Joint mobilization improves spatiotemporal postural control and range of motion in those with chronic ankle instability

The purpose of this study was to examine the effects of a single joint mobilization treatment on dorsiflexion range of motion (DF ROM), posterior talar glide, and dynamic and static postural control in individuals with self‐reported chronic ankle instability (CAI). In this randomized cross‐over stud...

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Published inJournal of orthopaedic research Vol. 29; no. 3; pp. 326 - 332
Main Authors Hoch, Matthew C., McKeon, Patrick O.
Format Journal Article
LanguageEnglish
Published Hoboken Wiley Subscription Services, Inc., A Wiley Company 01.03.2011
Subjects
Adult
Ankle Joint - physiology
ankle sprain
balance
Chronic Disease
Cross-Over Studies
dorsiflexion
Female
Humans
Joint Instability - physiopathology
Joint Instability - therapy
Male
manual therapy
Musculoskeletal Manipulations - methods
Physical Therapy Modalities
Postural Balance - physiology
Posture - physiology
Range of Motion, Articular - physiology
sensorimotor system
Treatment Outcome
Young Adult
Online AccessGet full text
ISSN0736-0266
1554-527X
1554-527X
DOI10.1002/jor.21256

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Abstract The purpose of this study was to examine the effects of a single joint mobilization treatment on dorsiflexion range of motion (DF ROM), posterior talar glide, and dynamic and static postural control in individuals with self‐reported chronic ankle instability (CAI). In this randomized cross‐over study, subjects received a Maitland Grade III anterior‐to‐posterior joint mobilization treatment and a control treatment of rest for 5 min. Weight‐bearing DF ROM, instrumented posterior talar displacement and posterior stiffness, the anterior, posteromedial, and posterolateral reach directions of the Star Excursion Balance Test (SEBT), and time‐to‐boundary (TTB) single‐limb stance static postural control were assessed on both treatment days in 9 males and 11 females with CAI. The results indicated that the joint mobilization treatment was associated with significantly greater DF ROM (p = 0.01) and TTB in the anterior–posterior direction with eyes‐open (p < 0.05). Although not significant, trends were identified in posterior talar displacement (p = 0.08) and the mean of TTB in the medial‐lateral (ML) direction (p = 0.07). No significant differences were observed in the standard deviation of TTB in the ML direction, the SEBT, or posterior stiffness (p > 0.05). This indicates that a single joint mobilization treatment has mechanical and functional benefits for addressing impairments in sensorimotor function and arthrokinematic restrictions commonly experienced by individuals with CAI. © 2010 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res 29:326–332, 2011
AbstractList The purpose of this study was to examine the effects of a single joint mobilization treatment on dorsiflexion range of motion (DF ROM), posterior talar glide, and dynamic and static postural control in individuals with self-reported chronic ankle instability (CAI). In this randomized cross-over study, subjects received a Maitland Grade III anterior-to-posterior joint mobilization treatment and a control treatment of rest for 5 min. Weight-bearing DF ROM, instrumented posterior talar displacement and posterior stiffness, the anterior, posteromedial, and posterolateral reach directions of the Star Excursion Balance Test (SEBT), and time-to-boundary (TTB) single-limb stance static postural control were assessed on both treatment days in 9 males and 11 females with CAI. The results indicated that the joint mobilization treatment was associated with significantly greater DF ROM (p = 0.01) and TTB in the anterior-posterior direction with eyes-open (p < 0.05). Although not significant, trends were identified in posterior talar displacement (p = 0.08) and the mean of TTB in the medial-lateral (ML) direction (p = 0.07). No significant differences were observed in the standard deviation of TTB in the ML direction, the SEBT, or posterior stiffness (p > 0.05). This indicates that a single joint mobilization treatment has mechanical and functional benefits for addressing impairments in sensorimotor function and arthrokinematic restrictions commonly experienced by individuals with CAI.The purpose of this study was to examine the effects of a single joint mobilization treatment on dorsiflexion range of motion (DF ROM), posterior talar glide, and dynamic and static postural control in individuals with self-reported chronic ankle instability (CAI). In this randomized cross-over study, subjects received a Maitland Grade III anterior-to-posterior joint mobilization treatment and a control treatment of rest for 5 min. Weight-bearing DF ROM, instrumented posterior talar displacement and posterior stiffness, the anterior, posteromedial, and posterolateral reach directions of the Star Excursion Balance Test (SEBT), and time-to-boundary (TTB) single-limb stance static postural control were assessed on both treatment days in 9 males and 11 females with CAI. The results indicated that the joint mobilization treatment was associated with significantly greater DF ROM (p = 0.01) and TTB in the anterior-posterior direction with eyes-open (p < 0.05). Although not significant, trends were identified in posterior talar displacement (p = 0.08) and the mean of TTB in the medial-lateral (ML) direction (p = 0.07). No significant differences were observed in the standard deviation of TTB in the ML direction, the SEBT, or posterior stiffness (p > 0.05). This indicates that a single joint mobilization treatment has mechanical and functional benefits for addressing impairments in sensorimotor function and arthrokinematic restrictions commonly experienced by individuals with CAI.
