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Abstract

The effects of a 16 mile run on Creatine Kinase levels 24, 48, and 72 hours post run. L. J. Palombo, M.J. Zitta, T.J. Quinn, FACSM, R.W. Kenefick, FACSM. The Robert Kertzer Exercise Physiology Laboratory,

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Abstract

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  1. The effects of a 16 mile run on Creatine Kinase levels 24, 48, and 72 hours post run. L. J. Palombo, M.J. Zitta, T.J. Quinn, FACSM, R.W. Kenefick, FACSM. The Robert Kertzer Exercise Physiology Laboratory, University of New Hampshire, Durham. Abstract Distance runners often complete a long duration run in their regular training program. This training run may cause muscle damage. Creatine Kinase (CK), an enzyme in the blood, is a marker of muscle damage. Delayed onset muscle soreness (DOMS) often accompanies elevations in CK. Together, these variable may negatively affect a runner’s performance. PURPOSE: To determine whether a long distance run evokes DOMS and increased CK levels. METHODS: Subjects (n=10) were recruited from various running clubs around the Seacoast area and visited the lab 5 times. Visits 1,3, 4 and 5 involved flexibility, muscle power, and muscle soreness tests, as well as a blood draw to measure CK levels. Visit 2 involved a 16 mile road run through Durham and Dover. RESULTS: A repeated measures ANOVA analysis of the Creatine Kinase values revealed that CK was significantly higher (p=0.0053) 24 and 48 hours post run. Although it was not significant, CK levels were still increased at 72 hours. DOMS was not significant at any time post run. CONCLUSIONS: The results from this study show that CK levels are in fact increased 24 and 48 hours after a 16 mile run, suggesting muscle damage. However, the muscle damage that takes place is not enough to elicit a DOMS reaction. • Methods • -10 healthy males (see Table 1) visited the Robert Kertzer Exercise Physiology Lab a total of 5 times. • Visit 1: • First visit included anthropometric measurements as well as flexibility (Sit and Reach), muscle power (Vertical Jump), Muscle Soreness, and a VO2max test, assessed using a Sensormedics Metabolic Cart. • A urine sample was obtained to determine hydration status, and Creatine Kinase (CK) was measured via blood sample. • Visit 2: • Subjects returned one week after the preliminary testing for visit 2. • After acquiring a blood and urine sample, the subjects ran a 16 mile road course through Dover and Durham. • Visits 3, 4, and 5: • The last visits were 24, 48, and 72 hours after the long run. • Flexibility, vertical jump, and muscle soreness, were assessed as they were in the preliminary visit. • A blood and urine sample were obtained each visit to measure CK and hydration status. • Creatine Kinase Measurement: • The blood sample was obtained from an antecubital vein. The blood serum was separated using a centrifuge and then used in an assay kit to measure CK levels. • Background • Creatine Kinase (CK) is an enzyme in the blood that is typically used as a marker of muscle damage. • After any bout of strenuous exercise, muscle damage and inflammation occurs, precipitating a delayed onset muscle soreness (DOMS) response. • The inflammation impairs the muscle’s ability to contract efficiently and makes work more difficult. • Previous studies have shown a relationship between DOMS and impaired performance, but have not necessarily determined a link between CK levels and DOMS. • Purpose • This study looked at the rise in Creatine Kinase levels in the blood 24, 48, and 72 hours after a 16 mile run, as well as the possible link between Creatine Kinase levels and DOMS. The practical implications of this study are to aid athletes in their training regimen. • Hypothesis • We hypothesized that muscle damage would ensue after a 16 mile run, causing an increase in Creatine Kinase levels and delayed onset muscle soreness. Figure 1: Conclusions This study showed that there is significant muscle damage 24 and 48 hours following a long bout of exercise, even if delayed onset muscle soreness was not seen. These results coincide with previous studies that suggest that the mechanism for blood CK elevation and DOMS are different (8). In conclusion, it was determined that there is an occurrence of muscle damage after a 16 mile run regardless of the lack of physical symptoms such as DOMS. Results Although the subject’s reported slight increase in muscle soreness the days following the long run, there was no significant increase in muscle soreness in the calf, hamstring, or quadriceps. A repeated measures ANOVA analysis of the Creatine Kinase values revealed that CK was significantly higher (p=0.0053) 24 and 48 hours post run. Although it was not significant, CK levels were still increased at 72 hours. (Figure 1). References 1. Braun, W.A., D.J. Dutto. The effects of a single bout of downhill running and ensuing delayed onset muscle soreness on running ecnomy performed 48 h later. European Journal of Applied Physiology 90: 29-34, 2003. 2. Eston, RG., S. Finney, S. Baker, V. Baltzopoulos. Muscle Tenderness and peak torque changes after downhill running following a prior bout of isokinetic eccentric exercise. J. Sports Sci. 14 (4): 291-9, 1996. 3. Guezennec, C.Y., J.M. Vallier, A.X. Bigard and A. Durey. Increase in energy cost of running at the end of a triatholon. European Journal of Applied Physiology; 73: 440-445, 1996. 4. Kyrolainen, H., T. Pullinen, R. Candau, J. Avela, P. Huttunen, P.V. Komi. Effects of marathon running on running economy and kinematics. European Journal of Applied Physiology; 82: 297-304, 2000. 5. Morgan, D., P. Martin, G. Krahenbuhl. Factors Affecting Running Economy. Sports Medicine 7:310-330, 1989. 6. Overgaard, K., A. Fressted, A. Hyldal, T. Imgemann-Hansen, H. Gissel, T. Clausen. Effects of Running Distance and Training on Ca2+ Content and Damage in Human Muscle. Med. Sci. Sports. Exerc. 36 (5): 821-9. 2004 7. Triffletti, P., P.E. Litchfield, P.M. Clarkson, W.C. Byrnes. Creatine Kinase and Muscle Soreness after repeated isometric exercise. Med. Sci. Sports. Exerc. 20: 242-48, 1988. 8. Vincent, H.K., K.R. Vincent. The Effect of Training Status on the Serum Creatine Kinase Response, Soreness, and Muscle Function Following Resistance Exercise. Int. J. Sports Med., 18: 431-437,1997.

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