Academic literature on the topic 'Iliotibial band syndrome'
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Journal articles on the topic "Iliotibial band syndrome"
Barber, F. Alan, and Allan N. Sutker. "Iliotibial Band Syndrome." Sports Medicine 14, no. 2 (August 1992): 144–48. http://dx.doi.org/10.2165/00007256-199214020-00005.
Full textGrady, JF, KJ O'Connor, and J. Bender. "Iliotibial band syndrome." Journal of the American Podiatric Medical Association 76, no. 10 (October 1, 1986): 558–61. http://dx.doi.org/10.7547/87507315-76-10-558.
Full textDemir, Zeynep. "Iliotibial Band Syndrome." Acta Scientific Orthopaedics 2, no. 9 (August 16, 2019): 11–13. http://dx.doi.org/10.31080/asor.2019.02.0085.
Full textLalonde, François. "Iliotibial Band Syndrome." ACSM's Health & Fitness Journal 17, no. 5 (2013): 9–13. http://dx.doi.org/10.1249/fit.0b013e3182a0671a.
Full textDart, Scott E., Zane Hyde, Winston Gwathmey, and Brian C. Werner. "Distal Iliotibial Band Z-lengthening for Iliotibial Band Syndrome." Video Journal of Sports Medicine 1, no. 2 (March 2021): 263502542199713. http://dx.doi.org/10.1177/2635025421997139.
Full textFranco, Vittorio, Guglielmo Cerullo, Enrico Gianni, and Giancarlo Puddu. "Iliotibial band friction syndrome." Operative Techniques in Sports Medicine 5, no. 3 (July 1997): 153–56. http://dx.doi.org/10.1016/s1060-1872(97)80037-8.
Full textBarber, F. Alan, and Michael J. Sutker. "The Iliotibial Band Syndrome." Techniques in Knee Surgery 7, no. 2 (June 2008): 102–6. http://dx.doi.org/10.1097/btk.0b013e318160e9ad.
Full textRacioppi, Elizabeth A., and Dawn T. Gulick. "Iliotibial Band Friction Syndrome." Athletic Therapy Today 4, no. 5 (September 1999): 9–10. http://dx.doi.org/10.1123/att.4.5.9.
Full textLavine, Ronald. "Iliotibial band friction syndrome." Current Reviews in Musculoskeletal Medicine 3, no. 1-4 (July 20, 2010): 18–22. http://dx.doi.org/10.1007/s12178-010-9061-8.
Full textKirk, Kevin L., Timothy Kuklo, and William Klemme. "Iliotibial Band Friction Syndrome." Orthopedics 23, no. 11 (November 2000): 1209–15. http://dx.doi.org/10.3928/0147-7447-20001101-24.
Full textDissertations / Theses on the topic "Iliotibial band syndrome"
SieunNarine-McKay, Janine. "Evaluation of outcomes in assessment of iliotibial band syndrome rehabilitation programs." Thesis, University of British Columbia, 2016. http://hdl.handle.net/2429/58531.
Full textKinesiology, School of
Graduate
Scotti, Duane Michael. "Iliotibial Band Length and Patellofemoral Pain Syndrome: Relationship Between Two Measurement Techniques." Diss., NSUWorks, 2017. https://nsuworks.nova.edu/hpd_pt_stuetd/60.
Full textGunter, Petrus. "Early management of the iliotibial band friction syndrome (ITBFS) in distance runners." Master's thesis, University of Cape Town, 2003. http://hdl.handle.net/11427/3395.
Full textBrown, Allison M. "The Effects of Fatigue on Pathomechanics and Electromyography in Female Runners with Iliotibial Band Syndrome." Diss., Temple University Libraries, 2011. http://cdm16002.contentdm.oclc.org/cdm/ref/collection/p245801coll10/id/123697.
Full textPh.D.