The purpose of this study was to examine the effects of a single joint mobilization treatment on dorsiflexion range of motion (DF ROM), posterior talar glide, and dynamic and static postural control in individuals with self‐reported chronic ankle instability (CAI). In this randomized cross‐over study, subjects received a Maitland Grade III anterior‐to‐posterior joint mobilization treatment and a control treatment of rest for 5 min. Weight‐bearing DF ROM, instrumented posterior talar displacement and posterior stiffness, the anterior, posteromedial, and posterolateral reach directions of the Star Excursion Balance Test (SEBT), and time‐to‐boundary (TTB) single‐limb stance static postural control were assessed on both treatment days in 9 males and 11 females with CAI. The results indicated that the joint mobilization treatment was associated with significantly greater DF ROM ( p  = 0.01) and TTB in the anterior–posterior direction with eyes‐open ( p  < 0.05). Although not significant, trends were identified in posterior talar displacement ( p  = 0.08) and the mean of TTB in the medial‐lateral (ML) direction ( p  = 0.07). No significant differences were observed in the standard deviation of TTB in the ML direction, the SEBT, or posterior stiffness ( p  > 0.05). This indicates that a single joint mobilization treatment has mechanical and functional benefits for addressing impairments in sensorimotor function and arthrokinematic restrictions commonly experienced by individuals with CAI. © 2010 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res 29:326–332, 2011
The purpose of this study was to examine the effects of a single joint mobilization treatment on dorsiflexion range of motion (DF ROM), posterior talar glide, and dynamic and static postural control in individuals with self-reported chronic ankle instability (CAI). In this randomized cross-over study, subjects received a Maitland Grade III anterior-to-posterior joint mobilization treatment and a control treatment of rest for 5 min. Weight-bearing DF ROM, instrumented posterior talar displacement and posterior stiffness, the anterior, posteromedial, and posterolateral reach directions of the Star Excursion Balance Test (SEBT), and time-to-boundary (TTB) single-limb stance static postural control were assessed on both treatment days in 9 males and 11 females with CAI. The results indicated that the joint mobilization treatment was associated with significantly greater DF ROM (p = 0.01) and TTB in the anterior-posterior direction with eyes-open (p < 0.05). Although not significant, trends were identified in posterior talar displacement (p = 0.08) and the mean of TTB in the medial-lateral (ML) direction (p = 0.07). No significant differences were observed in the standard deviation of TTB in the ML direction, the SEBT, or posterior stiffness (p > 0.05). This indicates that a single joint mobilization treatment has mechanical and functional benefits for addressing impairments in sensorimotor function and arthrokinematic restrictions commonly experienced by individuals with CAI.
The purpose of this study was to examine the effects of a single joint mobilization treatment on dorsiflexion range of motion (DF ROM), posterior talar glide, and dynamic and static postural control in individuals with self‐reported chronic ankle instability (CAI). In this randomized cross‐over study, subjects received a Maitland Grade III anterior‐to‐posterior joint mobilization treatment and a control treatment of rest for 5 min. Weight‐bearing DF ROM, instrumented posterior talar displacement and posterior stiffness, the anterior, posteromedial, and posterolateral reach directions of the Star Excursion Balance Test (SEBT), and time‐to‐boundary (TTB) single‐limb stance static postural control were assessed on both treatment days in 9 males and 11 females with CAI. The results indicated that the joint mobilization treatment was associated with significantly greater DF ROM (p = 0.01) and TTB in the anterior–posterior direction with eyes‐open (p < 0.05). Although not significant, trends were identified in posterior talar displacement (p = 0.08) and the mean of TTB in the medial‐lateral (ML) direction (p = 0.07). No significant differences were observed in the standard deviation of TTB in the ML direction, the SEBT, or posterior stiffness (p > 0.05). This indicates that a single joint mobilization treatment has mechanical and functional benefits for addressing impairments in sensorimotor function and arthrokinematic restrictions commonly experienced by individuals with CAI. © 2010 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res 29:326–332, 2011
Author Hoch, Matthew C.
