Dynamic Compression Enhances Pressure-to-Pain Threshold in Elite Athlete Recovery: Exploratory Study

Abstract Sands, WA, McNeal, JR, Murray, SR, and Stone, MH. Dynamic compression enhances pressure-to-pain threshold in elite athlete recovery: exploratory study. J Strength Cond Res 29(5): 1263–1272, 2015—Athlete recovery-adaptation is crucial to the progress and performance of highly trained athletes. The purpose of this study was to assess peristaltic pulse dynamic compression (PPDC) in reducing short-term pressure-to-pain threshold (PPT) among Olympic Training Center athletes after morning training. Muscular tenderness and stiffness are common symptoms of fatigue and exercise-induced muscle microtrauma and edema. Twenty-four highly trained athletes (men = 12 and women = 12) volunteered to participate in this study. The athletes were randomly assigned to experimental (n = 12) and control (n = 12) groups. Pressure-to-pain threshold measurements were conducted with a manual algometer on 3 lower extremity muscles. Experimental group athletes underwent PPDC on both legs through computer-controlled circumferential inflated leggings that used a peristaltic-like pressure pattern from feet to groin. Pressures in each cell were set to factory defaults. Treatment time was 15 minutes. The control group performed the same procedures except that the inflation pump to the leggings was off. The experimental timeline included a morning training session, followed by a PPT pretest, treatment application (PPDC or control), an immediate post-test (PPT), and a delayed post-test (PPT) after the afternoon practice session. Difference score results showed that the experimental group's PPT threshold improved after PPDC treatment immediately and persisted the remainder of the day after afternoon practice. The control group showed no statistical change. We conclude that PPDC is a promising means of accelerating and enhancing recovery after the normal aggressive training that occurs in Olympic and aspiring Olympic athletes.

[1]  R. Meeusen,et al.  Neurophysiological Determinants of Theoretical Concepts and Mechanisms Involved in Pacing , 2013, Sports Medicine.

[2]  T. Noakes,et al.  The development of peripheral fatigue and short‐term recovery during self‐paced high‐intensity exercise , 2013, The Journal of physiology.

[3]  F. Esposito,et al.  Combined effects of fatigue and temperature manipulation on skeletal muscle electrical and mechanical characteristics during isometric contraction. , 2012, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.

[4]  C. Malm,et al.  Exercise-induced muscle damage and inflammation: re-evaluation by proteomics , 2012, Histochemistry and Cell Biology.

[5]  S. Talbot,et al.  CASE REPORT Postoperative Use of the NormaTec Pneumatic Compression Device in Vascular Anomalies , 2012, Eplasty.

[6]  M. Muthuchamy,et al.  Regulatory mechanisms in lymphatic vessel contraction under normal and inflammatory conditions. , 2010, Pathophysiology : the official journal of the International Society for Pathophysiology.

[7]  P. Ellis,et al.  The Essential Guide to Effect Sizes: Power analysis and the detection of effects , 2010 .

[8]  Stephen-Mark Cooper,et al.  The Effects of Compression Garments on Recovery , 2009, Journal of strength and conditioning research.

[9]  Les Ansley,et al.  Fatigue management in the preparation of Olympic athletes , 2009, Journal of sports sciences.

[10]  W. Sands,et al.  Reliability and Validity of a Pressure Algometer , 2009, Journal of strength and conditioning research.

[11]  N. Maffulli,et al.  Intermittent pneumatic compression in fracture and soft-tissue injuries healing. , 2008, British medical bulletin.

[12]  M. Greig The Influence of Soccer-Specific Fatigue on Peak Isokinetic Torque Production of the Knee Flexors and Extensors , 2008, The American journal of sports medicine.

[13]  W. Olszewski Contractility Patterns of Human Leg Lymphatics in Various Stages of Obstructive Lymphedema , 2008, Annals of the New York Academy of Sciences.

[14]  Ian Newhouse,et al.  MONITORING THE ELITE ATHLETE , 2008 .

[15]  D. C. Azevedo,et al.  Influence of scapular position on the pressure pain threshold of the upper trapezius muscle region , 2008, European journal of pain.

[16]  Julius Sim,et al.  Interrater Reliability of Algometry in Measuring Pressure Pain Thresholds in Healthy Humans, Using Multiple Raters , 2007, The Clinical journal of pain.

