1,720,998 research outputs found
A comparative morphological study of heart and skeletal muscle in mutation-proven desminopathie
No full textClinical and morphological presentation of 'Rigid spine muscular dystrophy' caused by Selenoprotein N gene mutation
No full textMonocyte/macrophage differentiation in dermatomyositis and polymyositis
No full textRecent advances have revealed significant differences in the pathogenesis of inflammatory myopathies. To determine whether different patterns of macrophage differentiation are a useful tool to delineate the major groups of inflammatory myopathies, the muscle biopsies of 11 patients with dermatomyositis and 12 patients with polymyositis were studied using different macrophage markers. In polymyositis, the early-activation markers MRP14 and 27E10 stained the majority of macrophages, which were recognized by the pan-macrophage marker Ki-M1P and which were located primarily in the endomysium. In dermatomyositis, macrophages predominantly expressed the late-activation marker 25F9 and were found mainly in the perimysium. Thus, the location and presence of different subsets of macrophages distinguish dermatomyositis and polymyositis. The predominance of early-activated macrophages in polymyositis indicates a more acute disease process. The findings in dermatomyositis, by contrast, suggest a role of persistent monocytes/macrophages in the disease process
Clinical and morphological presentation of 'Rigid spine muscular dystrophy' caused by Selenoprotein N gene mutation
No full textA comparative morphological study of heart and skeletal muscle in mutation-proven desminopathie
No full textProphylactic Implantable Cardioverter Defibrillator Placement in a Sporadic Desmin Related Myopathy and Cardiomyopathy
No full textLUETHJE, L.G.C., ET AL.: Prophylactic Implantable Cardioverter Defibrillator Placement in a Sporadic Desmin Related Myopathy and Cardiomyopathy. Desminopathy is a neuromuscular disorder associated with the accumulation of the protein desmin. This article reports a case of a man with a mutation in the desmin gene suffering from cardiomyopathy and skeletal myopathy. This patient underwent implantable cardioverter defibrillator (ICD) implantation for prognostic considerations and subsequently developed a sustained ventricular tachycardia (SVT). While nonsustained VTs (NSVT) have previously been reported, this is the first time that a SVT could be seen in a patient with this disease
Actin-related myopathy without any missense mutation in the ACTA1 gene
No full textActinopathies are defined by missense mutations in the ACTA1 gene coding for sarcomeric actin, of which some 70 families have, so far, been identified. Often but not always, muscle fibers carry large patches of actin filaments. Many such patients also have nemaline myopathy, qualifying actinopathies as a subgroup of nemaline myopathies. This article concerns a then newborn, now 2 1/2-year-old boy, the first and single child of nonconsanguineous parents, who was born floppy, requiring immediate postnatal assisted ventilation. A quadriceps muscle biopsy revealed large patches of thin myofilaments reacting at light and electron microscopic levels with antibodies against actin but only a few sarcoplasmic rods and no intranuclear rods. DNA analysis of the patient's and both parents' blood did not reveal any missense mutation in the ACTA1 gene. Thus, this congenital myopathy can be caused by a new type of ACTA1 gene mutation, a new non-ACTA1 gene mutation, or no mutation at all, designating it as an actin-related myopathy, perhaps a new type of congenital myopathy and a new member of protein aggregate myopathies marked by aggregation of proteins within muscle fibers, among them desminopathies, alpha-beta crystallinopathies, other desmin-related myopathies (also termed myofibrillar myopathies), actinopathies and, now, actin-related myopathies
Actin-related myopathy without any missense mutation in the ACTA1 gene
No full textActinopathies are defined by missense mutations in the ACTA1 gene coding for sarcomeric actin, of which some 70 families have, so far, been identified. Often but not always, muscle fibers carry large patches of actin filaments. Many such patients also have nemaline myopathy, qualifying actinopathies as a subgroup of nemaline myopathies. This article concerns a then newborn, now 2 1/2-year-old boy, the first and single child of nonconsanguineous parents, who was born floppy, requiring immediate postnatal assisted ventilation. A quadriceps muscle biopsy revealed large patches of thin myofilaments reacting at light and electron microscopic levels with antibodies against actin but only a few sarcoplasmic rods and no intranuclear rods. DNA analysis of the patient's and both parents' blood did not reveal any missense mutation in the ACTA1 gene. Thus, this congenital myopathy can be caused by a new type of ACTA1 gene mutation, a new non-ACTA1 gene mutation, or no mutation at all, designating it as an actin-related myopathy, perhaps a new type of congenital myopathy and a new member of protein aggregate myopathies marked by aggregation of proteins within muscle fibers, among them desminopathies, alpha-beta crystallinopathies, other desmin-related myopathies (also termed myofibrillar myopathies), actinopathies and, now, actin-related myopathies
- …