McKeon, Patrick O.
Author_xml – sequence: 1
  givenname: Matthew C.
  surname: Hoch
  fullname: Hoch, Matthew C.
  email: mcho222@uky.edu
  organization: Division of Athletic Training, University of Kentucky, College of Health Sciences, Wethington Building, Room 206B, 900 South Limestone, Lexington, KY 40536-0200
– sequence: 2
  givenname: Patrick O.
  surname: McKeon
  fullname: McKeon, Patrick O.
  organization: Division of Athletic Training, University of Kentucky, College of Health Sciences, Wethington Building, Room 206B, 900 South Limestone, Lexington, KY 40536-0200
BackLink https://www.ncbi.nlm.nih.gov/pubmed/20886654$$D View this record in MEDLINE/PubMed
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ContentType Journal Article
Copyright Copyright © 2010 Orthopaedic Research Society
Copyright © 2010 Orthopaedic Research Society.
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References McVey ED, Palmieri RM, Docherty CL, et al. 2005. Arthrogenic muscle inhibition in the leg muscles of subjects exhibiting functional ankle instability. Foot Ankle Int 26: 1055-1061.
Palmieri RM, Ingersoll CD, Cordova ML, et al. 2003. The effect of a simulated knee joint effusion on postural control in healthy subjects. Arch Phys Med Rehabil 84: 1076-1079.
Wikstrom EA, Tillman MD, Chmielewski TL, et al. 2009. Self-assessed disability and functional performance in individuals with and without ankle instability: a case control study. J Orthop Sport Phys Ther 39: 458-467.
Wikstrom EA, Hubbard TJ. 2010. Talar positional fault in persons with chronic ankle instability. Arch Phys Med Rehabil 91: 1267-1271.
Youdas JW, McLean TJ, Krause DA, et al. 2009. Changes in active ankle dorsiflexion range of motion after acute inversion ankle sprain. J Sport Rehabil 18: 358-374.
Hertel J. 2008. Sensorimotor deficits with ankle sprains and chronic ankle instability. Clin Sport Med 27: 353-370.
Fernandez WG, Yard EE, Comstock RD. 2007. Epidemiology of lower extremity injuries among U.S. high school athletes. Acad Emerg Med 14: 641-645.
Valderrabano V, Hintermann B, Horisberger M, et al. 2006. Ligamentous posttraumatic ankle osteoarthritis. Am J Sport Med 34: 612-620.
Hoch MC, Staton GS, McKeon PO. 2010. Dorsiflexion range of motion significantly influences dynamic balance. J Sci Med Sport 45: (in press). DOI: 10.1016/j.jsams.2010.08.001.
Hoch MC, Staton GS, McKeon PO. 2010. Reliability and responsiveness of the star excursion balance test in those with chronic ankle instability. Med Sci Sport Exerc 42: S347.
Yerys S, Makofsky H, Byrd C, et al. 2002. Effect of mobilization of the anterior hip capsule on gluteus maximus strength. J Man Manip Ther 10: 218.
Munn J, Sullivan SJ, Schneiders AG. 2010. Evidence of sensorimotor deficits in functional ankle instability: a systematic review with meta-analysis. J Sci Med Sport 13: 2-12.
McKeon PO, Ingersoll CD, Kerrigan DC, et al. 2008. Balance training improves function and postural control in those with chronic ankle instability. Med Sci Sport Exerc 40: 1810-1819.
Hootman JM, Dick R, Agel J. 2007. Epidemiology of collegiate injuries for 15 sports: summary and recommendations for injury prevention initiatives. J Athl Train 42: 311-319.
Drewes LK, McKeon PO, Kerrigan DC, et al. 2009. Dorsiflexion deficit during jogging with chronic ankle instability. J Sci Med Sport 12: 685-687.