The etiology of iliotibial band syndrome (ITBS) is not fully understood, however, dysfunction at the hip and decreased resistance to fatigue have been suggested to contribute to development of the syndrome. The objective of this study was to investigate differences in hip abductor strength and fatigue resistance, hip muscle activation timing and hip joint kinematic, kinetic and joint coupling patterns in female runners with and without ITBS. In addition, this study examined the effects of a run to exertion on these variables. Twelve female runners with ITBS and 20 healthy female runners participated in this study. Gluteus medius strength and electromyographic (EMG) data were collected during isometric testing. In addition, EMG data from the gluteus medius and tensor fascia latae muscles as well as 3-dimensional kinematic, kinetic and joint coupling data were collected during overground running. All data were collected prior-to and following a run to exertion. Prior to the run to exertion, with runners in a "fresh" state, there were no differences in hip abductor strength, kinematic joint coupling and terminal swing phase muscle activation timing between runners with ITBS and healthy runners. In a "fresh" state, ITBS runners demonstrated less resistance to fatigue at their gluteus medius muscle than did the healthy runners. As a result of exertion, runners with ITBS demonstrated decreased peak hip adduction angles during the stance phase of running gait. There were no group-by-exertion interactions for peak hip internal rotation angles, hip abductor and external rotator moments, kinematic joint coupling or hip abductor strength. There was a main effect of exertion for hip abductor moments, hip external rotator moments and hip abductor strength whereby both healthy and injured runners demonstrated 3.8, 4.2 and 7.3% decreases respectively following the run to exertion. In addition, there was a main effect of exertion on hip frontal/knee transverse plane kinematic joint coupling during the first half of loading where runners demonstrated a 7.3% increase in joint coupling values following the run to exertion. Our data did not detect group-by-exertion interactions or main effects of group or exertion with respect to terminal swing muscle activation timing. There was a significant group-by-exertion interaction when examining fatigue resistance. In a fresh-state, runners with ITBS demonstrated less resistance to fatigue than their healthy counterparts. Following the run to exertion, these differences did not exist. The results of this study suggest that currently symptomatic runners with ITBS demonstrate a potentially compensatory pattern of decreased stance phase hip adduction as compared with healthy runners. Hip internal rotation, abductor moments, external rotator moments or kinematic joint coupling do not appear to discriminate between the two groups. The results of this study also suggest that hip abductor strength may not be as large of a factor in the development of ITBS as previously thought. Instead, this muscle's endurance, or its ability to resist fatigue may play a larger role.
Temple University--Theses
Aderem, Jodi. "The biomechanical risk factors associated with preventing and managing iliotibial band syndrome in runners : a systematic review." Thesis, Stellenbosch : Stellenbosch University, 2015. http://hdl.handle.net/10019.1/96803.
Full textENGLISH ABSTRACT: Introduction: Iliotibial band syndrome (ITBS), an overuse injury, is the second most common running injury and the main cause of lateral knee pain in runners. Due to the increasing number of runners worldwide there has been an increase in its occurrence. Runners with ITBS typically experience symptoms just after heel strike at approximately 20°-30° of knee flexion (impingement zone) during the stance phase of running. A variety of intrinsic and extrinsic risk factors may be responsible for why some runners are more prone to developing symptoms during the impingement zone as opposed to others. Abnormalities in running biomechanics is an intrinsic risk factor which has been most extensively described in literature but little is known about its exact relationship to ITBS. Objectives: The purpose of this systematic review was to provide an up to date evidence synthesis of the biomechanical risk factors associated with ITBS. These risk factors may need to be considered in the prevention or management of ITBS in runners. A clinical algorithm is also presented. Methods: A systematic review with meta-analysis was conducted. An electronic search was performed in PubMed, PEDro, SPORTSDisc and Scopus of literature published up-until May 2014. Cross-sectional and cohort studies were eligible for inclusion if they evaluated the lower limb biomechanics of runners with ITBS or those who went onto developing it. All studies included in the review were methodologically appraised. Evidence was graded according to the level of evidence, consistency of evidence and the clinical impact. Data was described narratively using tables or narrative summaries where appropriate. A meta-analysis was conducted for biomechanical risk factors which were reported in at least two studies, provided that homogeneity in the outcomes and samples were present. Results: A total of 11 studies were included (1 prospective and 10 cross-sectional). Overall the methodological score of the studies was moderate. Increased peak hip adduction and knee internal rotation during the stance phase may predict the development of ITBS in female runners. These biomechanical risk factors may need to be screened for ITBS prevention, despite the evidence base being limited to a single study. Currently there is no conclusive evidence that any of the biomechanical parameters need to be considered when managing runners with ITBS. Stellenbosch University https://scholar.sun.ac.za iii Conclusion: Biomechanical differences may exist between runners with ITBS and those who may develop ITBS compared to healthy runners. Although a large variety of biomechanical risk factors were evaluated, the evidence base for screening or managing these risk factors for runners with ITBS is limited. This is due to a small evidence base, small clinical effect and heterogeneity between study outcomes and findings. Further prospective and cross-sectional research is required to ascertain if abnormalities in running biomechanics may be related to why runners develop ITBS or to ascertain which risk factors may be involved when managing these runners.
