Serum ceruloplasmin monitoring in a case of silver intoxication due to intravenous silver infusion.

INTRODUCTION: Colloidal silver packaged as a dietary supplement is readily available online and is thought to be safe. Literature describing its toxicity in humans is scarce. CASE REPORT: A 47-year-old man presented to us for sensory and gait problems. He had unremarkable past health except dystrophic nails. He further volunteered a history of receiving chronic oral and intravenous administration of colloidal silver. We confirmed his plasma silver was 1200-fold elevated, measuring 11990 nmol/L (normal < 10 nmol/L). He had deranged liver function tests, and liver biopsy showed distorted acinar architecture, bridging fibrosis and lymphocytic infiltrate with silver particles clustering along the vascular endothelium and portal venules. Brain magnetic resonance imagining showed features of mineralization over bilateral globus pallidi. There was biochemical evidence of central adrenal insufficiency, intracellular iron overload and hypoceruloplasminemia (<0.05 g/L). Gradual clinical and biochemical improvement was noted after silver cessation: his plasma silver dropped to 4800 nmol/L (3 months) and 1650 nmol/L (12 months), and serum ceruloplasmin reverted to 0.13 g/L (10 months) and 0.29 g/L (20 months). CONCLUSIONS: The potential effects of silver to liver and copper metabolism were shown in this case. Serum ceruloplasmin also serves as a surrogate marker in monitoring silver intoxication.

Limb girdle myasthenia with digenic RAPSN and a novel disease gene AK9 mutations.

Though dysfunction of neuromuscular junction (NMJ) is associated with congenital myasthenic syndrome (CMS), the proteins involved in neuromuscular transmission have not been completely identified. In this study, we aimed to identify a novel CMS gene in a consanguineous family with limb-girdle type CMS. Homozygosity mapping of the novel CMS gene was performed using high-density single-nucleotide polymorphism microarrays. The variants in CMS gene were identified by whole-exome sequencing (WES) and Sanger sequencing. A 20 MB-region of homozygosity (ROH) was mapped on chromosome 6q15-21. This was the only ROH that present in all clinically affected siblings and absent in all clinically unaffected siblings. WES showed a novel variant of AK9 gene located in this ROH. This variant was a start-gain mutation and introduced a cryptic 5'-UTR signal in intron 5 of the AK9 gene. The normal splicing signal would be interfered by the cryptic translation signal leading to defective splicing. Another 25 MB-ROH was found on chromosome 11p13-q12 in all siblings. WES showed a homozygous RAPSN pathogenic variant in this ROH. Since RAPSN-associated limb-girdle type CMS was only manifested in AK9 homozygous variant carriers, the disease phenotype was of digenic inheritance, and was determined by the novel disease modifier AK9 which provides NTPs for N-glycosylation. This is the first time that this specific genotype-phenotype correlation is reported. Importantly, the AK9-associated nucleotide deficiency may replete by dietary supplements. Since AK9 is a disease modifier, enhancing N-glycosylation by increasing dietary nucleotides may be a new therapeutic option for CMS patients.

NMR-based urinalysis for beta-ketothiolase deficiency.

BACKGROUND: Beta-ketothiolase deficiency is a rare inborn errors of metabolism (IEM) affecting the catabolism of isoleucine, characterized by severe ketoacidosis in children of 6 to 24months old. A prompt diagnosis is of paramount importance as the metabolic decompensation can be effectively reverted by glucose infusion and health outcomes are improved on a protein-restricted diet. Currently, majority of the laboratory diagnosis were made based on mass-spectrometry and molecular genetics while little is mentioned on the advancement of nuclear magnetic resonance (NMR) spectroscopy for the diagnosis of this condition. CASE: We report a case of beta-ketothiolase deficiency in a 1-y-old Chinese boy who presented with repeated vomiting, impaired consciousness and severe ketoacidosis. NMR urinalysis detected excessive amount of butanone (a disease specific marker of beta-ketothiolase deficiency), tiglylglycine, (intermediate of isoleucine catabolism) and ketones. Diagnosis of beta-ketothiolase deficiency was further established by molecular genetic studies of ACAT1 gene of the proband. CONCLUSIONS: This case illustrated that NMR-based urinalysis is complementary to organic acid analysis for diagnosis of beta-ketothiolase deficiency. The operation of NMR is simple and fast; sample preparation is a two-step procedure while the NMR acquisition is automatic and usually takes <15min. We envisage that NMR analysis will become more available in clinical laboratories and will play an important role in acute pediatric care.

Rapid diagnosis of Wilson disease by a 28-mutation panel: real-time amplification refractory mutation system in diagnosing acute Wilsonian liver failure.

BACKGROUND: Wilson disease is one of the commonest inherited and potentially fatal yet treatable liver disorders. About 5-27% patients present with acute liver failure and require prompt chelation therapy and life-saving liver transplantation. Diagnosis during acute liver failure is particularly difficult with short time allowance. Direct molecular diagnosis remains the most decisive tool but is often hindered by demanding techniques and numerous mutations. We developed a one-step, 3-h, reproducible, and accurate real-time amplification refractory mutation system which can simultaneously detect 28 ATP7B mutations. METHODS: Primers were designed to complement the mutant sequence at the 3' end. The mutations were p.S105X, p.Q511X, p.R616Q, p.S693P, p.S693C, p.R778L, p.A874V, p.T888P, p.R919G, p.T935M, p.P992L, p.M1025R, p.D1047V, p.I1148T, p.R1156H, p.T1178A, p.V1216M, p.P1273Q, p.G1281C, p.R1320S, p.V1334D, p.V176SfsX28, p.G869EfsX4, IVS3+1G>T, IVS4-1G>C, IVS4-5T>G, IVS6+9A>G, and IVS9+5G>T. Reaction was performed using QuantiTect SYBR Green PCR Master Mix on an Applied Biosystems StepOne thermal cycler. Values of the threshold cycle were compared between normal and mutant alleles. RESULTS: Primers of all mutations were highly specific with absence of wild-type amplification. All the results were validated by direct DNA sequencing. CONCLUSIONS: This rapid and cost-efficient method allows wide mutation coverage, rendering the SYBR-green assay feasible and attractive for large-scale routine application.

Magnetic resonance spectroscopy and analysis of MECP2 in Rett syndrome.

We studied the in vivo cerebral metabolites and documented the presence of MECP2 gene mutations in six Chinese females with Rett syndrome. Magnetic resonance spectroscopy spectra from the frontal lobe (gray and white matter) and deep gray nuclei (basal ganglia and thalamus) of either side were obtained. N-acetylaspartate/total creatine, choline/total creatine, and N-acetylaspartate/choline ratios were analyzed and compared with six healthy age-matched female control subjects. MECP2 gene mutation was identified in four patients; one patient had polymorphism and one patient did not have gene mutation. N-acetylaspartate/total creatine of the frontal lobe of all patients (mean: 2.63, S.D. = 0.33) was decreased compared with age-matched control subjects (mean: 3.15, S.D. = 0.27), and the difference was statistically significant (P = 0.017) with a mean difference of 0.52 (95% CI = 0.68-0.36). The difference in all other metabolite ratios in the frontal lobe and deep gray nuclei were not statistically significant compared with age-matched control subjects. Mild frontal lobe and anterior temporal lobe atrophy was present in three patients. Proton-magnetic resonance spectroscopy is a sensitive method capable of detecting the biochemical changes in Rett syndrome and is able to detect changes before conventional magnetic resonance imaging. Our preliminary results suggest that reduction in N-acetylaspartate/total creatine ratio may not be related to the MECP2 mutation.