Developing a Biomarker for Monitoring Clinical Outcomes in Children With Spinal Lipoma.

Clinical study to seek a metabolic biomarker(s), detectable by mass spectrometry, that can be used to 'stratify' patients with asymptomatic lipoma. In view of the often extensive nature of lipomas associated with the low spinal cord, we hypothesise that lipid components, or metabolites derived from them, may gain entry to the child's bloodstream. The more infiltrative lipomas carry a higher risk of symptomatic deterioration and, we argue, should also have a higher chance of generating a lipid 'signature' in the blood and/or urine. Phase 1 - Cerebrospinal fluid, blood and urine samples will be obtained from patients with spinal lipoma undergoing surgery (n = 3 to 5). Informed consent, following appropriate ethics committee approval, will be implemented. Blood and urine will be sampled pre-operatively, and intra-operative cerebrospinal fluid samples will be obtained. Mass spectrometry analysis will identify lipid species present in the cerebrospinal fluid of these patients, and the extent to which these are also detectable in the patient's blood and/or urine. Any lipid species detected in both cerebrospinal fluid and blood/urine will represent potential biomarkers, and will form the focus of the next phase of the study. Phase 2 will then assess the discriminatory value of these potential biomarkers by comparing their profiles in blood and/or urine from three clinical groups: (i) Patients with spinal lipomas who have neurological symptoms/signs, and are attending hospital for surgery (i.e. similar patients as in Phase 1). Blood/urine samples will be taken preoperatively, to represent the 'high risk' group. (ii) Patients with spinal lipomas who have remained asymptomatic after several years follow-up.

These represent the 'low risk' group; (iii) Patients with spinal conditions not involving lipoma. These represent our 'negative' control group. Group sizes will be determined by power calculations using variance data from the patient measurements in Phase 1. Statistical analysis will be by 1-way ANOVA, or non-parametric equivalent, to test for significant differences between the three groups. Mass spectrometry (Figure 2) will be performed in the Institute of Child Health Centre for Proteomics, Metabolomics and Lipidomics using nano ultra performance liquid chromatography and ultra performance convergence chromatography - quadrupole time of flight mass spectrometry, a new mass spectral technology for lipidomic and metabolomic analysis. Ultra performance convergence chromatography is a chromatography technology that uses carbon dioxide present in a super critical fluid state as a mobile phase and allows the fractionation of metabolites and lipids according to their class and not hydrophobicity. It enables quantitation of all the major lipid classes present in a tissue including phospholipids, free fatty acids, esterified fatty acids, cholesterol esters and sterols. Non-lipid molecules (e.g. choline) might also show altered abundance in lipoma patients and so a more general metabolomics analysis will also be undertaken, if time permits.