Health-related quality of life in children and adolescents living with Gaucher disease and their parents.

Objective: The health-related quality of life (HRQoL), clinical status and perceived burden of disease in children and adolescents with Gaucher Disease (GD) were assessed. Method: A Spanish multicenter collaboration study involving 13 hospitals was performed to evaluate pediatric patients with GD (n = 17, ages 5-18; n = 3, ages 2-4) and their parents (n = 20) using a HRQoL measure (PedsQL 4.0) and a survey on the perceived burden of the disease. Three children under five years old were evaluated by parent proxy-report. Relevant medical and socio-demographical characteristics were recorded. Results: Sixty-nine percent of the participants with GD had mild and 31% had moderate severity level, all receiving enzyme replacement therapy (ERT). HRQoL was associated with the severity score index and was adjusted for age. Age was related to school functioning (older patients had lower scores), and female patients reported worse school functioning than males. Symptoms such as bone, joint or abdominal pain, bleeding, and fatigue were negatively associated with HRQoL. Perceptions of the burden related to GD, such as feeling ill and feeling sad, were negatively associated with HRQoL. Although the PedsQL scores of children and parents showed concordance, patterns of association between symptoms and perceived burden differed between children and parents. No associations were observed between HRQoL scores and time on ERT or ERT dosage. Conclusion: HRQoL perceptions were affected by clinical status, observable and subjective symptoms, feelings of burden related to the disease, and patient characteristics (e.g. age and gender). Aspects of the disease that affect HRQoL may be perceived differently by children and parents.

Mutations and variants in the cohesion factor genes NIPBL, SMC1A, and SMC3 in a cohort of 30 unrelated patients with Cornelia de Lange syndrome.

Cornelia de Lange syndrome (CdLS) manifests facial dysmorphic features, growth and cognitive impairment, and limb malformations. Mutations in three genes (NIPBL, SMC1A, and SMC3) of the cohesin complex and its regulators have been found in affected patients. Here, we present clinical and molecular characterization of 30 unrelated patients with CdLS. Eleven patients had mutations in NIPBL (37%) and three patients had mutations in SMC1A (10%), giving an overall rate of mutations of 47%. Several patients shared the same mutation in NIPBL (p.R827GfsX2) but had variable phenotypes, indicating the influence of modifiers in CdLS. Patients with NIPBL mutations had a more severe phenotype than those with mutations in SMC1A or those without identified mutations. However, a high incidence of palate defects was noted in patients with SMC1A mutations. In addition, we observed a similar phenotype in both male and female patients with SMC1A mutations. Finally, we report the first patient with an SMC1A mutation and the Sandifer complex.

Study of patients and carriers with 2-methyl-3-hydroxybutyryl-CoA dehydrogenase (MHBD) deficiency: difficulties in the diagnosis.

OBJECTIVES: To search for biochemical and molecular markers for the diagnosis of patients and carriers with 2-Methyl-3-hydroxybutyryl-CoA dehydrogenase (MHBD) deficiency. DESIGN AND METHODS: Organic acids in urine, MHBD activity in fibroblasts, immunoblotting and molecular studies were performed in seven patients. Seven carriers were also studied. RESULTS: Under low protein diet or poor feeding all the patients showed only a slightly altered organic acid profile. Measurement of 2-methyl-3-hydroxybutyric acid and tiglylglycine after an isoleucine loading test, failed to demonstrate the carrier status of one patient. However, measurement of 2-ethylhydracrylic acid (EHA) was positive in all the carriers tested. MHBD activity was clearly deficient in males and in one female patient. We identified four missense mutations, two of them were novel. CONCLUSIONS: Quantification of EHA may be of help for the diagnosis of the heterozygous condition. The carrier females showed the classical biochemical variability of X-linked diseases due to random X-chromosome inactivation.

Pediatric non-neuronopathic Gaucher disease: presentation, diagnosis and assessment. Consensus statements.

