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Abstrakty
The aim of this study was to define the influence of whiplash injury on cervical spine stability. The study involved 72 patients who had suffered from sprain injury to cervical spine of 0(degree)-III(degree) according to QTF. To verify the results the authors examined the control group whose representatives have never suffered from any cervical spine injury and met all the exclusion criteria. Conventional plain radiographs in both groups showed three lateral views: maximum flexion, neutral (resting) position and maximum extension view. The results of image studies were subjected to roentgenometric analysis to find mechanical symptoms of instability according to radiological criteria: AADI, anterior translation and regional angulation. The authors demonstrated that there was no influence of whiplash injury on mechanical stability of cervical spine measured on radiograms in static-functional lateral views.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
59--63
Opis fizyczny
Bibliogr. 25 poz., rys., tab.
Twórcy
autor
autor
autor
autor
autor
autor
- Wrocław Medical University
Bibliografia
- [1] ECK J., HODGES S., HUMPHREYS C., Whiplash: A review of a commonly misunderstood injury, Am. J. of Medicine, 2001, 110, 651–656.
- [2] SUISSA S., HARDER S., VAILLEUX M., The relation between initial symptoms and sings and the prognosis of whiplash, Eur. Spine J., 2001, 10, 44–49.
- [3] PANJABI M., CHOLEWICKI J., NIBU K. et al., Biomechanik des Beschleunigungstraumas, Orthopadie, 1998, 27, 813–819.
- [4] PANJABI M., CHOLEWICKI J., NIBU K. et al., Mechanics of whiplash injury, Clinical Biomechanics, 1998, 13, 239–249.
- [5] PANJABI M., ITO S., PEAERSON A. et al., Cervical spine curvature during simulated whiplash, Clinical Biomechanics, 2004, 19, 1–9.
- [6] PANJABI M., ITO S., PEARSON A. et al., Injury mechanisms of the cervical intervertebral disc simulated whiplash, Spine, 2004, 29, 1217–1225.
- [7] PANJABI M., MAAK T.G., IVANIC P., ITO S., Dynamic intervertebral foramen narrowing during simulated rear impact, Spine, 2006, 5, 128–134.
- [8] PEARSON A., IVANCIC P., ITO S. et al., Facet joint kinematics and injury mechanisms during simulated whiplash, Spine, 2004, 15, 390–397.
- [9] LUAN F., YANG K., DENG B. et al., Qualitative analysis of neck kinematics during low-speed rear-end impact, Clinical Biomechanics, 2000, 15, 649–657.
- [10] IVANCIC P., PEARSON A., PANJABI M., ITO S., Injury of the anterior longitudinal ligament during whiplash simulation, Eur. Spine J., 2004, 13, 61–68.
- [11] SIEGMUND G., MYERS B., DAVIS M. et al., Mechanical evidence of cervical facet capsule injury during whiplash, Spine, 2001, 26, 2095–2101.
- [12] STEMPER B., YOGANANDAN N., PINTAR F., Gender dependent cervical spine segmental kinematics during whiplash, Journal of Biomechanics, 2003, 36, 1281–1289.
- [13] PANJABI M., NIBU K., CHOLEWICKI J., Whiplash injuries and the potential for mechanical instability, Eur. Spine J., 1998, 7, 484–492.
- [14] LANKESTER B., GARNETI N., BANNISTER G., The classification of outcome following whiplash injury – a comparison of methods, Eur. Spine J., 2004, 13, 605–609.
- [15] MARTYNKIEWICZ J., DRAGAN SZ.F., PŁOCIENIAK K., KRAWCZYK A., KULEJ M., DRAGAN Ł.Sz., Evaluation of dynamic formation of cervical spine column based on functional radiological studies in patients after cervical spine injury, Acta Bioeng. Biomech., 2011, 13(30), 105–109.
- [16] ROCHE C., EYES B., WHITEHOUSE G., The rheumatoid cervical spine: sings of instability on plain cervical radiographs, Clinical Radiology, 2002, 57, 241–249.
- [17] SAMARA C., LAZANNEC J.Y., LAPORTE C., SAILLANT G., Hangman’s fractures: the relationship between asymmetry and instability, J. Bone Jt. Surgery, 2000, 7, 1046–1052.
- [18] WITT A.N., RETTING H., SCHLEGEL F.K., Orthopadie in Praxis und Klinik, Band V/Tail 2. Spezielle Orthopadie Wirbelsaule – Thorax- Becken, Georg Thieme Verlag, Stuttgart–New York, 1994.
- [19] CANALE T., BEATY J. et al., Campbell’s Operative Orthopaedics, 11th edition, Mosby, 2008.
- [20] COX M.W., MCARTHY M., LEMMON G. et al., Cervical spine instability: clearance using dynamic fluoroscopy, Current Surgery, 2001, 58, 96–100.
- [21] KNOPP R., PARKER J., TASHJIAN J., GANZ W., Defining radiographic criteria for flexion–extension studies of the cervical spine, Annals of Emergency Medicine, 2001, 38, 31–35.
- [22] BARRETT T., MOWER W., ZUCKER M., HOFFMAN J., Injuries missed by limited computed tomographic imaging of patients with cervical spine injuries, Annals of Emergency Medicine, 2006, 47, 129–133.
- [23] MOWER W., HOFFMAN J., POLLACK C. Jr., ZUCKER M., BROWNE B., WOLFSON A., The NEXUS Group, Use of plain radiography to screen for cervical spine injuries, Annals of Emergency Medicine, 2001, 38, 1–7.
- [24] POLLACK CH., HENDEY G., MARTIN D. & co for the NEXUS group et al., Use flexion–extension radiographs of the cervical spine in blunt trauma, Annals of Emergency Medicine, 2001, 38, 8–11.
- [25] GIULIANO V., GIULIANO C., PINTO F., SCAGLIONE M., Soft tissue injury protocols (STIP) using motion MRI for cervical spine trauma assessment, Emergency Radiology, 2004, 10, 241–245.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPBB-0006-0042