Alignment In Children Research Articles

Three dimensional radiological imaging of normal lower-limb alignment in children.

Our study aimed at evaluating age- and gender-specific references describing lower-limb alignment in a large population of children using an accurate and reliable method (EOS 2D/3D). From our database, we selected 523 EOS records suitable for 3D modelling representing age groups between two and 16 years in which no relevant deviation influencing lower-limb biomechanics could be observed (the majority of the examined population had mild scoliosis). We performed reconstruction of both lower limbs, thus obtaining the value of the mechanical tibiofemoral angle (mTFA) and the femoral mechanical axis-femoral shaft angle (FM-FS) and calculated the anatomical tibiofemoral angle (aTFA) from previous parameters. Statistical analysis was carried out using the Kolmogorov-Smirnov test, Spearman correlation, regression analysis and Welch test. The aTFA reaches its maximum by the age of three years: 13.07° in boys and 10.73° in girls; it then varies ∼4.44° in both genders. By the age of three years, the mTFA reaches 8.04° in boys and 4.85° in girls; it starts to decrease to -1.47° in boys and 0.13° in girls. By the age of three years, FM-FS increases to 5.02° in boys, then fluctuates at ∼4.08°, while in girls, it increases to 5.87°, then fluctuates at ∼4.24°. The pattern found in this study confirms the results of previous publications investigating Caucasian populations; however, absolute values differ significantly in several cases.

Correction of static axial alignment in children with knee varus or valgus deformities through guided growth: Does it also correct dynamic frontal plane moments during walking?

Malaligned knees are predisposed to the development and progression of unicompartmental degenerations because of the excessive load placed on one side of the knee. Therefore, guided growth in skeletally immature patients is recommended. Indication for correction of varus/valgus deformities are based on static weight bearing radiographs. However, the dynamic knee abduction moment during walking showed only a weak correlation to malalignment determined by static radiographs. Therefore, the aim of the study was to measure the effects of guided growth on the normalization of frontal plane knee joint moments during walking.15 legs of 8 patients (11–15 years) with idiopathic axial varus or valgus malalignment were analyzed. 16 typically developed peers served as controls. Instrumented gait analysis and clinical assessment were performed the day before implantation and explantation of eight-plates. Correlation between static mechanical tibiofemoral axis angle (MAA) and dynamic frontal plane knee joint moments and their change by guided growth were performed.The changes in dynamic knee moment in the frontal plane following guided growth showed high and significant correlation to the changes in static MAA (R=0.97, p<0.001). Contrary to the correlation of the changes, there was no correlation between static and dynamic measures in both sessions. In consequence two patients that had a natural knee moment before treatment showed a more pathological one after treatment.In conclusion, the changes in the dynamic load situation during walking can be predicted from the changes in static alignment. If pre-surgical gait analysis reveals a natural load situation, despite a static varus or valgus deformity, the intervention must be critically discussed.

Characterization of knee alignment in children with mucopolysaccharidosis types I and II and outcome of treatment with guided growth.

PurposeTo describe knee alignment in children of different ages with severe mucopolysaccharidosis (MPS) I and II and the outcome of treatment with guided growth in a patient subgroup.MethodsThis is a retrospective observational study of 58 knees in 29 children with severe MPS I and II. Long-leg standing radiographs were evaluated to determine mechanical axis deviation, mechanical lateral distal femoral angle and medial proximal tibial angle at different ages throughout childhood. The change in deformity in individual children over time is reported. 20 knees in 10 patients were treated with guided growth using eight-plates. Radiographic measurements were recorded at the time of plate insertion, at plate removal and at 1 year following removal.ResultsAt 8 years of age, all MPS I children and three-quarters of MPS II children had valgus knee alignment. There was deformity progression in two-thirds of MPS I knees and half of MPS II knees. Guided growth corrected the deformities. There was recurrence in most cases 1 year after plate removal.ConclusionsKnee deformity is common in children with severe MPS I and II. Guided growth can be considered where there is significant and/or or progressive deformity with the aim of halting progression and correcting existing deformity and thus minimizing the risk of gross deformity. Patients should be aware of the high rate of recurrence and the need for repeat surgery.