AFRIKAANSE OPSOMMING: Inleiding: Iliotibiale-band-sindroom (ITBS), ’n besering vanweë oormatige gebruik, is die tweede algemeenste hardloopbesering en die hoofoorsaak van laterale kniepyn by hardlopers. Namate die getal hardlopers wêreldwyd toeneem, neem die voorkoms van hierdie toestand ook toe. Hardlopers met ITBS ervaar tipies simptome ná die hakslag met die knie ongeveer 20-30° gebuig (die wrywingsone of “impingement zone”) gedurende die staanfase van hardloop. Verskeie intrinsieke en ekstrinsieke risikofaktore kan ’n rol speel in waarom sommige hardlopers meer geneig is as ander om gedurende die wrywingsone simptome te ervaar. Abnormaliteite in hardloopbiomeganika is ’n intrinsieke risikofaktor wat reeds omvattend in die literatuur beskryf is. Tog is weinig bekend oor presies hoe dit met ITBS verband hou. Oogmerke: Die doel van hierdie stelselmatige ondersoek was om ’n sintese te bied van die jongste bewyse van die biomeganiese risikofaktore van ITBS. Hierdie risikofaktore kan dalk oorweeg word om ITBS by hardlopers te voorkom of te bestuur. ’n Kliniese algoritme word ook aangebied. Metodes: ’n Stelselmatige ondersoek is met behulp van meta-ontleding onderneem. PubMed, PEDro, SPORTSDisc en Scopus is elektronies deurgesoek vir literatuur wat tot en met Mei 2014 verskyn het. Deursnee en kohortstudies is ingesluit indien dit gehandel het oor die biomeganika in die onderste ledemate van hardlopers wat ITBS het of later ontwikkel het. Alle studies wat deel was van die ondersoek is metodologies geëvalueer. Bewyse is aan die hand van bewysvlak, bewyskonsekwentheid en kliniese impak beoordeel. Data is narratief beskryf met behulp van tabelle of narratiewe opsommings waar dit toepaslik was. ’n Meta-ontleding is onderneem waar biomeganiese risikofaktore in minstens twee studies aangemeld is, mits daar homogeniteit in die uitkomste sowel as die steekproewe was. Resultate: Altesaam 11 studies is ingesluit (een prospektief en tien deursnee). Die metodologiese telling van die studies was oorwegend gemiddeld. Verhoogde spitsheupadduksie en interne knierotasie gedurende die staanfase kan op die ontwikkeling van ITBS by vrouehardlopers dui. Hierdie biomeganiese risikofaktore kan dalk nagegaan word vir ITBS-voorkoming, al was die bewysbasis beperk tot ’n enkele studie. Daar is tans geen afdoende bewys dat enige van die biomeganiese parameters oorweeg behoort te word in die bestuur van langafstandatlete met ITBS nie. Gevolgtrekking: Daar bestaan dalk biomeganiese verskille tussen hardlopers wat ITBS het of kan ontwikkel en gesonde hardlopers. Hoewel ’n groot verskeidenheid biomeganiese risikofaktore beoordeel is, is die bewysbasis vir die toets of bestuur daarvan by atlete met ITBS beperk. Dít is vanweë die klein hoeveelheid bewyse, die klein kliniese impak, en heterogeniteit tussen studie-uitkomste en bevindinge. Verdere prospektiewe en deursneenavorsing word vereis om te bepaal of abnormaliteite in hardloopbiomeganika ’n rol kan speel in waarom langafstandhardlopers ITBS ontwikkel, of om vas te stel watter risikofaktore ter sprake kan wees in die bestuur van hierdie hardlopers.