UNLABELLED: Gaucher disease is caused by defective activity of glucocerebrosidase. The resulting accumulation of glucocerebroside in the lysosomes of visceral macrophages in various tissue and organ compartments leads to multiple manifestations, including hepatosplenomegaly, anemia, thrombocytopenia, growth retardation and skeletal disease. The most prevalent form of Gaucher disease is the non-neuronopathic (type 1) variant, which lacks primary involvement of the central nervous system. Traditionally, this has been referred to as the 'adult type'; however, 66% of individuals with symptomatic non-neuronopathic Gaucher disease manifest in childhood. Onset in childhood is usually predictive of a severe, rapidly progressive phenotype and children with non-neuronopathic Gaucher disease are at high risk for morbid complications. Enzyme therapy with recombinant human glucocerebrosidase in childhood can restore health in reversible manifestations and prevent the development of irreversible symptoms. A heightened focus on pediatric Gaucher disease is therefore needed. Although some correlation has been found between genotype and phenotype, mutation analysis is of limited value in disease prognosis. Management of pediatric Gaucher disease should be underpinned by a thorough assessment of the phenotype at baseline with regular monitoring thereafter. Excluding neuronopathic disease is recommended as the first step. Subsequently, baseline evaluation should focus on staging of different storage tissues, particularly the bone the involvement of which results in the greatest long-term morbidity. These organ assessments are recommended because bone disease severity may not correlate with disease severity in other organs and vice versa. In addition, different organs may respond differently to therapy. Initial assessment of each organ system can enable setting of realistic and individualized goals. CONCLUSION: A thorough approach to baseline assessment will improve the understanding of childhood Gaucher disease, optimizing management to minimize impairment of growth and development and prevent irreversible symptoms.

Paediatric non-neuronopathic Gaucher disease: recommendations for treatment and monitoring.

UNLABELLED: In individuals with non-neuronopathic Gaucher disease, childhood manifestations are usually predictive of a more severe phenotype. Although children with Gaucher disease are at risk of irreversible disease complications, early intervention with an optimal dose of enzyme therapy can prevent the development of complications and ensure adequate, potentially normal, development through childhood and adolescence. Very few, if any, children diagnosed by signs and symptoms should go untreated. Evidence suggests that disease severity, disease progression and treatment response in different organs where glucocerebroside accumulates are often non-uniform in affected individuals. Therefore, serial monitoring of the affected compartments is important. This should include a thorough physical examination at 6- to 12-monthly intervals. Neurological assessment should be performed to rule out neurological involvement and should be undertaken periodically thereafter in children who are considered to have risk factors for developing neuronopathic disease. Haematological and biochemical markers, such as haemoglobin, platelet counts and chitotriosidase levels, should be assessed every 3 months initially, but when clinical goals have been met through treatment with enzyme therapy, the frequency can be reduced to every 12 to 24 months. Careful monitoring of bone disease is vitally important, as the resulting sequelae are associated with the greatest level of morbidity. By combining various imaging modalities, the skeletal complications of non-neuronopathic Gaucher disease can be effectively monitored so that irreversible skeletal pathology is avoided and pain due to bone involvement is diminished or eliminated. Monitoring must include regular psychosocial, functional status and quality-of-life evaluation, as well as consistent assessment of therapeutic goal attainment and necessary dosage adjustments based on the patient's progress. CONCLUSION: Through comprehensive and serial monitoring, ultimately, a therapeutic dose of enzyme therapy that achieves sustained benefits can be found for each child with non-neuronpathic Gaucher disease.

Spectrum of CBS mutations in 16 homocystinuric patients from the Iberian Peninsula: high prevalence of T191M and absence of I278T or G307S.

Homocystinuria due to cystathionine beta-synthase (CBS) deficiency has been extensively studied, but to date, no spectrum of CBS mutations of Spanish homocystinuric patients has been reported. Here we present a mutation analysis of thirteen Spanish and three Portuguese unrelated homocystinuric patients. Ten mutations were found to account for the thirty-two mutant alleles and five of these (C275Y, L338P, S349N, R379Q, and L456P) are reported here for the first time. All five novel mutations were found to affect evolutionarily conserved residues suggesting that they may impair enzyme function. Interestingly, neither of the two common CBS mutations, I278T and G307S, was detected in this series, and no patient was found to respond to pyrodoxine. Enzyme activities in cultured fibroblasts from 10 of the patients were assayed, and they ranged from 0 to 13 % of controls analyzed in parallel. The T191M mutation (which has only ever been reported once before in a Spanish patient) accounted for 50% of the mutant alleles. Comparison of the clinical data of seven patients homozygous for T191M indicated that this genotype is a poor predictor of the phenotype. A common haplotype was identified in all the T191M chromosomes of Spanish origin, while a different one was present in the four T191M chromosomes from Portuguese patients.