Alignment of Children's Food Advertising With Proposed Federal Guidelines.

It is well established that children are exposed to food marketing promoting calorically dense, low-nutrient products. Reducing exposure to obesogenic marketing presents an opportunity to improve children's health. The purpose of this study was to determine the extent to which televised food advertising practices targeting children (aged ≤12 years) were consistent with guidelines proposed by a coalition of federal authorities known as the Interagency Working Group on Foods Marketed to Children (IWG). A sample of children's TV programming aired on five national broadcast networks and two cable channels (N=103 shows) was recorded February to April 2013. The sample contained 354 food ads. Advertised products were identified and categorized using industry classification codes and nutrient data obtained from manufacturers. Product compliance with IWG saturated fat, trans fat, added sugar, and sodium guidelines was evaluated. Analyses conducted in 2013 revealed that nearly all food ads (94%) met guidelines for trans fats; 68% and 62% met guidelines for sodium and saturated fat, respectively; and 20% complied with added sugar guidelines. Overall, 1.4% of all child-targeted food ads met all aspects of IWG guidelines. Nearly all food advertisements exceeded guidelines for at least one recommended nutrient to limit. Individually, conformity was high for guidelines for trans fats, moderate for sodium and saturated fats, and poor for added sugar. These findings suggest that child-targeted food advertising remains strongly biased toward less healthy options. Policymakers wishing to regulate food marketing should understand the amount and types of advertisements that children view.

Children with autism align syntax in natural conversation

ABSTRACTPrevious experimental work has shown that verbal children with an autism spectrum disorder (ASD) converge linguistically, or align, with an interlocutor, and to the same extent as typical children. However, it is not known whether ASD children align in natural conversation. The studies presented in this paper aimed to address this issue. We measured syntactic alignment in ASD children, first using an experimental task, and second in natural conversation. We found that ASD and typical children aligned to the same extent in both tasks, suggesting that experimental findings about alignment in ASD are ecologically valid. We argue, however, that the experimental measurement of alignment overstates the prevalence of syntactic alignment in children's conversations.

Obesity is associated with greater valgus knee alignment in pubertal children, and higher body mass index is associated with greater variability in knee alignment in girls.

In adults, osteoarthritis (OA) is associated with obesity and knee alignment. Whether knee alignment differences develop during childhood and are associated with obesity is unknown. We assessed the distribution of knee alignment in children and adolescents, and determined how knee alignment differs between obese and nonobese children. This cross-sectional study examined knee alignment in 155 healthy weight and 165 obese subjects. Knee alignment [metaphyseal-diaphyseal angle (MDA) and anterior tibiofemoral angle (ATFA)] and fat mass were measured using whole body dual-energy X-ray absorptiometry (DEXA). National reference data were used to generate age- and sex-specific body mass index (BMI, kg/m(2)) Z-scores. Multivariable linear regression was used to identify independent factors associated with ATFA and MDA. The mean MDA and ATFA were similar between obese and nonobese subjects. In stratified analyses, females had greater variability in MDA and ATFA values (p < 0.001 and p = 0.04, respectively) at higher BMI Z-scores. Compared with healthy weight controls, obese subjects had less valgus of the MDA prior to the onset of puberty (+ 2.0°, p = 0.001), but had greater valgus at later pubertal stages (-1.9°, p = 0.01). We found significantly greater variability in knee alignment among females at higher BMI Z-scores, and greater valgus alignment in obese adolescents in late puberty. The major limitation is the use of DEXA for assessment of alignment, which needs validation against longstanding radiographs. Longitudinal studies are needed to determine whether childhood obesity is a risk factor for progressive malalignment that may predispose to pain and risk of early osteoarthritis.

The normal radiological anteroposterior alignment of the lower limb in children.