[17]  G. Schmid-Schönbein,et al.  The primary valves in the initial lymphatics during inflammation. , 2007, Lymphatic research and biology.

[18]  P. Lindberg,et al.  Idiographic outcome analyses of the clinical significance of two interventions for patients with musculoskeletal pain. , 2006, Behaviour research and therapy.

[19]  W. Sands,et al.  Plaudits and Pitfalls in Studying Elite Athletes , 2005, Perceptual and motor skills.

[20]  William A. Sands,et al.  The Downfall of Sports Science in the United States , 2004 .

[21]  David G. Behm,et al.  The Effect of Muscle Damage on Strength and Fatigue Deficits , 2001, Journal of strength and conditioning research.

[22]  G. Sundelin,et al.  The effects of preexercise stretching on muscular soreness, tenderness and force loss following heavy eccentric exercise , 1999, Scandinavian journal of medicine & science in sports.

[23]  J. Giesey,et al.  Relationship between muscle swelling and stiffness after eccentric exercise. , 1998, Medicine and science in sports and exercise.

[24]  T. Sand,et al.  Pressure algometry in healthy subjects: inter-examiner variability. , 1998, Scandinavian journal of rehabilitation medicine.

[25]  T. Nikula,et al.  Lymph flow dynamics in exercising human skeletal muscle as detected by scintography , 1997, The Journal of physiology.

[26]  R. Eston,et al.  Pressure pain tolerance at different sites on the quadriceps femoris prior to and following eccentric exercise , 1997, European journal of pain.

[27]  J. Fridén,et al.  Intramuscular pressure, torque and swelling for the exercise-induced sore vastus lateralis muscle. , 1994, Acta physiologica Scandinavica.

[28]  R. Conatser,et al.  Muscle stiffness, strength loss, swelling and soreness following exercise‐induced injury in humans. , 1993, The Journal of physiology.

[29]  Maggie J. Cleak MSc,et al.  Muscle soreness, swelling, stiffness and strength loss after intense eccentric exercise. , 1992, British journal of sports medicine.

[30]  G. Bovim,et al.  Pain threshold in humans. A study with the pressure algometer. , 1992, Functional neurology.

[31]  J. Duarte,et al.  Exercise, Muscle Damage and Fatigue , 1992, Sports medicine.

[32]  P. Clarkson,et al.  Exercise-Induced Muscle Damage and Adaptation , 1989, Sports medicine.

[33]  C. J. Huberty,et al.  Multivariate analysis versus multiple univariate analyses. , 1989 .

[34]  W. Akeson,et al.  Residual muscular swelling after repetitive eccentric contractions , 1988, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.

[35]  A. Fischer Pressure algometry over normal muscles. Standard values, validity and reproducibility of pressure threshold , 1987, Pain.

[36]  M. Bobbert,et al.  Factors in delayed onset muscular soreness of man. , 1986, Medicine and science in sports and exercise.

[37]  J. Christenson,et al.  The relationship between subcutaneous tissue pressures and intramuscular pressures in normal and edematous legs. , 1985, Microcirculation, endothelium, and lymphatics.

[38]  S. Hillman,et al.  The use of physical agents in rehabilitation of athletic injuries. , 1985, Clinics in sports medicine.

[39]  J. Christenson,et al.  Primary lymphedema of the leg: relationship between subcutaneous tissue pressure, intramuscular pressure and venous function. , 1985, Lymphology.

[40]  M. Hartmann Principles And Practice Of Resistance Training , 2016 .

[41]  A. Barnett,et al.  Using Recovery Modalities between Training Sessions in Elite Athletes , 2006, Sports medicine.

[42]  P. Komi,et al.  The Stretch-Shortening Cycle , 2006, Sports medicine.

[43]  W. Sands,et al.  Are Your Athletes Progressing and How Would You Know , 2005 .

[44]  P. Hume DOMS : an overview of treatment strategies : review article , 2004 .

[45]  D. Allen,et al.  Cellular mechanisms of skeletal muscle fatigue. , 2003, Advances in experimental medicine and biology.

[46]  P. Helders,et al.  Algometry. Measuring pain threshold, method and characteristics in healthy subjects. , 1992, Scandinavian journal of rehabilitation medicine.

[47]  R Merletti,et al.  Indices of muscle fatigue. , 1991, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.

[48]  D. Newham,et al.  Pain and fatigue after concentric and eccentric muscle contractions. , 1983, Clinical science.