Ménard, Mathieu. "Effet de la posture sur la performance et la prévention des blessures en cyclisme. Apport de la modélisation musculo-squelettique." Thesis, Poitiers, 2016. http://www.theses.fr/2016POIT2287/document.
Full textPerformance and prevention of injuries in cycling are closely linked to the optimisation of individual's physical capacity and technique as weil as sport equipment.In this context, we have studied the influence of saddle setback on the effectiveness of pedalling and on knee joint loads. A musculoskeletal modelling was developed to estimate muscle and joint forces from experimental kinematic and dynamic measurements. We first focused on the adequacy between sensors data, anthropometrie model and kinematic measurements to obtain dynamically consistent input data.Then, the effect of sadd le setback on perforn1ance was evaluated through the index of pedal force effectiveness and a new index based on extemal mechanical work. Results have showed that a more backward sadd le position increases the effectiveness of pedalling.As regards to in jury prevention, our analysis focused on the effect of the saddle setback on two knee injuries commonly observed in cycling: the patellofemoral syndrome and iliotibial band syndrome. Our results showed that saddle setback do not influence patellofemoral joint forces that are usually linked to this syndrome. Moreover, a more backward saddle position increases tibiofemoral compression forces due to increasing eccentric contraction of the hamstrings.Commonly described as a friction syndrome, the computation of interaction force between iliotibial band and lateral femoral epicondyle have showed that the compression was the discriminating factor in the occurrence of the syndrome. The simulation approach developed here could be used as an additional tool to help correct potentially hartnful sport techniques, optimise equipment setup/design and improve the treatment of injuries.More generally, this thesis brings new methodological improvements and clinical implications that have broader applications on sport perfortnance, injury prevention and rehabilitation
Schwellnus, Martin. "Physical activity and overuse injuries : factors associated with the aetiology and management of overuse injuries that occur during physical activity with specific reference to bone stress injuries and the iliotibial band friction syndrome." Doctoral thesis, University of Cape Town, 1992. http://hdl.handle.net/11427/26289.
Full textDodelin, Damien. "Identifier la pronation podale et son impact lors de la locomotion afin de prévenir les lombalgies en situation professionnelle Foot function determination : agreement between tests ? The biomechanical effect of pronated foot-function on gait. An experimental study Comparison of the effects of insoles and muscle strengthening on gait kinematics in individuals with pronator foot function Reduction of foot overpronation to impromve iliotibial band syndrome in runners : a case series." Thesis, Normandie, 2020. http://www.theses.fr/2020NORMR052.
Full textPronation and flat feet have, for a long time, been associated, particularly in their relationship to injury. However, this relationship has been questioned in view of the divergent results in writings. Recently, the dissociation between foot-type and foot-function has highlighted a possible link between pronation and low back pain. The study of pronator subjects' way of moving, identified by foot function tests, could highlight the biomechanical risk factors associated with low back pain. The general objective was to identify and study the kinematic and plantar pressure impact of pronation while walking. Then to evaluate the effect of preventive treatments aimed aimed to limit the biomechanics at risk while keeping primary prevention in mind. Three studies were conducted. A concordance study between different pronation identification tests, under different conditions, was carried out in order to select an appropriate test for the study of gait. Gait kinematic and baropodometric analyses of 159 pronator vs non-pronator professional firefighters were then compared. Then, the effects of two one-month protocols aimed at reducing pronation (foot muscle strengthening or wearing insoles) were suggested to pronator subjects. Agreement between the different tests of foot-function identification was found to be low. A combination of functional tests was used to refine the identification of pronation. Pronator subjects showed plantar pressure and kinematic differences in the forefoot, hindfoot, knee and pelvis. These kinematic effects may reflect a risk factor for low back pain. Pronation was reduced by both preventive protocols wich were accompanied by kinematic changes in the foot and hip. Although our preventive protocols do not show an impact on the pelvis, they do show a kinematic change in the lower limb that could modify the biomechanics of the pelvis and provide a mean of preventing low back pain
Gangat, A. K. "The effectiveness of gluteus medius and iliotibial band stretching, versus strengthening, in the rehabilitation of iliotibial band syndrome in long distance runners." Thesis, 2005. http://hdl.handle.net/10321/205.