The development of reconstructive surgery of the lower limbs aimed at multilevel correction demands a precise knowledge of the physiological variations in general radiological parameters of the lower limbs in children of various age groups. It is crucial in systemic skeletal diseases, when deformities affect limbs and the surgeon does not have an intact limb as a reference. The aim of this retrospective study was to establish the normal radiological values of lower limb parameters used in the surgical correction of deformities in children of various age groups. Teleradiographs of the lower limbs taken in children with unilateral congenital or posttraumatic deformity were retrospectively reviewed. Weight-bearing full-length anteroposterior radiographs of the entire lower extremities were taken in a standing position. The study involved 215 extremities of 208 children (93 girls and 115 boys); the ages ranged from 2 years 1 month to 15 years 11 months old. Key variables included the anatomic medial proximal femoral angle (aMPFA), anatomic lateral distal femoral angle (aLDFA), anatomic medial proximal tibial angle (aMPTA), anatomic lateral distal tibial angle (aLDTA), mechanical axis deviation (MAD), the angle formed by the femoral anatomical axis and the mechanical axis of the lower limb. The means and dynamics of variations, standard deviations (SD) and 95% confidence intervals of each parameter were calculated for each age and gender group. Simple regression analysis was performed to determine the relationship between the patient's age and the magnitude of aMPFA, aLDFA, aMPTA and aLDTA. Simple regression analysis showed a significant inverse correlation between patient age and the magnitude of aMPFA: the correlation coefficient was -0.77. A statistically significant inverse correlation between the MAD and the angle between the anatomic femoral axis and mechanical limb axis was found: the correlation coefficient was -0.53. In general, the received values were concordant to results of other studies. It concerned the MAD, aLDFA, aMPTA and angle between the mechanical limb axis and anatomic femoral axis. This is the first chronological evaluation of aMPFA and aLDTA from a relavively large series of patients. These normative data should be taken into consideration when evaluating lower limb alignment in children or applied in practice for planning and evaluation of the quality of surgical correction of complex deformities.

Postural alignment in children with bilateral spastic cerebral palsy using a bimanual interface for powered wheelchair control

To examine postural alignment in children with bilateral spastic cerebral palsy while driving a powered wheelchair using both a unilateral joystick and an innovative bimanual interface. Cross-sectional study. A total of 20 children with bilateral spastic cerebral palsy (mean age 9.0 years (standard deviation 2.1); 11 with diplegia, 9 with quadriplegia) and 14 typically developing children (mean age 7.7 years (standard deviation 2.9)). All children drove the powered wheelchair in both the unilateral and bimanual conditions. The Seated Postural Control Measure quantified the postural alignment of subjects while driving the powered wheelchair. Statistical analysis was carried out using repeated measures analysis of variance and Spearman's rank correlation coefficient. As expected, typically developing children had better postural alignment in both driving conditions than children with cerebral palsy. Children with cerebral palsy demonstrated more symmetrical postural alignment while using the bimanual interface than when using the unilateral joystick. In addition, the severity of cerebral palsy correlated moderately with postural symmetry in both conditions. The results suggest that this innovative bimanual interface might be beneficial for promoting symmetrical postural alignment in some children with bilateral spastic cerebral palsy.

Postural alignment in children with Duchenne muscular dystrophy and its relationship with balance.

BackgroundIn Duchenne muscular dystrophy, functional deficits seem to arise from body misalignment, deconditioning, and obesity secondary to weakness and immobility. The question remains about the effects of postural deviations on the functional balance of these children. ObjectivesTo identify and quantify postural deviations in children with DMD in comparison to non-affected children (eutrophic and overweight/obese), exploring relationships between posture and function.MethodThis case-control study evaluated 29 participants aged 6 to 11 years: 10 DMD (DG), 10 eutrophic (EG), and 9 overweight/obese (OG). Digital photogrammetry and SAPo program were used to measure postural alignment and the Pediatric Balance Scale (PBS) was used to measure balance. The Kruskall-Wallis and Dunn post-hoc tests were used for inter-group comparison of posture and balance. Spearman's coefficient tested the correlation between postural and balance variables. ResultsThe horizontal pelvic alignment data indicated that the anteversion of the DG was similar to that of the OG and twice that of the EG (p<0.05). Compared to the EG, the DG and OG showed an increased forward position of the center of mass (p<0.05). There was a moderate and weak correlation between the PBS score and horizontal pelvic alignment (0.58 and 0.47-left/right). The PBS showed a weak correlation with asymmetries in the sagittal plane (-0.39). The PBS scores for the OG and EG suggest that obesity did not have a deleterious effect on balance. ConclusionsThe balance deficit in children with DMD was accompanied by an increased forward position of the center of mass and significant pelvic anteversion that constitutes a compensatory strategy to guarantee similar performance to the children not affected by the disease.

