 |
 |
 |
 |
 |
 |
Sains Malaysiana 45(5)(2016): 769–777
Effect of Platelet-Rich Plasma Treatment on Antioxidant Enzymes’ Activity following Hamstring Injury among Malaysian Athletes (Kesan
Rawatan Plasma Kaya-Platelet ke Atas Aktiviti Enzim Antioksidan Selepas Kecederaan
Hamstring dalam Kalangan Atlet Malaysia)
LINGLING LAI1,2*, MOHD NAHAR AZMI MOHAMED1,2, MOHAMED RAZIF MOHAMED ALI2, KHONG TENG-KEEN3 & ASHRIL YUSOF3
1Sport Medicine
Department, University of Malaya Medical Centre, 59100 Kuala Lumpur
Malaysia
2Sport Medicine Unit,
Faculty of Medicine, University of Malaya, 50603 Kuala Lumpur
Malaysia
3Sports Centre,
University of Malaya, 50603 Kuala Lumpur, Malaysia
Diserahkan: 17 Julai
2015/Diterima: 8 Disember 2015
ABSTRACT
The objective of the present
preliminary study was to investigate the effect of platelet-rich plasma (PRP)
treatment alongside rehabilitation programme compared with rehabilitation
programme alone on antioxidant enzymes’ (superoxide dismutase, SOD;
catalase, CAT) activity and time to return to play (RTP)
following hamstring injury among Malaysian athletes. Participants diagnosed
with grade-2 acute hamstring injury (n=10) were randomised into 2 groups of PRP
treatment and rehabilitation programme (PRP-T) and rehabilitation
programme alone (CON). Blood samples were collected at
baseline and 2 fortnightly (week-2, W2; week-4, W4) for the biochemical
assessments. Participants were certified to have recovered upon fulfilling RTP criteria. PRP-T group showed a significantly lower CAT activity
compared to CON group (47.55% lower at W2, 37% lower at W4,
p<0.05), while there was no significant difference in SOD activity
between the groups. Although PRP-T group benefited from an
earlier (~15 days) time to RTP compared to the CON group,
no statistically significant difference was noted; however, the effect size was
large (Cohen’s d=0.9). These findings suggested that PRP treatment
alongside rehabilitation potentially reduces the degree of secondary tissue
damage and facilitates muscle recovery through regulation of antioxidant
enzymes, which subsequently hastens time to RTP.
Athletes and coaches could consider PRP as viable treatment for
hamstring injury.
Keywords: Autologous; blood
injection; muscle injury; oxidative; rehabilitation
ABSTRAK
Objektif kajian awal ini adalah untuk
mengkaji kesan rawatan PRP bersama program pemulihan
berbanding dengan program pemulihan sahaja ke atas aktiviti enzim
antioksidan (superoksid dismutase, SOD; catalase, CAT),
serta masa untuk kembali beraksi selepas kecederaan hamstring dalam
kalangan atlet Malaysia. Peserta yang didiagnosis dengan kecederaan
hamstring akut gred-2 (n=10) dibahagikan secara rawak kepada kumpulan
rawatan PRP bersama program pemulihan (PRP-T) dan program pemulihan sahaja (CON).
Sampel darah dikumpulkan pada awalan dan setiap
2 mingggu (minggu-2, W2; minggu-4, W4) untuk penilaian biokimia.
Peserta disahkan pulih setelah memenuhi kriteria RTP.
Kumpulan PRP-T menunjukkan aktiviti CAT
jauh lebih rendah berbanding dengan kumpulan CON (47.55% lebih rendah pada
W2, 37% lebih rendah pada W4, p<0.05), manakala tiada perbezaan
signifikan bagi aktiviti SOD antara dua kumpulan. Walaupun kumpulan PRP-T
mendapat manfaat daripada masa lebih awal (~15 hari)
untuk kembali beraksi berbanding kumpulan CON, tiada perbezaan statistik
yang signifikan didapati; walau bagaimanapun, saiz kesannya adalah
besar (Cohen’s d=0.9). Penemuan ini menunjukkan
bahawa rawatan PRP
bersama program rehabilitasi berpotensi mengurangkan
tahap kerosakan tisu sekunder dan menggalakkan perkembangan pemulihan
otot melalui pengawalan enzim antioksidan, justeru mempercepatkan
masa untuk kembali beraksi. Atlet dan
jurulatih boleh mempertimbangkan PRP sebagai rawatan berkesan untuk
kecederaan hamstring.
