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Bone & Joint Research
Vol. 3, Issue 9 | Pages 273 - 279
1 Sep 2014
Vasiliadis ES Kaspiris A Grivas TB Khaldi L Lamprou M Pneumaticos SG Nikolopoulos K Korres DS Papadimitriou E

Objectives

The aim of this study was to examine whether asymmetric loading influences macrophage elastase (MMP12) expression in different parts of a rat tail intervertebral disc and growth plate and if MMP12 expression is correlated with the severity of the deformity.

Methods

A wedge deformity between the ninth and tenth tail vertebrae was produced with an Ilizarov-type mini external fixator in 45 female Wistar rats, matched for their age and weight. Three groups were created according to the degree of deformity (10°, 30° and 50°). A total of 30 discs and vertebrae were evaluated immunohistochemically for immunolocalisation of MMP12 expression, and 15 discs were analysed by western blot and zymography in order to detect pro- and active MMP12.


Orthopaedic Proceedings
Vol. 94-B, Issue SUPP_XXVII | Pages 49 - 49
1 Jun 2012
Grivas TB Vasiliadis ES Khaldi L Kaspiris A Kletsas D
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Introduction

The response of the intervertebral disc to asymmetric forces may accelerate degeneration through changes in the matrix. Macroscopically, the disc sustains structural changes that may play a part in the progression of a scoliotic curve. Molecularly, disc degeneration is the outcome of the action of matrix metalloproteases (MMPs), members of a family of enzymes that bring about the degradation of extracellular matrix components. In this study we measured in vivo the expression of MMPs in a rat scoliotic intervertebral disc and studied the effect of the degree of the deformity on their production.

Methods

Asymmetric forces were applied in the intervertebral disc between the ninth and tenth vertebrae at the base of a rat tail with the use of a mini Ilizarov external fixator, under anaesthesia. Animals were categorised into three groups according to the degree of the deformity. In group I, the deformity that was applied on the intervertebral disc was 10°, in group II 30°, and in group III 50°. All the animals used were female Wistar rats before adulthood, to take into account the effect of growth for the study of intervertebral disc changes. The intact intervertebral discs outside the fixator were used as controls. After the rats' death on day 35, the tails were prepared and analysed with an immunohistochemical protocol for chromogenic detection and location of MMPs 1 and 12 in tissue sections of the intervertebral discs.


Orthopaedic Proceedings
Vol. 93-B, Issue SUPP_III | Pages 368 - 368
1 Jul 2011
Grivas TB Burwell R Mihas C Vasiliadis E Triantaffylopoulos G Kaspiris A
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This paper evaluates severe normal trunk asymmetry (TA) by higher and lower body mass index (BMI) values in 5953 adolescents age 11–17 years (boys 2939, girls 3014) whilst standing forward bending (FB) and sitting FB during screening for scoliosis. TA was measured as angle of trunk inclinations (ATIs) across the back (thoracic, thoracolumbar and lumbar) with abnormality defined as 2 standard deviations or more. The findings for sitting FB position are reported because the readings express TA free from any leg-length inequality. Relatively lower BMIs are associated statistically with

excess of abnormal TAs, and

later menarche.

BMI is known to be linked to puberty timing and energy balance but not to TAs in healthy students. Similar to girls with adolescent idiopathic scoliosis, we suggest that severe TA is caused by a genetically-determined selectively increased hypothalamic sensitivity to leptin with asymmetry as an adverse hormetic response, exacerbated by presumed lower circulating leptin levels associated with relatively lower BMIs. The asymmetry is expressed bilaterally via the sympathetic nervous system to produce left-right asymmetry in ribs and/or vertebrae leading to severe TA when beyond the capacity of postural mechanisms of the somatic nervous system to control the shape distortion of the trunk


Orthopaedic Proceedings
Vol. 86-B, Issue SUPP_II | Pages 192 - 193
1 Feb 2004
Grivas TB Vasiliadis E Chatziargiropoulos T Polyzois VD Gatos K
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Abstract: The effect of a modified Boston Brace with antirotatory blades upon the fate of idiopathic scoliotic (IS) curves, mainly right thoracic with a compensatory left lumbar, is studied. This report refers to curves within the generally accepted range of Cobb angle (20° – 40°) appropriate for conservative treatment.

Method and Material: Out of 166 children suffering IS with Cobb angle > 10°, 67 (61 girls, and 6 boys), having a mean follow up 2,3 years (4 months to 7 years), were studied. A brace of Boston type with antirotatory blades was applied in 36 scoliotic children. The curve type was: 18 thoracic (T) right (rt) + Lumbar (L) left (lt) in children with a mean age 13,1 years, 3 T lt + L rt in children with a mean age 16,3 years, 7 T rt in children with a mean age 13 years and 8 thoracolumbar (TL) rt curves in children with a mean age 12,1 years. Full documentation during the FU had 23 out of the 36 children with 14 T rt + L lt, 1 T lt + L rt (15 in total – double curve group), 4 T rt (thoracic group) and 4 TL curves (thora-columbar group). Traditionally deterioration (increase) or improvement (decrease) of a curve is considered a change of 5ï Cobb compared with the initial reading.