Insulin-like growth factors in childhood-onset Gaucher disease.

There is a high prevalence of growth retardation in children with type 1 Gaucher disease. The cause of this poor growth is not yet known; however, studies have shown acceleration of growth with enzyme replacement therapy (ERT). IGF are recognized as important determinants of somatic growth. It has been proven that chronic diseases with liver involvement might cause IGF deficiency. The aim of this study was to assess the IGF system in patients with childhood-onset Gaucher disease, before and after ERT, and its association with other clinical and analytical parameters. Twenty-two patients with type I Gaucher disease were included. The diagnosis was established before 14 y of age in all patients. Baseline determinations of total IGF-I, free IGF-I, and IGF binding protein 3 (IGFBP-3) were obtained in 19 patients before starting ERT at a mean age of 13.8 +/- 11.2 y. A Spearman test was performed to establish the association with other clinical and analytical parameters. In a group of 13 patients receiving IGF, changes were evaluated during the initial 2 y of treatment. A Wilcoxon test was performed for the statistical analysis. Total IGF-I, free IGF-I, and IGFBP-3 were expressed as SD scores (SDS). We found low levels of IGF and its binding proteins before ERT. A significant association was found between the total IGF-I SDS before treatment and the age-adjusted severity score index: r = -0.62, p < 0.05. Total IGF-I and IGFBP-3 SDS correlated negatively with the presence of the L444P mutation (r = -0.53 and -0.5, respectively, p < 0.05). Height SDS correlated with total IGF-I and IGFBP-3 SDS in eight children (r = 0.84 and 0.78, respectively, p < 0.05). Total IGF-I SDS increased from -1.8 +/- 0.8 to -0.8 +/- 1.4 (p = 0.005) and free IGF-I increased from -1.2 +/- 1 to 1.1 +/- 2.1 after 12 +/- 6.8 mo (p = 0.011) of ERT. IGFBP-3 SDS increased from -1.3 +/- 0.6 to -0.2 +/- 1.2 (p = 0.012) after 12 +/- 4.5 mo of ERT. Type 1 Gaucher disease is associated with low levels of IGF and its binding proteins, which could be a consequence of liver involvement. Total IGF-I deficiency is associated with the severity of the illness. Growth retardation in pediatric patients with Gaucher disease is related to the alterations in IGF axis. Total IGF-I and IGFBP-3 are the two parameters that better correlate with height before treatment. ERT results in significant increase of total IGF-I, free IGF-I, and IGFBP-3 during the first year of treatment.

Characterization of six mutations in five Spanish patients with mitochondrial acetoacetyl-CoA thiolase deficiency: effects of amino acid substitutions on tertiary structure.

Mitochondrial acetoacetyl-CoA thiolase (T2) deficiency is an inborn error of ketone body and isoleucine metabolism. We identified and characterized 6 mutations, DelE85, K124R, A127V, Q145E, G152A, and E345V in 5 Spanish T2-deficient patients. Transient expression of mutant cDNAs was done at 37 and at 30 degrees C. Expression of the Q145E mutant cDNA resulted in about 12.5% normal amount at 37 degrees C and it retained 15% residual T2, indicating that specific activity of Q145E mutant protein was almost normal. This mutation reduced the heat stability of T2 activity. Although no significant residual activity was detected in either the G152A and A127V substitution, mutant proteins were detected, at 12.5% the normal amount at 37 degrees C and one-half normal at 30 degrees C for A127V, and 25 % only at 30 degrees C for G152A. Mutant proteins with Q145E, G152A, or A127V accumulated at 30 degrees C expression were stable for 48 h at 37 degrees C after cycloheximide treatment. Expression of DelE85, K124R, and E345V cDNAs gave neither residual T2 protein nor T2 activity. We constructed an improved tertiary structural model of T2 based on the X-ray crystal structure of acetoacetyl-CoA thiolase of Zoogloea ramigera. On the basis of this model, K124, A127, and G152 are located near the active site, mutations of which might affect catalytic function whereas Q145E, De185E, and E345V are distant from the active site with mutants being expected to destabilize the tertiary structure, especially during protein folding and dimerization.