Esotropia surgery in children with Down syndrome

To evaluate postoperative alignment in children with and without Down syndrome after surgical correction of esotropia. The medical records of consecutive patients with Down syndrome who underwent corrective surgery for esotropia between August 1992 and July 2012 were retrospectively reviewed. Age range for eligibility was between 8 months and 17 years at surgery. The control group comprised randomly selected, age-matched patients without Down syndrome who underwent the same surgical procedure. Postoperative alignment within 10(Δ) of orthotropia at 6 months' follow-up and at the final postoperative visit was considered a successful outcome. A total of 17 children with Down syndrome and 27 control subjects were included. The control group and Down syndrome group did not differ significantly in either postoperative follow-up (5.2 ± 3.2 versus 5.6 ± 5.2 years, respectively) or magnitude of deviation before surgery (40 ± 18.2(Δ) versus 39 ± 12.8(Δ), respectively). Surgical success was achieved in 76% of patients with Down syndrome and in 85% of control patients at 6 months' follow-up. In this patient cohort, good surgical outcomes were achieved in children with esotropia and Down syndrome compared with those with esotropia but without Down syndrome using the same surgical technique.

Estimation of the Recovery of Physiological Genu Varum With Linear Mixed Model

Although previous studies have provided reference values for the lower limb alignment in children with physiological genu varum, those often have methodologic flaws, including problems with assumptions of statistical independence. In this study we intend to use appropriate statistical methods to determine reference values of the recovery of physiological genu varum by using a linear mixed model (LMM). The database of our institution was searched and teleroentgenograms of patients up to 5 years of age with clinical diagnosis of physiological genu varum were selected. The mechanical tibiofemoral angle (mTFA), mechanical lateral distal femoral angle (mLDFA), and mechanical medial proximal tibial angle (mMPTA) were measured from each radiograph. These measures were then incorporated in LMM. The reference values for mTFA, mLDFA, and mMPTA were calculated by LMMs with age, sex, and side of the limbs, as the fixed effects with each subject as random effects. A total of 425 teleroentgenograms were evaluated from 161 patients with physiological genu varum. Age, sex, and limb side terms were found to be significant contributing factors to the measures. In the LMM, with the age as quadratic, mTFA was equal to -0.3-degree varus [95% confidence interval (CI), -5.9 to 5.3 degrees] at the age of 3 years. The mLDFA was equal to 87.8 degrees (95% CI, 82.8-92.8 degrees) at the age of 4.5 years. The mMPTA was equal to 88.8 degrees (95% CI, 80.4-97.2 degrees) at the age of 2.5 years. An LMM fitted well to estimate the natural recovery of physiological genu varum. Age, sex, and side of the limbs were found to be significant factors in the estimation of mTFA, and age and side of limbs were significant in estimation of mLDFA and mMPTA. Level III-diagnostic study.

How Reliable Are Standard Radiographic Measures of the Foot and Ankle in Children With Achondroplasia?

