR
T1 - The effect of platelet-rich plasma on muscle contusion healing in a rat model
AU - Delos, Demetris
AU - Leineweber, Matthew J.
AU - Chaudhury, Salma
AU - Alzoobaee, Saif
AU - Gao, Yingxin
AU - Rodeo, Scott Alan
PY - 2014/9/1
Y1 - 2014/9/1
N2 - Background: Current therapy for muscle contusions is usually limited to nonsteroidal anti-inflammatory drugs and/or use of the RICE principle (rest, ice, compression, elevation); thus, other forms of treatment that can potentially accelerate the rate of healing are desirable.Study Design: Controlled laboratory study.Methods: Forty-six male Lewis rats each underwent a single blunt, nonpenetrating impact to the gastrocnemius muscle via a drop-mass technique and subsequently received either a single injection of saline into the area of injury immediately after injury (controls, n = 11) or rat PRP (either immediately after injury [PRP day 0, n = 12], the first day after injury [PRP day 1, n = 12], or the third day after injury [PRP day 3, n = 11]). The primary outcome was maximal isometric torque strength of the injured muscle, which was assessed before injury as well as on postinjury days 1, 4, 7, 10, and 14. All animals were sacrificed on postinjury day 15. Histological and immunohistochemical analyses were performed on 6 specimens from each group after sacrifice.Hypotheses: A local injection of platelet-rich plasma (PRP) would lead to accelerated healing rates compared with controls; also, delayed administration of PRP would lead to a blunted response compared with immediate treatment.Clinical Relevance: Before PRP can be recommended for the treatment of muscle contusion injuries, further translational and clinical investigations need to be performed.Conclusion: In this rat contusion model, a local injection of PRP into the injured gastrocnemius muscle resulted in no significant differences in functional or histological outcomes, indicating no likely benefit to healing. Additionally, there was no significant difference between immediate or delayed administration of PRP.Results: The mean platelet concentration in the PRP was 2.19 3 106 (62.69 3 105)/mL. The mean white blood cell count in the PRP was 22.54 3 103/mL. Each group demonstrated statistically significant decreases in maximal isometric torque strength after injury when compared with preinjury levels, followed by significant increases back toward baseline values by postinjury day 14 (controls, 90.6% 6 7.90%; PRP day 0, 105.0% 6 7.60%; PRP day 1, 92.4% 6 7.60%; PRP day 3, 77.8% 6 7.90%) (P = .121). There were no statistically significant differences between the treatment and control groups at any of the time points. There were also no statistically significant differences between any of the groups in the percentage of centronucleated fibers (controls, 3.31%6 5.10%; PRP day 0, 0.62%6 1.59%; PRP day 1, 3.24%6 5.77%; PRP day 3, 2.13%6 3.26%) (P = .211) or the presence of inflammatory cells and macrophages.
AB - Background: Current therapy for muscle contusions is usually limited to nonsteroidal anti-inflammatory drugs and/or use of the RICE principle (rest, ice, compression, elevation); thus, other forms of treatment that can potentially accelerate the rate of healing are desirable.Study Design: Controlled laboratory study.Methods: Forty-six male Lewis rats each underwent a single blunt, nonpenetrating impact to the gastrocnemius muscle via a drop-mass technique and subsequently received either a single injection of saline into the area of injury immediately after injury (controls, n = 11) or rat PRP (either immediately after injury [PRP day 0, n = 12], the first day after injury [PRP day 1, n = 12], or the third day after injury [PRP day 3, n = 11]). The primary outcome was maximal isometric torque strength of the injured muscle, which was assessed before injury as well as on postinjury days 1, 4, 7, 10, and 14. All animals were sacrificed on postinjury day 15. Histological and immunohistochemical analyses were performed on 6 specimens from each group after sacrifice.Hypotheses: A local injection of platelet-rich plasma (PRP) would lead to accelerated healing rates compared with controls; also, delayed administration of PRP would lead to a blunted response compared with immediate treatment.Clinical Relevance: Before PRP can be recommended for the treatment of muscle contusion injuries, further translational and clinical investigations need to be performed.Conclusion: In this rat contusion model, a local injection of PRP into the injured gastrocnemius muscle resulted in no significant differences in functional or histological outcomes, indicating no likely benefit to healing. Additionally, there was no significant difference between immediate or delayed administration of PRP.Results: The mean platelet concentration in the PRP was 2.19 3 106 (62.69 3 105)/mL. The mean white blood cell count in the PRP was 22.54 3 103/mL. Each group demonstrated statistically significant decreases in maximal isometric torque strength after injury when compared with preinjury levels, followed by significant increases back toward baseline values by postinjury day 14 (controls, 90.6% 6 7.90%; PRP day 0, 105.0% 6 7.60%; PRP day 1, 92.4% 6 7.60%; PRP day 3, 77.8% 6 7.90%) (P = .121). There were no statistically significant differences between the treatment and control groups at any of the time points. There were also no statistically significant differences between any of the groups in the percentage of centronucleated fibers (controls, 3.31%6 5.10%; PRP day 0, 0.62%6 1.59%; PRP day 1, 3.24%6 5.77%; PRP day 3, 2.13%6 3.26%) (P = .211) or the presence of inflammatory cells and macrophages.
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U2 - 10.1177/0363546514540272
DO - 10.1177/0363546514540272
M3 - Article
C2 - 25056987
AN - SCOPUS:84907218628
SN - 0363-5465
VL - 42
SP - 2067
EP - 2074
JO - American Journal of Sports Medicine
JF - American Journal of Sports Medicine
IS - 9
ER -