Interleukin-10 high producer allele and ultrasound-defined periventricular white matter abnormalities in preterm infants: a preliminary study.

OBJECTIVES: Inflammation plays a role in prematurity, in neonatal disorders of the brain, lung, eye, bowel, and in developmental disability among preterm infants. We initiated a pilot study in preterm children to determine the prevalence of single nucleotide polymorphisms (SNPs) in the infection/inflammation-associated genes for interleukin (IL)-10 (- 1082 G/A), IL-1beta (+ 3953 C/T), tumor necrosis factor (TNF)-alpha (- 308 G/A) and toll-like receptor 4 (TLR-4) (Asp299Gly) and whether these SNPs affect the risk for neonatal disorders. STUDY DESIGN: We genotyped 73 children >/= 2 years of age whose gestational age at birth was < 32 weeks, and explored the associations between genotypes and neonatal disorders and developmental status at age 2 + years. RESULTS: Infants homozygous for the high IL-10 producer - 1082 G-allele (n = 15) were significantly less likely to develop ultrasound-defined periventricular echodensities. A non-significant, but prominent, risk reduction for bronchopulmonary dysplasia, high-grade retinopathy, cerebral palsy, and developmental delay at age 2 + years was present. Polymorphisms in the IL-1beta, TNF-alpha, and TLR-4 genes were too infrequent in our pilot sample to allow for reasonable analysis. CONCLUSION: Infants homozygous for the IL-10 high producer - 1082 G allele might be at reduced risk for prematurity-associated disorders.

Effect of an abdominal binder during wheelchair exercise.

The purpose of this study was to determine whether use of an abdominal binder would affect oxygen uptake, trunk range of motion, and duration of the stroke phase during wheelchair propulsion. The subjects were six paraplegic wheelchair athletes with T1-T6 injuries and no abdominal muscle function. Each subject performed two trials, one while wearing the binder and one without the binder. Each trial consisted of submaximal and maximal exercise tests conducted on wheelchair rollers. Oxygen uptake was determined by open circuit spirometry while heart rate was determined by telemetry. Max VO2 values averaged 2.51 l.min-1 while average maximum heart rate values were 190 b.min-1. A 3-D video-based motion analysis system was used to obtain kinematic parameters of wheelchair propulsion. In general, 30% of the cycle time was comprised of the stroke phase, while 70% was comprised of the recovery phase across speeds. There were no statistically significant effects of the abdominal binder on any of the cardiovascular or kinematic variables at submaximal or maximal levels of exercise. Under the conditions of this laboratory investigation, it appears that an abdominal binder does not alter physiological or selected biomechanical measures in highly trained athletes.

The thermoplastic Minerva body jacket: a clinical comparison with other cervical spine splinting techniques.

A retrospective analysis of the efficacy of a variety of external stabilization techniques used in 155 cases of unstable cervical spine injuries is presented. The movement at each intervertebral level was evaluated during thermoplastic Minerva body jacket stabilization in 18 additional patients. Many currently available approaches to external stabilization of the cervical spine were, thus, assessed. Thermoplastic Minerva body jacket stabilization offered superior segmental immobilization compared with published data for the halo. It is concluded that some unstable injuries to the high cervical spine might best be treated with a halo device, whereas mid to low cervical injuries and the remaining upper cervical spine injuries appear to be optimally treated with a Minerva jacket. Lesser injuries may be treated with a variety of available orthoses. The thermoplastic Minerva body jacket offers a superior limitation of intervertebral movement compared with other commonly used braces, including the halo jacket, for most cervical spine injuries. The technique of application of the thermoplastic Minerva body jacket is reviewed.

The effect of the thermoplastic Minerva body jacket on cervical spine motion.

In order to determine the extent of cervical spine immobilization provided by the thermoplastic Minerva body jacket (TMBJ) 20 healthy male subjects underwent analysis of cervical spine motion before and after TMBJ placement. Maximal cervical flexion/extension and lateral bending were measured from lateral and anteroposterior roentgenograms, respectively. Maximal cervical rotation was measured from overhead photographs. The TMBJ significantly limited flexion/extension at each level of the cervical spine, as well as rotation and lateral bending (P less than 0.001). Flexion/extension at each cervical level was found to be equal to that allowed by the halo with body jacket at most levels and less at the occiput-C1, C3-C4, and C6-C7 (as reported in studies using similar methodology). The present study suggest that the thermoplastic Minerva body jacket is a valuable option for rigid external immobilization of the cervical spine.