Full textThe purpose of this pre-post crossover clinical trial was to investigate the relative effectiveness of the combination of stretching followed by strengthening, versus the combination of strengthening followed by stretching, of the gluteus medius and iliotibial band (ITB), in the rehabilitation of chronic Iliotibial Band Syndrome (ITBS) in long distance runners. The results were based upon subjective and objective clinical findings, as well as effect on running performance.
Fuller-Good, Susan Lyn. "Is iliotibial band friction syndrome a risk factor for buttock and/or posterior thigh pain in comrades runners?" Thesis, 2001. https://hdl.handle.net/10539/23854.
Full textLong distance running is characterised by a high injury rate (van Mechelen, 1995; Lysholm and Wiklander, 1987). It is an ever-growing sport, being tried by increasing numbers of people with varying degrees of athletic ability. Injuries are detrimental to training, increase the risk of sustaining another injury, and are expensive to treat placing demands on our already strained health care system. Runners are healthy people who would require less health care than most people if they could avoid injuries. Iliotibial band friction syndrome (ITBFS), is one of the most common running injuries experienced. Buttock and/or posterior thigh pain (BAOPTP) is another common condition, which is also resistant to treatment. It tends to become chronic and to result in ongoing morbidity.
IT2018
Books on the topic "Iliotibial band syndrome"
Publications, ICON Health. The Official Patient's Sourcebook on Iliotibial Band Syndrome. Icon Health Publications, 2002.
Find full textThe relationship between tensor fascia latae muscle activity and the iliotibial band friction syndrome. 1985.
Find full textBook chapters on the topic "Iliotibial band syndrome"
Archbold, P., G. Mezzadri, P. Neyret, and C. Butcher. "Iliotibial Band Syndrome." In Surgery of the Knee, 133–35. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-19073-6_13.
Full textPeacock, Jacob. "Iliotibial Band Syndrome." In Musculoskeletal Sports and Spine Disorders, 247–49. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-50512-1_55.
Full textChicorelli, Anne Marie. "Iliotibial Band Syndrome." In Orthopedic Surgery Clerkship, 347–48. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-52567-9_75.
Full textArchbold, P., and G. Mezzadri. "Iliotibial Band Syndrome." In Surgery of the Knee, 127–30. London: Springer London, 2014. http://dx.doi.org/10.1007/978-1-4471-5631-4_12.
Full textPanayiotou Charalambous, Charalambos. "Iliotibial Band Syndrome." In The Knee Made Easy, 473–75. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-54506-2_26.
Full textBacker, Chelsea, and Matthew Sedgley. "Iliotibial Band Syndrome." In Common Pediatric Knee Injuries, 233–40. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-55870-3_26.
Full textMerlo, Marco, and Sergio Migliorini. "Iliotibial Band Syndrome (ITBS)." In The Lower Limb Tendinopathies, 117–26. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-33234-5_7.
Full textMigliorini, Sergio, Marco Merlo, and Lisa Migliorini. "Iliotibial Band Syndrome (ITBS)." In Triathlon Medicine, 81–95. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-22357-1_6.
Full textRodríguez-Merchán, E. Carlos, Hortensia De la Corte-Rodríguez, and Carlos A. Encinas-Ullán. "Knee Iliotibial Band Friction Syndrome After Total Knee Arthroplasty." In Comprehensive Treatment of Knee Osteoarthritis, 143–46. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-44492-1_14.
Full textPhinyomark, Angkoon, Sean T. Osis, Dylan Kobsar, Blayne A. Hettinga, Ryan Leigh, and Reed Ferber. "Biomechanical Features of Running Gait Data Associated with Iliotibial Band Syndrome: Discrete Variables Versus Principal Component Analysis." In XIV Mediterranean Conference on Medical and Biological Engineering and Computing 2016, 580–85. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-32703-7_113.
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