Powiadomienia systemowe
- Sesja wygasła!
Tytuł artykułu
Autorzy
Treść / Zawartość
Pełne teksty:
Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
The aim of this study was to compare the effects of scapular stabilization exercise with and without cognitive functional therapy (CFT) on disability and scapular kinematics in people suffering from chronic neck pain. Methods: A total of 72 patients with chronic non-specific neck pain were randomized into scapular stabilization exercise alone, n = 24, combined (scapular stabilization exercise + CFT), n = 24, and a control group, n = 24. Scapular kinematic and disability were measured at baseline and after the intervention. Results: Statistically significant differences in neck pain and disability scale (NPAD) were found when the multimodal physiotherapy group including a cognitive functional approach was compared with stabilization exercises group at 6 weeks (effect size (95%CI) = –1.63 (–2.55, –.71); P = 0.019)). Regarding the neck disability index (NDI), a significant between-group difference was observed at six-week (effect size (95%CI) = –2.69 (–3.80, –1.58); P = 0.007), with the superiority of effect in multimodal physiotherapy group. A significant between-group difference was observed in the scapular upward rotation and scapular osterior tilt at 30°, 60°, 90° and 120° of shoulder adduction. Conclusions: A group-based multimodal rehabilitation program including scapular stabilization exercise plus cognitive functional therapy was superior to group-based stabilization exercises alone for decreasing disability and, improving scapular kinematic in patients with chronic neck pain.
Czasopismo
Rocznik
Tom
Strony
75--83
Opis fizyczny
Bibliogr. 39 poz., rys., tab.
Twórcy
autor
- Department of Biomechanics and Sports Injuries, Kharazmi University of Tehran, Tehran, Iran.
autor
- Department of Physical Education and Sports Science, Boroujerd Branch, Islamic Azad University, Boroujerd, Iran.
autor
- Department of Biomechanics and Sports Injuries, Kharazmi University of Tehran, Tehran, Iran.
autor
- Institute of Sports Sciences, University of Physical Education in Krakow, Kraków, Poland.
autor
- Institute of Sports Sciences, University of Physical Education in Krakow, Kraków, Poland.
autor
- The Department of Biomechanics, University of Physical Education in Krakow, Kraków, Poland.
Bibliografia
- [1] ANTUNES A., CARNIDE F., MATIAS R., Real-time kinematic biofeedback improves scapulothoracic control and performance during scapular-focused exercises: A single-blind randomized controlled laboratory study, Hum. Mov. Sci., 2016, 48, 44–53.
- [2] BOVIM G., SCHRADER H., SAND T., Neck pain in the general population, Spine, 1994, 19 (12), 1307–1309.
- [3] CANEIRO J.P., SMITH A., RABEY M., MOSELEY G.L., O’SULLIVAN P.B., Process of Change in Pain-Related Fear: Clinical Insights From a Single Case Report of Persistent Back Pain Managed With Cognitive Functional Therapy, J. Orthop. Sports Phys. Ther., 2017, 47 (9), 637–651.
- [4] CELENAY S.T., AKBAYRAK T., KAYA D.O., A comparison of the effects of stabilization exercises plus manual therapy to those of stabilization exercises alone in patients with nonspecific mechanical neck pain: a randomized clinical trial, J. Orthop. Sports Phys. Ther., 2016, 46 (2), 44–55.
- [5] CHOI W.J., CYNN H.S., LEE C.H., JEON H.S., LEE J.H., JEONG H.J., YOON T.L., Shrug exercises combined with shoulder abduction improve scapular upward rotator activity and scapular alignment in subjects with scapular downward rotation impairment, J. Electromyogr. Kinesiol., 2015, 25 (2), 363–370.
- [6] FERSUM V.K., SMITH A., KVÅLE A., SKOUEN J.S., O’SULLIVAN P.B., Cognitive functional therapy in patients with non-specific chronic low back pain-a randomized controlled trial 3-year follow-up, Eur. J. Pain, 2019, 23 (8), 1416–1424.
- [7] GOOLKASIAN P., WHEELER H., GRETZ S.S., The neck pain and disability scale: test–retest reliability and construct validity, Clin. J. Pain, 2002, 18 (4), 245–250.
- [8] GROSS A., KAY T.M., PAQUIN J.P., BLANCHETTE S., LALONDE P., CHRISTIE T., DUPONT G., GRAHAM N., BURNIE S.J., GELLEY G., GOLDSMITH C.H., FORGET M., HOVING J.L., BRØNFORT G., SANTAGUIDA P.L., Cervical Overview Group, Exercises for mechanical neck disorders, Cochrane Database Syst. Rev., 2015, 1 (1), 12.
