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Gaucher disease (GD) is a lysosomal storage pathological condition, characterized by a genetic autosomal recessive transmission. The GD cause is the mutation of GBA1 gene, located on the chromosome 1 (1q21), that induces the deficiency of the lysosomal enzyme glucocerebrosidase with consequent abnormal storage of its substrate (glucosylceramide), in macrophages. The GD incidence in the general population varies from 1:40,000 to 1:60,000 live births, but it is higher in the Ashkenazi Jewish ethnicity (1:800 live births). In the literature, five different types of GD are described: type 1, the most common clinical variant in Europe and USA (90%), affects the viscera; type 2, characterized by visceral damage and severe neurological disorders; type 3, in which the neurological manifestations are variable; cardiovascular type; and, finally, perinatal lethal type. The most affected tissues and organs are the hematopoietic system, liver, bone tissue, nervous system, lungs, cardiovascular system and kidneys. Another aspect of GD is represented by oral and dental manifestations. These can be asymptomatic or cause the spontaneous bleeding, the post oral surgery infections and the bone involvement of both arches through the Gaucher cells infiltration into the maxilla and mandibular regions. The pharmacological treatment of choice is the enzyme replacement therapy, but the new pharmacological frontiers are represented by oral substrate reduction therapy, chaperone therapy, allogeneic hematopoietic stem cell transplantation and gene therapy. Full article

With a growing number of proved therapies and clinical trials for many lysosomal storage disorders (LSDs), a lot of hope for many patients and families exists. However, there are sometimes cases with poor prognosis, fatal outcomes when our efforts must be directed towards a prompt and correct genetic diagnosis, which offers the only possibility of providing the family with appropriate prevention and treatment. To address this issue, in this article, we present the clinical and genetic hallmarks of the lethal form of Gaucher disease (PLGD) and discuss the potential management. We hope that this will draw attention to its specific manifestations (such as collodion-baby phenotype, ichthyosis, arthrogryposis), which differ from best-known GD complications and ensure appropriate diagnostic assessment to provide families at risk with reliable counselling and treatment to avoid the medical complication of GD. Full article

Gaucher disease (GD) type I is an autosomal recessive disease caused by a genetic deficiency of lysosomal β-glucocerebrosidase that leads to accumulation of undergraded substrate glucocerebroside and other glycolipids, thus causing damage in different organs. GBA is the only gene in which mutations are known to cause GD. Nearly 300 mutations have been identified in GD patients, including frame-shift mutations, point mutations, deletions, insertions, splice site mutations and recombinants. The variety of phenotypes associated to GD shows imperfect correlation with mutations. GD encompasses a spectrum of clinical findings from a perinatal lethal form to an asymptomatic form. However the classification of GD by clinical subtype is still useful in describing the wide range of clinical findings and broad variability in presentation. Three major clinical types are delineated: type I (chronic nonneuropathic), type II (acute neuropathic), and type III (chronic neuropathic). Patients with type I GD present with visceromegaly, hematological complications, and bone disease. Cardiac and pulmonary complications are rare. Type I GD adult patients have elevated risk of malignancies, Parkinson’s disease or Parkinsonism. Neuropathic forms of GD are rare and clinically ranging from lethal perinatal form to very mild form limited to abnormalities of horizontal ocular saccades. Diagnosis of acid β-glucosylceramidase relies on enzyme activity in peripheral blood leukocytes or skin fibroblasts and/or identification of GBA mutations. Enzyme replacement therapy is an effective treatment for non-neuropathic GD. Substrate inhibitor is the alternative therapy for some patients with GD is miglustat, iminosugar inhibitor of glucocerebroside synthase. Full article