Anandacoomarasamy A, Barnsley L. 2005. Long term outcomes of inversion ankle injuries. Br J Sport Med 39: e14.
Hertel J, Olmsted-Kramer LC, Challis JH. 2006. Time-to-boundary measures of postural control during single leg quiet standing. J Appl Biomech 22: 67-73.
Landrum EL, Kelln BM, Parente WR, et al. 2008. Immediate effects of anterior-to-posterior talocrural joint mobilization after prolonged ankle immobilization: a preliminary study. J Man Manip Ther 16: 100-105.
Vicenzino B, Branjerdporn M, Teys P, et al. 2006. Initial changes in posterior talar glide and dorsiflexion of the ankle after mobilization with movement in individuals with recurrent ankle sprain. J Orthop Sport Phys Ther 36: 464-471.
Kaltenborn F. 1999. Manual mobilization of the joints, 5th ed. Minneapolis, MN: OPTA.
Davids K, Glazier P, Araujo D, et al. 2003. Movement systems as dynamic systems: the functional role of variability and its implications for sports medicine. Sport Med 33: 245-260.
Denegar CR, Hertel J, Fonseca J. 2002. The effect of lateral ankle sprain on dorsiflexion range of motion, posterior talar glide, and joint laxity. J Orthop Sport Phys Ther 32: 166-173.
McKeon PO, Booi MJ, Branam B, et al. 2010. Lateral ankle ligament anesthesia signficantly alters single limb postural control. Gait Posture 24: (in press). DOI: 10.1016/j.gaitpost.2010.06.016.
Wyrwich KW, Tierney WM, Wolinsky FD. 1999. Further evidence supporting an SEM-based criterion for identifying meaningful intra-individual changes in health-related quality of life. J Clin Epidemiol 52: 861-873.
Sefton JM, Hicks-Little CA, Hubbard TJ, et al. 2008. Segmental spinal reflex adaptations associated with chronic ankle instability. Arch Phys Med Rehabil 89: 1991-1995.
Davids K, Glazier P. 2010. Deconstructing neurobiological coordination: the role of the biomechanics-motor control nexus. Exerc Sport Sci Rev 38: 86-90.
Reid A, Birmingham TB, Alcock G. 2007. Efficacy of mobilization with movement for patients with limited dorsiflexion after ankle sprain: a crossover trial. Physiother Can 59: 166-172.
Kovaleski JE, Schwarz NA, Heitman RJ, et al. 2010. Reliability of one-way and total laxity measurements of the ankle complex derived from an instrumented arthrometer. J Athl Train 45: S-13.
Robinson RH, Gribble PA. 2008. Support for a reduction in the number of trials needed for the star excursion balance test. Arch Phys Med Rehabil 89: 364-370.
Hertel J, Olmsted-Kramer LC. 2007. Deficits in time-to-boundary measures of postural control with chronic ankle instability. Gait Posture 25: 33-39.
Green T, Refshauge K, Crosbie J, et al. 2001. A randomized controlled trial of a passive accessory joint mobilization on acute ankle inversion sprains. Phys Ther 81: 984-994.
Martin RL, Irrgang JJ, Burdett RG, et al. 2005. Evidence of validity for the foot and ankle ability measure (FAAM). Foot Ankle Int 26: 968-983.
Hubbard TJ, Hertel J. 2006. Mechanical contributions to chronic lateral ankle instability. Sport Med 36: 263-277.
Liebler EJ, Tufano-Coors L, Douris P, et al. 2001. The effect of thoracic spine mobilization on lower trapezius strength testing. J Man Manip Ther 9: 207.
Gribble PA, Hertel J. 2003. Considerations for normalizing measures of the star excursion balance test. Meas Phys Educ Exerc Sci 7: 89-100.
Beazell J, Grindstaff TL, Drewes LK, et al. 2010. Effects of tibiofibular joint manipulation on ankle range of motion and functional outcomes in individuals with chronic ankle instability. J Orthop Sport Phys Ther 40: A30.
de Noronha M, Refshauge KM, Herbert RD, et al. 2006. Do voluntary strength, proprioception, range of motion, or postural sway predict occurrence of lateral ankle sprain? Br J Sport Med 40: 824-828.