- [9] HALDEMAN S., CARROLL L., CASSIDY J.D., Findings from the bone and joint decade 2000 to 2010 task force on neck pain and its associated disorders, J. Occup. Environ. Med., 2010, 52 (4), 424–427.
- [10] HELGADOTTIR H., KRISTJANSSON E., MOTTRAM S., KARDUNA A., JONSSON Jr H., Altered scapular orientation during arm elevation in patients with insidious onset neck pain and whiplash-associated disorder, J. Orthop. Sports Phys. Ther., 2010, 40 (12), 784–791.
- [11] HOGG-JOHNSON S., VAN DER VELDE G., CARROLL L.J., HOLM L.W., CASSIDY J.D., GUZMAN J., CÔTÉ P., HALDEMAN S., AMMENDOLIA C., CARRAGEE E., HURWITZ E., NORDIN M., PELOSO P., The burden and determinants of neck pain in the general population, Eur. Spine J., 2008, 17 (1), 39–51.
- [12] HUANG H.Y., LIN J.J., GUO Y.L., WANG W.T., CHEN Y.J., EMG biofeedback effectiveness to alter muscle activity pattern and scapular kinematics in subjects with and without shoulder impingement, J. Electromyogr. Kinesiol., 2013, 23 (1), 267–274.
- [13] IMAI S., HARATO K., MORISHIGE Y., KOBAYASHI S., NIKI Y., SATO K., NAGURA T., Effects of Dual Task Interference on Biomechanics of The Entire Lower Extremity During the Drop Vertical Jump, J. Hum. Kinet., 2022, 81, 5–14.
- [14] JAVDANEH N., LETAFATKAR A., SHOJAEDIN S., HADADNEZHAD M., Scapular exercise combined with cognitive functional therapy is more effective at reducing chronic neck pain and kinesiophobia than scapular exercise alone: a randomized controlled trial, Clin. Rehabil., 2020, 34 (12), 1485–1496.
- [15] JAVDANEH N., MOLAYEI F., KAMRANIFRAZ N., Effect of adding motor imagery training to neck stabilization exercises on pain, disability and kinesiophobia in patients with chronic neck pain, Complement Ther. Clin. Pract., 2021, 42, 101263.
- [16] JAVDANEH N., SAETERBAKKEN A.H., SHAMS A., BARATI A.H., Pain Neuroscience Education Combined with Therapeutic Exercises Provides Added Benefit in the Treatment of Chronic Neck Pain, Int. J. Environ. Res. Public Health, 2021, 18, 8848.
- [17] JORRITSMA W., DIJKSTRA P.U., DE VRIES G.E., GEERTZEN J.H., RENEMAN M.F., Detecting relevant changes and responsiveness of Neck Pain and Disability Scale and Neck Disability Index, Eur. Spine J., 2012, 21 (12), 2550–2557.
- [18] KARDUNA A.R., MCCLURE P.W., MICHENER L.A., SENNETT B., Dynamic measurements of three-dimensional scapular kinematics: a validation study, J. Biomech. Eng., 2001, 123 (2), 184–190.
- [19] KELECIC I., SCHUSTER S., MASHARAWI Y., Static balance and its association with pain and disability in females with low back pain – a pilot cross-sectional study, Phys. Act. Rev., 2023, 11 (1), 69–76.
- [20] LEMPKE L.B., OH J., JOHNSON R.S., SCHMIDT J.D., LYNALL R.C., Single- Versus Dual-Task Functional Movement Paradigms: A Biomechanical Analysis, J. Sport Rehabil., 2021, 30 (5), 774–785.
- [21] LINTON S.J., A review of psychological risk factors in back and neck pain, Spine, 2000, 25 (9), 1148–1156.
- [22] LÓPEZ-DE-URALDE-VILLANUEVA I., BELTRAN-ALACREU H., FERNÁNDEZ-CARNERO J., LA TOUCHE R., Pain management using a multimodalphysiotherapy program including a biobehavioral approach for chronic nonspecific neck pain: a randomized controlled trial, Physiother. Theory Pract., 2020, 36 (1), 45–62.
- [23] LUBKOWSKA W., KRZEPOTA J., Quality of life and health behaviours of patients with low back pain, Phys. Act. Rev., 2019, 7, 182–192.
