Literature DB >> 8198188

Measurements of the intercondylar notch by plain film radiography and magnetic resonance imaging.

R J Herzog1, J F Silliman, K Hutton, W G Rodkey, J R Steadman.   

Abstract

The purpose of this investigation was twofold. In Part I, we determined the accuracy of morphometric analysis of the knee using magnetic resonance imaging and plain film radiography. The results of Part I validated the accuracy of magnetic resonance measurements and its superiority over plain film measurements. In Part II, we evaluated knee morphometry in 20 asymptomatic athletes with chronic anterior cruciate ligament insufficiency to determine if any predisposing factors to anterior cruciate ligament disruption could be detected. With our analysis, we could detect no predisposing factors to explain the anterior cruciate ligament disruption in the cohort group.

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Year:  1994        PMID: 8198188     DOI: 10.1177/036354659402200209

Source DB:  PubMed          Journal:  Am J Sports Med        ISSN: 0363-5465            Impact factor:   6.202


  25 in total

1.  Risk factors for Anterior Cruciate Ligament injury in skeletally immature patients: analysis of intercondylar notch width using Magnetic Resonance Imaging.

Authors:  Marcin Domzalski; Piotr Grzelak; Peter Gabos
Journal:  Int Orthop       Date:  2010-03-24       Impact factor: 3.075

Review 2.  The influence of the intercondylar notch dimensions on injury of the anterior cruciate ligament: a meta-analysis.

Authors:  Chao Zeng; Shu-guang Gao; Jie Wei; Tu-bao Yang; Ling Cheng; Wei Luo; Min Tu; Qiang Xie; Zheng Hu; Peng-fei Liu; Hui Li; Tuo Yang; Bin Zhou; Guang-hua Lei
Journal:  Knee Surg Sports Traumatol Arthrosc       Date:  2012-08-15       Impact factor: 4.342

3.  Is there any relation between distal parameters of the femur and its height and width?

Authors:  Fatih Yazar; Nurcan Imre; Bilal Battal; Serkan Bilgic; Cem Tayfun
Journal:  Surg Radiol Anat       Date:  2011-07-08       Impact factor: 1.246

4.  Intercondylar notch morphometrics in Indian population: An anthropometric study with magnetic resonance imaging analysis.

Authors:  S Raja Balgovind; Bhole Raunak; Akshay Anusree
Journal:  J Clin Orthop Trauma       Date:  2018-07-05

5.  Knee morphology and risk factors for developing an anterior cruciate ligament rupture: an MRI comparison between ACL-ruptured and non-injured knees.

Authors:  Floor M van Diek; Megan R Wolf; Christopher D Murawski; Carola F van Eck; Freddie H Fu
Journal:  Knee Surg Sports Traumatol Arthrosc       Date:  2013-07-06       Impact factor: 4.342

6.  Anterior cruciate ligament and intercondylar notch growth plateaus prior to cessation of longitudinal growth: an MRI observational study.

Authors:  Maria Tuca; Catherine Hayter; Hollis Potter; Robert Marx; Daniel W Green
Journal:  Knee Surg Sports Traumatol Arthrosc       Date:  2016-02-09       Impact factor: 4.342

7.  Predisposing risk factors for non-contact ACL injuries in military subjects.

Authors:  Korboi N Evans; Kelly G Kilcoyne; Jonathan F Dickens; John-Paul Rue; Jeffrey Giuliani; David Gwinn; John H Wilckens
Journal:  Knee Surg Sports Traumatol Arthrosc       Date:  2011-11-12       Impact factor: 4.342

8.  Association of femoral intercondylar notch morphology, width index and the risk of anterior cruciate ligament injury.

Authors:  Osama Al-Saeed; Mary Brown; Reji Athyal; Mehraj Sheikh
Journal:  Knee Surg Sports Traumatol Arthrosc       Date:  2012-05-03       Impact factor: 4.342

9.  Increased medial tibial slope in teenage pediatric population with open physes and anterior cruciate ligament injuries.

Authors:  Shail Vyas; Carola F van Eck; Nina Vyas; Freddie H Fu; Norman Y Otsuka
Journal:  Knee Surg Sports Traumatol Arthrosc       Date:  2010-07-30       Impact factor: 4.342

Review 10.  Risk factors for a contralateral anterior cruciate ligament injury.

Authors:  Per Swärd; Ioannis Kostogiannis; Harald Roos
Journal:  Knee Surg Sports Traumatol Arthrosc       Date:  2010-03       Impact factor: 4.342
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