Luigia Passamano

A preliminary randomized study of growth hormone administration in Becker and Duchenne muscular dystrophies

AIM Since growth hormone (GH) has proven beneficial in experimental heart failure, and the natural history of Duchenne muscular dystrophy (DMD) and Becker muscular dystrophy (BMD) is frequently complicated by the development of dilated cardiomyopathy, we administered GH to six patients with DMD and 10 with BMD, with the evidence of cardiac involvement. METHODS AND RESULTS Patients were randomized to receive for 3 months either placebo or recombinant human GH, in a double-blind fashion. In GH-treated patients, left ventricular (LV) mass increased by 16% in BMD and by 29% in DMD (both p<0.01), with a significant increase of relative wall thickness (+19%). Systemic blood pressure remained unchanged, while LV end-systolic stress fell significantly by 13% in BMD and by 33% in DMD, with a slight increase of systolic function indexes. No changes were observed related to cardiac arrhythmias and skeletal muscle function in the patient groups during the treatment period, nor any side effects were observed. Brain natriuretic peptide, interleukin-6, and tumor necrosis factor-alpha circulating levels were elevated at baseline. While brain natriuretic peptide decreased by 40%, cytokine levels did not exhibit significant variations during the treatment period. CONCLUSIONS The 3-month GH therapy in patients with DMD and BMD induces a hypertrophic response associated with a significant reduction of brain natriuretic peptide plasma levels and a slight improvement of systolic function, no changes in skeletal muscle function, and no side effects.

Clinical and molecular cross-sectional study of a cohort of adult type III spinal muscular atrophy patients: clues from a biomarker study.

Proximal spinal muscular atrophy (SMA) is an autosomal recessive neuromuscular disorder caused by mutations of the SMN1 gene. Based on severity, three forms of SMA are recognized (types I–III). All patients usually have 2–4 copies of a highly homologous gene (SMN2), which produces insufficient levels of functional survival motor neuron (SMN) protein due to the alternative splicing of exon 7. The availability of potential candidates to the treatment of SMA has raised a number of issues, including the availability of biomarkers. This study was aimed at evaluating whether the quantification of SMN2 products in peripheral blood is a suitable biomarker for SMA. Forty-five adult type III patients were evaluated by Manual Muscle Testing, North Star Ambulatory Assessment scale, 6-min walk test, myometry, forced vital capacity, and dual X-ray absorptiometry. Molecular assessments included SMN2 copy number, levels of full-length SMN2 (SMN2-fl) transcripts and those lacking exon 7 and SMN protein. Clinical outcome measures strongly correlated to each other. Lean body mass correlated inversely with years from diagnosis and with several aspects of motor performance. SMN2 copy number and SMN protein levels were not associated with motor performance or transcript levels. SMN2-fl levels correlated with motor performance in ambulant patients. Our results indicate that SMN2-fl levels correlate with motor performance only in patients preserving higher levels of motor function, whereas motor performance was strongly influenced by disease duration and lean body mass. If not taken into account, the confounding effect of disease duration may impair the identification of potential SMA biomarkers.

P3.8 Cardiac involvement in patients with spinal muscular atrophies

The spinal muscular atrophies (SMAs) include a group of disorders characterized by progressive weakness of the lower motor neurons. Several types of SMAs have been described based on age onset of clinical features: Acute infantile (SMA type I), chronic infantile (SMA type II), chronic juvenile (SMA type III), and adult onset (SMA type IV) forms. The incidence is about 1:6,000 live births with a carrier frequency of 1:40 for the severe form and 1:80 for the juvenile form. The mortality and/or morbidity rates of SMAs are inversely correlated with the age at onset. SMAs are believed to only affect skeletal muscles; however, new data on SMA mice models suggest they may also impact the heart. Aim of the study was to retrospectively examine the cardiological records of 37 type molecularly confirmed II/III SMA patients, aged 6 to 65 years, in order to evaluate the onset and evolution of the cardiac involvement in these disorders. All patients had a standard ECG and a routine echocardiography. The parameters analysed were the following: Heart rate (HR), PQ interval, PQ segment, Cardiomyopathic Index (ratio QT/PQs), ventricular and supraventricular ectopic beats, pauses ≥ 2,5msec, ventricle diameters, wall and septum thickness, ejection fraction, fiber shortening. The results showed that HR and the other ECG parameters were within the normal limits except for the Cardiomyopathic Index that was higher than the normal values (2,6-4,2) in 2 patients. Left ventricular systolic function was within the normal limits in all patients. A dilation of the left ventricle without systolic dysfunction was observed in only 2 patients, aged respectively 65 and 63 years; however they were hypertensive and/or affected by coronary artery disease. Data here reported contribute to reassure patients and their clinicians that type II/III SMAs do not present heart dysfunction.

Targeted gene panel screening is an effective tool to identify undiagnosed late onset Pompe disease

Mutations in the GAA gene may cause a late onset Pompe disease presenting with proximal weakness without the characteristic muscle pathology, and therefore a test for GAA activity is the first tier analysis in all undiagnosed patients with hyperCKemia and/or limb-girdle muscular weakness. By using MotorPlex, a targeted gene panel for next generation sequencing, we analyzed GAA and other muscle disease-genes in a large cohort of undiagnosed patients with suspected inherited skeletal muscle disorders (n = 504). In this cohort, 275 patients presented with limb-girdle phenotype and/or an isolated hyperCKemia. Mutational analysis identified GAA mutations in ten patients. Further seven affected relatives were identified by segregation studies. All the patients carried the common GAA mutation c.-32-13T >G and a second, previously reported mutation. In the subcohort of 275 patients with proximal muscle weakness and/or hyperCKemia, we identified late-onset Pompe disease in 10 patients. The clinical overlap between Pompe disease and LGMDs or other skeletal muscle disorders suggests that GAA and the genes causing a metabolic myopathy should be analyzed in all the gene panels used for testing neuromuscular patients. However, enzymatic tests are essential for the interpretation and validation of genetic results.

G.P.223

Limb-girdle muscular dystrophies (LGMDs) are a group of genetically determined autosomal disorders primary or predominantly involving girdle muscles. Twenty-five loci have been so far identified, 8 dominant (AD) and 17 recessive (AR). The dominant forms (LGMD1A-1H) are generally milder and relatively rare, accounting for 80% of cases in LGMD1B and 1D, often preceding skeletal muscle manifestation or remaining the only marker of the disease. Heart block was the first and most clinically significant cardiac disease in these forms, likely related to fibrosis of the conduction system and fatty infiltration. Implantation of a device was required in about 2/3 of cases to prevent cardiac sudden death. In the ARLGMDs, heart involvement was most frequently observed in sarcoglycanopathies LGMD2C, 2F, 2B and in LGMD2I with clinical pictures evolving toward a dilated cardiomyopathy. To be mentioned that cardiomyopathy was often associated with specific mutations: A525T in LGMD2C and L276I in LGMD2I. In the other forms of LGMD, heart involvement was rare, occurred later in life, likely related to the aging. We recommend that all patients with the above mentioned LGMDs, are carefully monitored for the development of cardiomyopathy, even in the absence of overt cardiac or muscle symptoms/signs and in the early stages of the disease, by not invasive procedures.