Bennell K, Talbot R, Wajswelner H, et al. 1998. Intra-rater and inter-rater reliability of a weight-bearing lunge measure of ankle dorsiflexion. Aust J Physiother 44: 175-180.
Collins N, Teys P, Vicenzino B. 2004. The initial effects of a Mulligan's mobilization with movement technique on dorsiflexion and pain in subacute ankle sprains. Man Ther 9: 77-82.
Hertel J. 2002. Functional anatomy, pathomechanics, and pathophysiology of lateral ankle instability. J Athl Train 37: 364-375.
de la Motte SJ, Arnold BL, Ross SE. 2010. CAI subjects show spinal rotation differences at maximal reach of the star excursion balance test. J Athl Train 45: S-68.
Grindstaff TL, Beazell J, Drewes LK, et al. 2010. Effects of a tibiofibular joint manipulation on lower extremity H-reflex in individuals with chronic ankle instability. J Orthop Sport Phys Ther 40: A29-A30.
Wikstrom EA, Naik S, Lodha N, et al. 2009. Balance capabilities after lateral ankle trauma and intervention: a meta-analysis. Med Sci Sport Exerc 41: 1287-1295.
Beaton DE, Bombardier C, Katz JN, et al. 2001. A taxonomy for responsiveness. J Clin Epidemiol 54: 1204-1217.
Arnold BL, De La Motte S, Linens S, et al. 2009. Ankle instability is associated with balance impairments: a meta-analysis. Med Sci Sport Exerc 41: 1048-1062.
Docherty CL, Gansneder BM, Arnold BL, et al. 2006. Development and reliability of the ankle instability instrument. J Athl Train 41: 154-158.
Hass CJ, Bishop MD, Doidge D, et al. 2010. Chronic ankle instability alters central organization of movement. Am J Sport Med 38: 829-834.
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References_xml – reference: Hoch MC, Staton GS, McKeon PO. 2010. Dorsiflexion range of motion significantly influences dynamic balance. J Sci Med Sport 45: (in press). DOI: 10.1016/j.jsams.2010.08.001.
– reference: Landrum EL, Kelln BM, Parente WR, et al. 2008. Immediate effects of anterior-to-posterior talocrural joint mobilization after prolonged ankle immobilization: a preliminary study. J Man Manip Ther 16: 100-105.
– reference: McVey ED, Palmieri RM, Docherty CL, et al. 2005. Arthrogenic muscle inhibition in the leg muscles of subjects exhibiting functional ankle instability. Foot Ankle Int 26: 1055-1061.
– reference: Beazell J, Grindstaff TL, Drewes LK, et al. 2010. Effects of tibiofibular joint manipulation on ankle range of motion and functional outcomes in individuals with chronic ankle instability. J Orthop Sport Phys Ther 40: A30.
– reference: Liebler EJ, Tufano-Coors L, Douris P, et al. 2001. The effect of thoracic spine mobilization on lower trapezius strength testing. J Man Manip Ther 9: 207.
– reference: Hass CJ, Bishop MD, Doidge D, et al. 2010. Chronic ankle instability alters central organization of movement. Am J Sport Med 38: 829-834.
– reference: Green T, Refshauge K, Crosbie J, et al. 2001. A randomized controlled trial of a passive accessory joint mobilization on acute ankle inversion sprains. Phys Ther 81: 984-994.
– reference: Fernandez WG, Yard EE, Comstock RD. 2007. Epidemiology of lower extremity injuries among U.S. high school athletes. Acad Emerg Med 14: 641-645.
– reference: Hoch MC, Staton GS, McKeon PO. 2010. Reliability and responsiveness of the star excursion balance test in those with chronic ankle instability. Med Sci Sport Exerc 42: S347.
– reference: Valderrabano V, Hintermann B, Horisberger M, et al. 2006. Ligamentous posttraumatic ankle osteoarthritis. Am J Sport Med 34: 612-620.
– reference: Docherty CL, Gansneder BM, Arnold BL, et al. 2006. Development and reliability of the ankle instability instrument. J Athl Train 41: 154-158.
– reference: Martin RL, Irrgang JJ, Burdett RG, et al. 2005. Evidence of validity for the foot and ankle ability measure (FAAM). Foot Ankle Int 26: 968-983.