Kata
kunci: Autologus; kecederaan otot; oksidatif; pemulihan;
suntikan darah RUJUKAN
Aebi, H.
1984. Catalase in vitro. Methods in
Enzymology 105: 121-126.
Agre, J.
1985. Hamstring injuries. Sports Medicine 2(1): 21-33.
Bernuzzi, G., Petraglia, F., Pedrini, M.F., De Filippo, M.,
Pogliacomi, F., Verdano, M.A. & Costantino, C. 2014. Use of
platelet-rich plasma in the care of sports injuries: Our experience with
ultrasound-guided injection. Blood Transfusion 12(Suppl 1): s229-s234.
Brancaccio, P., Lippi, G. & Maffulli, N. 2010. Biochemical markers of muscular damage. Clinical
Chemistry and Laboratory Medicine 48(6): 757-767.
Bubnov, R., Yevseenko, V. & Semeniv, I. 2013. Ultrasound
guided injections of platelets rich plasma for muscle injury in professional
athletes. Comparative study. Medical Ultrasonography 15(2): 101-105.
Cohen, J.
1988. Statistical Power Analysis for the Behavioral
Sciences. 2nd ed. Hillsdale, New Jersey: Lawrence Erlbaum
Associates.
Duthie,
G.G., Robertson, J.D., Maughan, R.J. & Morrice, P.C. 1990. Blood antioxidant status and erythrocyte lipid peroxidation
following distance running. Archives of Biochemistry and Biophysics 282(1):
78-83.
Ekstrand, J., Hagglund, M. & Walden, M. 2011. Epidemiology of muscle injuries in professional football (soccer). American Journal of Sports Medicine 39(6): 1226-1232.
El-Sharkawy, H., Kantarci, A., Deady, J., Hasturk, H., Liu, H.,
Alshahat, M. & Van Dyke, T.E. 2007. Platelet-rich plasma: Growth
factors and pro- and anti-inflammatory properties. Journal of Periodontology 78(4): 661-669.
Gomez-Cabrera, M.C., Domenech, E. & Vina, J. 2008. Moderate
exercise is an antioxidant: Upregulation of antioxidant genes by training. Free
Radical Biology and Medicine 44(2): 126- 1231.
Gutteridge,
J.M.C. & Halliwell, B. 1989. Iron toxicity and oxygen radicals. Baillière’s
Clinical Haematology 2(2): 195-256.
Halliwell, B., Clement, M.V. & Long, L.H. 2000. Hydrogen peroxide in the human body. FEBS Letters 486(1):
10-13.
Hamid,
M.S.A., Ali, M.R.M., Yusof, A. & George, J. 2012. Platelet-rich plasma
(PRP): An adjuvant to hasten hamstring muscle recovery. A randomized controlled
trial protocol (ISCRTN66528592). BMC Musculoskeletal Disorders 13: 138.
Hamid, M.S.A., Mohamed Ali, M.R., Yusof, A., George, J. & Lee,
L.P. 2014. Platelet-rich plasma injections for the treatment of hamstring
injuries: A randomized controlled trial. American Journal of Sports Medicine 42(10): 2410-2418.
Hamilton,
B., Knez, W., Eirale, C. & Chalabi, H. 2010. Platelet enriched plasma for
acute muscle injury. Acta Orthopaedica Belgica 76(4): 443-448.
Hassan, H.M.
1988. Biosynthesis and regulation of superoxide dismutases. Free Radical Biology and Medicine 5(5-6): 377-385.
Ishii, T.,
Itoh, K., Takahashi, S., Sato, H., Yanagawa, T., Katoh, Y., Bannai, S. &
Yamamoto, M. 2000. Transcription factor Nrf2 coordinately regulates a group of
oxidative stress-inducible genes in macrophages. Journal of Biological
Chemistry 275(21): 16023-16039.
