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Introduction: Degenerative osteoarticular conditions of the lower limb comprise of the most common orthopedic diseases requiring implants surgery. Biomechanical factors have an important role in the development of the degenerative process. Radiological diagnostics prominently rely on bidirectional 2D X-ray images, CT and MRI also being employed in the assessment process. However, these diagnostic tools usually cover a single joint, mostly unilaterally, rarely if ever providing a chance to simultaneously examine each members of the closed kinetic chain of both limbs under normal postural loads in a standing position. Classification and measurements of anatomical conditions are carried out in a 2D environment only and measured values are projected to real-life circumstances.

EOS, a new 2D/3D digital imaging system based on Nobel-prize winning ultra low-dose X-ray radiation detection and a unique 3D toolbox with 3D reconstruction module offers a truly groundbreaking option in this field. We present results obtained during the first year of clinical use of our EOS 2D/3D system.

Methods: 20 patients with coxarthrosis and 20 patients with gonarthrosis have been examined with traditional 2D X-ray and EOS 2D/3D system. Clinical parameters (femoral and tibial length, mechanical angle of the femur and tibia, anatomical and mechanical femorotibial angle, etc.) have been determined for both diagnostic methods and results were compared. 3D measurements available within EOS 3D toolbox were determined including femoral and tibial torsion and femorotibial rotation. For visualization of the lower limbs EOS 3D reconstructions were made.

Results: Using EOS built-in 3D toolbox, comparison of numerical data for 2D and 3D measurements of clinical parameters showed a significant difference whereby 3D measurements always represented more valid, more accurate values. Differences between 2D and 3D measurement values were as much as 5–10 mm in length or 5–8 degrees in angles. This was particularly true for conditions where torsion and rotation of the bones were present.

EOS 3D reconstruction module provided a surface reconstructed 3D model of the examined limbs and automatically displayed every clinically relevant parameters measured in the 3D toolbox. This proved to be an important feature for pre-operative planning and postoperative evaluations.

Conclusion: EOS 2D/3D system provides a ground-breaking new tool for length and angle measurements of the lower limb in 3D, providing distortion-free clinical parameters that are accurate and true-to-life values, avoiding artefactual effects from projection, torsion and rotation and positioning of the patient, which usually concomitantly affect the accuracy and reproducibility of conventional 2D measurements.


Orthopaedic Proceedings
Vol. 84-B, Issue SUPP_II | Pages 116 - 117
1 Jul 2002
Bálint L Bellyei Á Illés T Koòs Z
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The goal of the present study was to evaluate the results of a one-stage operation performed on dislocated hips in children with infantile cerebral palsy. Our data indicate that the one-stage operation is a quite useful method to treat hip dislocation in children with infantile cerebral palsy. Based on our experience we emphasize the use of an individual operation plan in every instance. In selected cases it seems to be justified to ignore an element of the method.

We used the radiological findings for evaluation by comparing the geometric parameters in the affected hips before and after surgery.

During the last ten years, 21 dislocated hips in 13 patients were operated on by the one-stage surgical technique used at the Department of Orthopaedic Surgery of University Medical School of Pécs. The technique consists of the following steps: open reduction, iliopsoas tendon transfer, and femoral varus derotational osteotomy with shortening, modified Tönnis acetabuloplasty, and open adductor tenotomy. Spastic diplegia occurred in eight children and hemiplegia in five. During this period, eight girls and five boys were operated, with 12 procedures on the right hip and 9 on the left. Mean age was 11.4 years. The average age of the children at the time of operations was 6.5 years. In eight hips of five children, all elements of the surgery were carried out in one sitting; in six hips of four children the surgery was performed without acetabuloplasty. In nine hips of seven children there was no need for open reduction, and in six hips of five children we used deep frozen allograft to perform acetabuloplasty. A varus derotational femoral osteotomy with shortening was a part of the surgical approach in all cases.

We evaluated Hilgenreiner (H), Wieberg (CE) and collodiaphyseal (CCD) angle preoperatively and postoperatively. The average preoperative H angle decreased from 39.7 to 24 degrees postoperatively. The average preoperative CE angle increased from minus 18.6 to 31.9 degrees postoperatively. The minus means that all of the patients had dislocation in their hips. The average preoperative CCD angle decreased from 165.2 to 131.4 degrees postoperatively. The results were evaluated by the modified Severin classification based on age and anatomical changes of hips: 17 cases were evaluated as excellent, 2 as good, and 2 as acceptable.

We did not see any complications such as avascular necrosis of the femoral head, absolute revalgisation (compared to the opposite side), subluxation, re-dislocation, or disturbed development of the acetabulum.