– reference: McKeon PO, Ingersoll CD, Kerrigan DC, et al. 2008. Balance training improves function and postural control in those with chronic ankle instability. Med Sci Sport Exerc 40: 1810-1819.
– reference: Wikstrom EA, Tillman MD, Chmielewski TL, et al. 2009. Self-assessed disability and functional performance in individuals with and without ankle instability: a case control study. J Orthop Sport Phys Ther 39: 458-467.
– reference: Wikstrom EA, Naik S, Lodha N, et al. 2009. Balance capabilities after lateral ankle trauma and intervention: a meta-analysis. Med Sci Sport Exerc 41: 1287-1295.
– reference: Davids K, Glazier P, Araujo D, et al. 2003. Movement systems as dynamic systems: the functional role of variability and its implications for sports medicine. Sport Med 33: 245-260.
– reference: Yerys S, Makofsky H, Byrd C, et al. 2002. Effect of mobilization of the anterior hip capsule on gluteus maximus strength. J Man Manip Ther 10: 218.
– reference: Hertel J. 2002. Functional anatomy, pathomechanics, and pathophysiology of lateral ankle instability. J Athl Train 37: 364-375.
– reference: Denegar CR, Hertel J, Fonseca J. 2002. The effect of lateral ankle sprain on dorsiflexion range of motion, posterior talar glide, and joint laxity. J Orthop Sport Phys Ther 32: 166-173.
– reference: Davids K, Glazier P. 2010. Deconstructing neurobiological coordination: the role of the biomechanics-motor control nexus. Exerc Sport Sci Rev 38: 86-90.
– reference: Wikstrom EA, Hubbard TJ. 2010. Talar positional fault in persons with chronic ankle instability. Arch Phys Med Rehabil 91: 1267-1271.
– reference: Robinson RH, Gribble PA. 2008. Support for a reduction in the number of trials needed for the star excursion balance test. Arch Phys Med Rehabil 89: 364-370.
– reference: Beaton DE, Bombardier C, Katz JN, et al. 2001. A taxonomy for responsiveness. J Clin Epidemiol 54: 1204-1217.
– reference: de la Motte SJ, Arnold BL, Ross SE. 2010. CAI subjects show spinal rotation differences at maximal reach of the star excursion balance test. J Athl Train 45: S-68.
– reference: Sefton JM, Hicks-Little CA, Hubbard TJ, et al. 2008. Segmental spinal reflex adaptations associated with chronic ankle instability. Arch Phys Med Rehabil 89: 1991-1995.
– reference: Hertel J, Olmsted-Kramer LC. 2007. Deficits in time-to-boundary measures of postural control with chronic ankle instability. Gait Posture 25: 33-39.
– reference: Hertel J, Olmsted-Kramer LC, Challis JH. 2006. Time-to-boundary measures of postural control during single leg quiet standing. J Appl Biomech 22: 67-73.
– reference: Hubbard TJ, Hertel J. 2006. Mechanical contributions to chronic lateral ankle instability. Sport Med 36: 263-277.
– reference: Hertel J. 2008. Sensorimotor deficits with ankle sprains and chronic ankle instability. Clin Sport Med 27: 353-370.
– reference: de Noronha M, Refshauge KM, Herbert RD, et al. 2006. Do voluntary strength, proprioception, range of motion, or postural sway predict occurrence of lateral ankle sprain? Br J Sport Med 40: 824-828.
– reference: Kovaleski JE, Schwarz NA, Heitman RJ, et al. 2010. Reliability of one-way and total laxity measurements of the ankle complex derived from an instrumented arthrometer. J Athl Train 45: S-13.
– reference: Gribble PA, Hertel J. 2003. Considerations for normalizing measures of the star excursion balance test. Meas Phys Educ Exerc Sci 7: 89-100.
– reference: Bennell K, Talbot R, Wajswelner H, et al. 1998. Intra-rater and inter-rater reliability of a weight-bearing lunge measure of ankle dorsiflexion. Aust J Physiother 44: 175-180.
– reference: Kaltenborn F. 1999. Manual mobilization of the joints, 5th ed. Minneapolis, MN: OPTA.
– reference: Arnold BL, De La Motte S, Linens S, et al. 2009. Ankle instability is associated with balance impairments: a meta-analysis. Med Sci Sport Exerc 41: 1048-1062.