Jackson,
M.J. 1999. Free radicals in skin and muscle: Damaging agents or signals for
adaptation? Proceedings of the Nutrition Society 58(3): 673-676.
Lai, L., Nahar, A.M.M., Lim, B.H., Hamid, M.S.A., Khoo, S. &
Yusof, A. 2014. Patient satisfaction in the treatment of acute
hamstring strain injury. International Journal of Kinesiology and
Sports Science 2(2): 9-15.
Laughlin, M.H., Simpson, T., Sexton, W.L., Brown, O.R., Smith,
J.K. & Korthuis, R.J. 1990. Skeletal muscle oxidative capacity,
antioxidant enzymes, and exercise training. Journal of Applied Physiology
(1985) 68(6): 2337-2343.
Lee, B.J., Lin, J.S., Lin, Y.C. & Lin, P.T. 2014. Effects of
L-carnitine supplementation on oxidative stress and antioxidant enzymes
activities in patients with coronary artery disease: A randomized,
placebo-controlled trial. Nutrition Journal 13(1): 79.
Li, G.,
Feng, X. & Wang, S. 2005. Effects of Cu/Zn superoxide dismutase on strain
injury-induced oxidative damage to skeletal muscle in rats. Physiological
Research 54(2): 193- 199.
Michiels, C., Raes, M., Toussaint, O. & Remacle, J. 1994. Importance of Se-glutathione peroxidase, catalase, and Cu/Zn-SOD
for cell survival against oxidative stress. Free Radical Biology and
Medicine 17(3): 235-248.
Mishra, A., Woodall, J. Jr. & Vieira, A. 2009. Treatment of tendon and muscle using platelet-rich plasma. Clinical
Sports Medicine 28(1): 113-125.
Mohamad
Shariff, A. Hamid., Ashrif Yusof & Mohd Razif Mohd
Ali. 2011. Skeletal muscle injuries among athletes. 4th AFC Conference on
Science and Football Medicine, Kuala Lumpur, 18-20 March. p. 89.
Peetrons, P. 2002. Ultrasound of muscles. European Radiology 12(1): 35-43.
Shariff, A., George, J. & Ramlan, A. 2009. Musculoskeletal
injuries among Malaysian badminton players. Singapore Medical Journal 50(11): 1095-1097.
Sherry, M.A. & Best, T.M. 2004. A comparison of 2
rehabilitation programs in the treatment of acute hamstring strains. Journal
of Orthopaedic & Sports Physical Therapy 34(3): 116-125.
Takebayashi, S.,
Takasawa, H., Banzai, Y., Miki, H., Sasaki, R., Itoh, Y. & Matsubara, S.
1995. Sonographic findings in muscle strain injury: Clinical and MR imaging
correlation. Journal of Ultrasound in Medicine 14(12): 899-905.
Tiidus, P.M. 2008. Skeletal
Muscle Damage and Repair. Champaign, IL: Human Kinetics.
Tohidnezhad, M., Varoga,
D., Wruck, C.J., Brandenburg, L.O., Seekamp, A., Shakibaei, M., Sonmez, T.T.,
Pufe, T. & Lippross, S. 2011. Platelet-released growth factors can
accelerate tenocyte proliferation and activate the anti-oxidant response
element. Histochemisty and Cell Biology 135(5): 453-460.
Vaille,
A., Jadot, G. & Elizagaray, A. 1990. Anti-inflammatory
activity of various superoxide dismutases on polyarthritis in the Lewis rat. Biochemical Pharmacology 39(2): 247-255.
Wang-Saegusa,
A., Cugat, R., Ares, O., Seijas, R., Cusco, X. & Garcia-Balletbo, M. 2011. Infiltration
of plasma rich in growth factors for osteoarthritis of the knee short-term
effects on function and quality of life. Archives of Orthopaedic and
Trauma Surgery 131(3): 311-317.
*Pengarang untuk surat-menyurat; email: lling5432@gmail.com
|
|||
|