- [24] MILLER J., GROSS A., D’SYLVA J., BURNIE S.J., GOLDSMITH C.H., GRAHAM N., HAINES T., BRØNFORT G., HOVING J.L., Manual therapy and exercise for neck pain: a systematic review, Manual Therapy, 2010, 15 (4), 334–354.
- [25] MONTICONE M., AMBROSINI E., ROCCA B., CAZZANIGA D., LIQUORI V., PEDROCCHI A., VERNON H., Group-based multimodal exercises integrated with cognitive-behavioural therapy improve disability, pain and quality of life of subjects with chronic neck pain: a randomized controlled trial with one-year follow-up, Clin. Rehabil., 2017, 31 (6), 742–752.
- [26] MONTICONE M., AMBROSINI E., ROCCA B., CAZZANIGA D., LIQUORI V., PEDROCCHI A., VERNON H., Effectiveness of multimodal exercises integrated with cognitive-behavioral therapy in working patients with chronic neck pain: protocol of a randomized controlled trial with 1-year follow-up, Trials, 2022, 23 (1), 1–8.
- [27] MOSELEY G.L., NICHOLAS M.K., HODGES P.W., A randomized controlled trial of intensive neurophysiology education in chronic low back pain, Clin. J. Pain, 2004, 20 (5), 324–330.
- [28] O’SULLIVAN P.B., CANEIRO J.P., O’KEEFFE M., SMITH A., DANKAERTS W., FERSUM K., O’SULLIVAN K., Cognitive Functional Therap.y: An Integrated Behavioral Approach for the Targeted Management of Disabling Low Back Pain, Phys. Ther., 2018, 98 (5), 408–423.
- [29] PESCATELLO L.S., ARENA R., RIEBE D., THOMPSON WOLTERS KLUWER P.D., ACSM’s Guidelines for Exercise Testing and Prescription, 9th Ed, Lippincott Williams & Wilkins, Philadelphia, 2014.
- [30] SHIRZADI Z., ROJHANI-SHIRAZI Z., HEMMATI L., A Comparison Between the Effects of Scapulothoracic Mobilization Plus Physical Therapy With Physical Therapy Alone in Patients With Mechanical Neck Pain: A Randomized Clinical Trial, J. Chir. Med., 2018, 17 (4), 237–243.
- [31] THOMPSON D.P., OLDHAM J., WOBY S., Does adding cognitive-behavioural physiotherapy to exercise improve outcome in patients with chronic neck pain? A randomised controlled trial, Physiotherapy, 2016, 102 (2), 170–177.
- [32] THOMPSON D.P., URMSTON M., OLDHAM J.A., WOBY S.R., The association between cognitive factors, pain and disability in patients with idiopathic chronic neck pain, Disabil. Rehabil., 2010, 32 (21), 1758–1767.
- [33] TUFAIL M., LEE H., MOON Y.G., KIM H., KIM K., The Effect of Lumbar Erector Spinae Muscle Endurance Exercise on Perceived Low-back Pain in Older Adults, Phys. Act. Rev., 2021, 9 (2), 82–92.
- [34] VAN DEN NOORT J.C., WIERTSEMA S.H., HEKMAN K.M., SCHÖNHUTH C.P., DEKKER J., HARLAAR J., Measurement of scapular dyskinesis using wireless inertial and magnetic sensors: Importance of scapula calibration, J. Biomech., 2015, 48 (12), 3460–3468.
- [35] VERNON H., MIOR S., The Neck Disability Index: a study of reliability and validity, J. Manipulative Physiol. Ther., 1991.
- [36] YILDIZ T.I., COOLS A., DUZGUN I., Alterations in the 3-dimensional scapular orientation in patients with non-specific neck pain, Clin. Biomech., 2019, 70, 97–106.
- [37] YILDIZ T.I., TURGUT E., DUZGUN I., Neck and Scapula-Focused Exercise Training on Patients With Nonspecific Neck Pain: A Randomized Controlled Trial, J. Sport Rehabil., 2018, 27 (5), 403–412.
- [38] YOON T.L., Validity and reliability of an inertial measurement unit-based 3D angular measurement of shoulder joint motion, J. Korean Phys. Ther., 2017, 29 (3), 145–151.
- [39] YOUNG B.A., WALKER M.J., STRUNCE J.B., BOYLES R.E., WHITMAN J.M., CHILDS J.D., Responsiveness of the Neck Disability Index in patients with mechanical neck disorders, Spine J, 2009, 9 (10), 802–808.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-15754900-aee3-4ae1-a057-362b76b13840