– reference: Youdas JW, McLean TJ, Krause DA, et al. 2009. Changes in active ankle dorsiflexion range of motion after acute inversion ankle sprain. J Sport Rehabil 18: 358-374.
– reference: Grindstaff TL, Beazell J, Drewes LK, et al. 2010. Effects of a tibiofibular joint manipulation on lower extremity H-reflex in individuals with chronic ankle instability. J Orthop Sport Phys Ther 40: A29-A30.
– reference: Wyrwich KW, Tierney WM, Wolinsky FD. 1999. Further evidence supporting an SEM-based criterion for identifying meaningful intra-individual changes in health-related quality of life. J Clin Epidemiol 52: 861-873.
– reference: Hootman JM, Dick R, Agel J. 2007. Epidemiology of collegiate injuries for 15 sports: summary and recommendations for injury prevention initiatives. J Athl Train 42: 311-319.
– reference: McKeon PO, Booi MJ, Branam B, et al. 2010. Lateral ankle ligament anesthesia signficantly alters single limb postural control. Gait Posture 24: (in press). DOI: 10.1016/j.gaitpost.2010.06.016.
– reference: Drewes LK, McKeon PO, Kerrigan DC, et al. 2009. Dorsiflexion deficit during jogging with chronic ankle instability. J Sci Med Sport 12: 685-687.
– reference: Vicenzino B, Branjerdporn M, Teys P, et al. 2006. Initial changes in posterior talar glide and dorsiflexion of the ankle after mobilization with movement in individuals with recurrent ankle sprain. J Orthop Sport Phys Ther 36: 464-471.
– reference: Anandacoomarasamy A, Barnsley L. 2005. Long term outcomes of inversion ankle injuries. Br J Sport Med 39: e14.
– reference: Munn J, Sullivan SJ, Schneiders AG. 2010. Evidence of sensorimotor deficits in functional ankle instability: a systematic review with meta-analysis. J Sci Med Sport 13: 2-12.
– reference: Reid A, Birmingham TB, Alcock G. 2007. Efficacy of mobilization with movement for patients with limited dorsiflexion after ankle sprain: a crossover trial. Physiother Can 59: 166-172.
– reference: Collins N, Teys P, Vicenzino B. 2004. The initial effects of a Mulligan's mobilization with movement technique on dorsiflexion and pain in subacute ankle sprains. Man Ther 9: 77-82.
– reference: Palmieri RM, Ingersoll CD, Cordova ML, et al. 2003. The effect of a simulated knee joint effusion on postural control in healthy subjects. Arch Phys Med Rehabil 84: 1076-1079.
– volume: 89
  start-page: 1991
  year: 2008
  end-page: 1995
  article-title: Segmental spinal reflex adaptations associated with chronic ankle instability
  publication-title: Arch Phys Med Rehabil
– volume: 42
  start-page: 311
  year: 2007
  end-page: 319
  article-title: Epidemiology of collegiate injuries for 15 sports: summary and recommendations for injury prevention initiatives
  publication-title: J Athl Train
– volume: 40
  start-page: A29
  year: 2010
  end-page: A30
  article-title: Effects of a tibiofibular joint manipulation on lower extremity H‐reflex in individuals with chronic ankle instability
  publication-title: J Orthop Sport Phys Ther
– volume: 25
  start-page: 33
  year: 2007
  end-page: 39
  article-title: Deficits in time‐to‐boundary measures of postural control with chronic ankle instability
  publication-title: Gait Posture
– volume: 40
  start-page: 1810
  year: 2008
  end-page: 1819
  article-title: Balance training improves function and postural control in those with chronic ankle instability
  publication-title: Med Sci Sport Exerc
– volume: 45
  start-page: S‐68
  year: 2010
  article-title: CAI subjects show spinal rotation differences at maximal reach of the star excursion balance test
  publication-title: J Athl Train
– volume: 52
  start-page: 861
  year: 1999
  end-page: 873
  article-title: Further evidence supporting an SEM‐based criterion for identifying meaningful intra‐individual changes in health‐related quality of life
  publication-title: J Clin Epidemiol
– volume: 44
  start-page: 175
  year: 1998
  end-page: 180
  article-title: Intra‐rater and inter‐rater reliability of a weight‐bearing lunge measure of ankle dorsiflexion
  publication-title: Aust J Physiother
– volume: 9
  start-page: 207
  year: 2001
  article-title: The effect of thoracic spine mobilization on lower trapezius strength testing
  publication-title: J Man Manip Ther
– volume: 26
  start-page: 968
  year: 2005
  end-page: 983
  article-title: Evidence of validity for the foot and ankle ability measure (FAAM)
  publication-title: Foot Ankle Int
– volume: 40
  start-page: 824
  year: 2006
  end-page: 828
  article-title: Do voluntary strength, proprioception, range of motion, or postural sway predict occurrence of lateral ankle sprain?