Radiographic measurements are typically used in achondroplasia (ACH) during correction of lower limb alignment. However, reliabilities for the measurements on weightbearing radiographs of the foot and ankle in patients with ACH have not been described, and the differences between the ACH population and subjects without ACH likewise have not been well characterized; these issues limit the use of studies on this subject. We proposed (1) to measure the inter- and intraobserver reliability of a number of radiographic measures of ankle and foot alignment in an achondroplastic cohort of patients; and (2) to compare our radiographic measurement values with age-matched literature-based normative values. Ten radiographic measurements were applied to foot and ankle radiographs of 20 children (40 feet) with ACH (mean age, 10 years; range, 8-16 years). Interobserver and intraobserver reliabilities of these radiographic measurement methods were obtained and expressed by intraclass correlation coefficients (ICCs). The mean values were calculated and compared with the literature-based values. The interobserver reliability was excellent for eight measurements with ICCs ranging from 0.801 to 0.962, except for lateral talo-first metatarsal angle and mediolateral column ratio, which were much lower. The intraobserver reliability was excellent for all 10 radiographic measurements with ICCs ranging from 0.812 to 0.998. Compared with existing literature-based values, all 10 measurements had a significant difference (p < 0.01). We suggest tibiotalar angle, calcaneal pitch angle, tibiocalcaneal angle, talocalcaneal angle, naviculocuboid overlap, talonavicular coverage angle, metatarsal stacking angle, and AP talo-first metatarsal angle with excellent interobserver and intraobserver reliabilities should be considered preferentially in analysis of foot and ankle alignment in children with ACH.

Gait pattern and lower extremity alignment in children with Morquio syndrome

The gait in children with Morquio syndrome (MPS IV) has not been previously described. We reviewed the charts, gait analysis reports, and radiographs of nine children with no previous lower extremity surgery. Children with MPS IV had a slower walking speed, reduced cadence, and reduced stride length as compared with normal (P<0.05). There was increased knee flexion, genu valgus, and external tibial torsion during stance (P<0.05). Kinetics showed that knee varus moment was increased (P<0.05). There was a strong correlation between genu valgus measured on gait analysis and standing radiographs (r=0.89).

Off-label oral transmucosal fentanyl citrate analgesia for bone fracture alignment in children

BackgroundOral transmucosal fentanyl citrate is indicated for the treatment of breakthrough pain in adults with cancer who are already receiving maintenance opioid therapy for chronic cancer pain.PurposeTo evaluate off-label transmucosal...

Fixation control and eye alignment in children treated for dense congenital or developmental cataracts

Many children treated for cataracts develop strabismus and nystagmus; however, little is known about the critical period for adverse ocular motor outcomes with respect to age of onset and duration. Children who had undergone extraction of dense cataracts by the age of 5 years were enrolled postoperatively. Ocular alignment was assessed regularly throughout follow-up. Fixation stability and associated ocular oscillations were determined from eye movement recordings at ≥5 years old. Multivariate logistic regression was used to evaluate whether laterality (unilateral vs bilateral), age at onset, and/or duration of visual deprivation were associated with adverse ocular motor outcomes and to determine multivariate odds ratios (ORs). A total of 41 children were included. Of these, 27 (66%) developed strabismus; 29 (71%) developed nystagmus. Congenital onset was associated with significant risk for strabismus (OR, 5.3; 95% CI, 1.1-34.1); infantile onset was associated with significant risk for nystagmus (OR, 13.6; 95% CI, 1.6-302). Duration >6 weeks was associated with significant risk for both strabismus (OR, 9.1; 95% CI, 1.9-54.2) and nystagmus (OR, 46.2; 95% CI, 6.0-1005). Congenital onset was associated with significant risk for interocular asymmetry in severity of nystagmus (OR, 25.0; 95% CI, 2.6-649), as was unilateral cataract (OR, 58.9; 95% CI, 5.1-2318). Laterality (unilateral vs bilateral) and age at onset were significant nonmodifiable risk factors for adverse ocular motor outcomes. Duration of deprivation was a significant modifiable risk factor for adverse ocular motor outcomes. The current study demonstrated that reduced risk for nystagmus and strabismus was associated with deprivation ≤6 weeks.