Results: In the 15 double curve group children the mean FU was 28 months. In this group 5 curves were improved, 6 remained stable and 4 were increased. For the 4 thora-columbar curves with a mean FU 8 months, 3 remained stable and 1 improved. For the 4 thoracic curves with a mean FU 9 months, 2 were stable and 2 improved. During the final FU of the above 23 scoliotic children, when the assessment of Cobb angle was made with children out of the brace, 8 curves were improvement, 11 remained stable and 4 deteriorated (one patient out of 4 (4,3%) was operated upon). All the deteriorated curves were double (T rt + L lt). When the assessment of Cobb angle was made with children in the brace, 10 curves were improved, 12 remained stable and 1 deteriorated

Discussion: The brace treatment affected more the double curves while single curves remained unaffected. Rotation remained unchanged in all curve types except in the lumbar component of double (right thoracic-left lumbar) curves. A composite spiral trunk rotator muscle has been proposed, (consisted of the ipsilateral scapular elevator and rhomboid, the anterior serrated, external oblique and contralateral internal oblique abdominal muscle, (Benninghoff 1985, Wemyss-Holden 1990), which is considered that have an effect on the trunk rotation during gait. Asymmetry of one or more constituent muscles creates scoliosis. These findings are consistent with the view that neuromuscular factors are responsible for the initiation of idiopathic scoliosis. The antirotatory blades of the brace are acting upon the above described composite spiral trunk rotator muscle blocking the deterioration of the scoliotic curve or improving the double curves thus supporting the above aetiologic view. In conclusion the conservative treatment using this brace is beneficially affecting the natural history of the IS in children 12–15 years of age.


Orthopaedic Proceedings
Vol. 86-B, Issue SUPP_II | Pages 172 - 172
1 Feb 2004
Grivas TB Michas K Vasiliadis E Maziotou C Karathanou S Polyzois VD
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1. Introduction. A significant correlation between handedness and laterality of the curve in scoliotic children is reported in the literature. This correlation is implicating cortical function as an aetiologic factor for scoliosis, (Goldberg and Dowling 1990). The truncal asymmetry expressed as a hump, is the sign at the presence of which there is a suspicion of a scoliotic curve. The above issue stimulated the search of existence of a possible correlation between handedness and the increasing truncal asymmetry, the existence of which represents a risk factor for development of scoliosis. Thus the aim of this study is the appraisal of the correlation of the existence of a truncal asymmetry as it is checked by the use of a scoliometer during the forward bending test and the handedness in schoolmates who were screened at school for scoliosis.

2. Material and Method

2.1 The examined children. 4345 students (2183 girls and 2158 boys), 6 – 18 years of age were examined during the school-screening program for scoliosis.

2.2 The measurements. A protocol with a checklist is filled for each student in which handedness and truncal asymmetry is included. The probability of existence of scoliosis in the child and the recommendation for further clinical and radiological assessment at hospital is based on the amount of the recorded truncal asymmetry. The sitting and standing forward bending test is performed using the Pruijs scoliometer, on which reading ≥7° is a threshold for recommendation for reexamination. Truncal asymmetry was recorded for thoracic, thoracolumbar and lumbar region.

2.3 The statistical analysis. The techniques used for the study of the sample of children included cross tabulation and ÷2.

3. Results. The statistical analysis revealed that there is no statistical difference for handedness between boys and girls therefore the correlation between handedness and truncal asymmetry was performed for both sexes together. 91% children were right-handed (1932 boys and 1996 girls), while 9% left-handed (218 boys and 169 girls) respectively. A significant statistical correlation of truncal asymmetry and handedness was found both in boys and girls at thoracic (p < 0.022) and thoracolumbar (p< 0.027), but not at the lumbar region.

4. Discussion. These findings show that there is significant correlation of truncal asymmetry and the dominant brain hemisphere in terms of handedness, in children who are entitled at risk to develop scoliosis. Thus, the correlation of the handedness and the truncal asymmetry (the scoliosis convex) is present not only at scoliotic children but and at those being at risk that is before the development of the disease. These findings correlate cortical function and the truncal asymmetry, probably as a prodrome state of scoliosis and it is of aetiologic importance.


Orthopaedic Proceedings
Vol. 85-B, Issue SUPP_III | Pages 233 - 233
1 Mar 2003
Polyzois V Vasiliadis E Grivas TB Chatziargyropoulos T Koinis A Mpcltsios M
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In this paper the results of correction of bone deformities using the llizarov methods, are presented.

Fifty-nine patients, 42 with malunion and 17 with mal-nonunion of tibia or femur were operated upon using the llizarov circular fixator. Another 28 cases were corrected using a unilateral device. There were: a) 30 angular deformities, 18 of which were combined with shortening, b) 21 angular deformities associated with translation and c) 36 complex, deformities including angulation, translation, shortening and malrotation.

Two rings above and two below the apex of the deformity were always required. Different types of hinges were used between them, depending on the type of the deformity. The corticotomy was performed at the apex of the deformity for the majority of the cases. In 18 patients with hypovascular and eburnated bone, or bone covered with soft tissue of poor quality, the corticotomy was done more proximal or more distal to the apex of the deformity. In complex deformities the correction sequence was: 1) correction of angulation and shortening simultaneously, 2) correction of rotation, 3) and finally correction of translation. The true plane of the deformity and the plane of placement of the hinges were determined by a computerized formula that we developed.

The deformities were corrected in all cases in which the hinges were placed at the correct position but in 5 cases we had to re-orient the hinges in order to achieve the correction. The corticotomy or pseudarthrosis consolidated in all cases. Residual leg length discrepancy remained in three patients, not exceeding 135 cm. Great care was taken to prevent complications during operation as well as during the post operative period. However, there were numerous obstacles, problems and true complications. All these were managed aggressively as soon as they appeared. The final results were very satisfactory.

We conclude that the revolutionary llizarov methods can solve bone deformity problems that cannot be faced by the traditional methods. It is critically important to place the hinges at the correct position in order to achieve the desired correction. Our computer program definitely helps to this purpose. The surgeon must always be vigilant in order to prevent complications and to deal with them immediately.