  publication-title: Br J Sport Med
– volume: 7
  start-page: 89
  year: 2003
  end-page: 100
  article-title: Considerations for normalizing measures of the star excursion balance test
  publication-title: Meas Phys Educ Exerc Sci
– volume: 22
  start-page: 67
  year: 2006
  end-page: 73
  article-title: Time‐to‐boundary measures of postural control during single leg quiet standing
  publication-title: J Appl Biomech
– volume: 14
  start-page: 641
  year: 2007
  end-page: 645
  article-title: Epidemiology of lower extremity injuries among U.S. high school athletes
  publication-title: Acad Emerg Med
– volume: 37
  start-page: 364
  year: 2002
  end-page: 375
  article-title: Functional anatomy, pathomechanics, and pathophysiology of lateral ankle instability
  publication-title: J Athl Train
– volume: 41
  start-page: 1287
  year: 2009
  end-page: 1295
  article-title: Balance capabilities after lateral ankle trauma and intervention: a meta‐analysis
  publication-title: Med Sci Sport Exerc
– volume: 16
  start-page: 100
  year: 2008
  end-page: 105
  article-title: Immediate effects of anterior‐to‐posterior talocrural joint mobilization after prolonged ankle immobilization: a preliminary study
  publication-title: J Man Manip Ther
– volume: 91
  start-page: 1267
  year: 2010
  end-page: 1271
  article-title: Talar positional fault in persons with chronic ankle instability
  publication-title: Arch Phys Med Rehabil
– volume: 26
  start-page: 1055
  year: 2005
  end-page: 1061
  article-title: Arthrogenic muscle inhibition in the leg muscles of subjects exhibiting functional ankle instability
  publication-title: Foot Ankle Int
– volume: 41
  start-page: 1048
  year: 2009
  end-page: 1062
  article-title: Ankle instability is associated with balance impairments: a meta‐analysis
  publication-title: Med Sci Sport Exerc
– volume: 18
  start-page: 358
  year: 2009
  end-page: 374
  article-title: Changes in active ankle dorsiflexion range of motion after acute inversion ankle sprain
  publication-title: J Sport Rehabil
– volume: 10
  start-page: 218
  year: 2002
  article-title: Effect of mobilization of the anterior hip capsule on gluteus maximus strength
  publication-title: J Man Manip Ther
– volume: 54
  start-page: 1204
  year: 2001
  end-page: 1217
  article-title: A taxonomy for responsiveness
  publication-title: J Clin Epidemiol
– volume: 24
  year: 2010
  article-title: Lateral ankle ligament anesthesia signficantly alters single limb postural control
  publication-title: Gait Posture
– volume: 89
  start-page: 364
  year: 2008
  end-page: 370
  article-title: Support for a reduction in the number of trials needed for the star excursion balance test
  publication-title: Arch Phys Med Rehabil
– volume: 40
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Snippet The purpose of this study was to examine the effects of a single joint mobilization treatment on dorsiflexion range of motion (DF ROM), posterior talar glide,...
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SubjectTerms Adult
Ankle Joint - physiology
ankle sprain
balance
Chronic Disease
Cross-Over Studies
dorsiflexion
Female
Humans
Joint Instability - physiopathology
Joint Instability - therapy
Male
manual therapy
Musculoskeletal Manipulations - methods
Physical Therapy Modalities
Postural Balance - physiology
Posture - physiology
Range of Motion, Articular - physiology
sensorimotor system
Treatment Outcome
Young Adult
Title Joint mobilization improves spatiotemporal postural control and range of motion in those with chronic ankle instability
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https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fjor.21256
https://www.ncbi.nlm.nih.gov/pubmed/20886654
https://www.proquest.com/docview/847431783
https://www.proquest.com/docview/896858188
Volume 29
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