The Effect of Tethered Cord Release on Coronal Spinal Balance in Tight Filum Terminale

A retrospective review of coronal spine balance after tethered cord release for children with tight filum terminale. To understand the effects of untethering on coronal spine balance for these patients. In patients with tight filum terminale, the spinal cord is tethered by a thickened filum with a low conus medullaris but without other forms of spinal dysraphism. There have not been studies examining the effects of spinal cord untethering on coronal spinal alignment in children with tight filum terminale. Forty-five consecutive pediatric patients with tight filum terminale who had undergone untethering were evaluated. Their presenting signs and symptoms, pre- and postsurgery imagings, and clinical courses were reviewed for scoliosis progression. Twenty-six girls and 19 boys underwent tethered cord release at a mean age of 4.5 years. The prevalence of coronal spinal malalignment, manifesting as scoliosis, before the untethering procedure was 31% (14 of 45). During the follow-up period, nine patients had coronal spinal alignment that worsened>10° (five patients eventually underwent surgical fusion), two patients had spinal alignment that improved, and five patients' curves stabilized after untethering surgery. Therefore, at the end of the follow-up period, 9 of 45 patients (20%) had worsened coronal spinal alignment. In the multivariate analysis, patients who presented with a Cobb angle greater than 35° were most likely to progress (P=0.002, odds ratio=21). There was no operative morbidity or mortality associated with scoliosis surgery. A significant number of children with tight filum terminale were found to present with scoliosis. In patients with less severe curves, tethered cord release may halt scoliosis progression.

Fixation control and eye alignment in children treated for dense congenital or developmental cataracts

Purpose: Many infants treated for cataracts develop strabismus and nystagmus, but little is known about the critical period for adverse ocular motor outcomes. We evaluate whether onset, duration of visual deprivation, and visual acuity affect ocular motor development.

Evidence for syntactic alignment in children with autism

We report an experiment that examined whether children with Autistic Spectrum Disorder (ASD) spontaneously converge, or align, syntactic structure with a conversational partner. Children with ASD were more likely to produce a passive structure to describe a picture after hearing their interlocutor use a passive structure to describe an unrelated picture when playing a card game. Furthermore, they converged syntactic structure with their interlocutor to the same extent as did both chronological and verbal age-matched controls. These results suggest that the linguistic impairment that is characteristic of children with ASD, and in particular their difficulty with interactive language usage, cannot be explained in terms of a general deficit in linguistic imitation.

Eye alignment in low birth weight and/or prematurity

AbstractTo describe eye alignment in children with low birth weight and/or born prematurely. Through a review of published studies and personal observations, describe what we have learnt from the past for the future about eye alignment. This talk will focus on what we know about eye alignment in different levels of prematurity and body weight as well as describe eye alignment in different patient groups with high frequency of low birth weight and/or prematurity.

Arthroscopic treatment of internal rotation contracture and glenohumeral dysplasia in children with brachial plexus birth palsy

The purpose of the study was to assess the ability of arthroscopic anterior release, +/- tendon transfers to maintain shoulder joint alignment in children with brachial plexus palsy, and to assess their outcome after arthroscopic reduction. Forty-four patients underwent arthroscopic release, +/- tendon transfers to realign a dysplastic glenohumeral joint in children with brachial plexus palsy. Twenty-eight children underwent isolated release and 16 children underwent concomitant tendon transfers. MRI and clinical measurements were used to assess outcome at 1-year follow-up. There was a significant improvement (P < .001) in both retroversion from -34 (+/-15) to -19 (+/-13), and percentage of the humeral head anterior to the middle of the glenoid fossa (PHHA) from 19% (+/-12%) to 33% (+/-12%), at 1 year. Passive external rotation increased from -26 (+/-20) degrees to 47 (+/-17) degrees (P < .001). Active elevation increased from 112 (+/-28) degrees to 130 (+/-38) (P = .008) degrees. Patients that underwent tendon transfers obtained greater active elevation, 147 (+/-9) degrees compared to 119 (+/-6) degrees. Mallet aggregate and domain scores also demonstrated statistically significant improvements. Our results after arthroscopic release +/- tendon transfers are encouraging with improvements in joint alignment and clinical evaluations following surgery. The clinical improvements paralleled the MRI corrections. Importantly, superior outcomes were associated with better preoperative clinical and MRI status. This indicates that early recognition of glenohumeral dysplasia and timely intervention results in better shoulder motion and improved joint alignment. 4.