germanium and Muscular-Diseases

A 51-year-old man, taking beverage containing inorganic germanium (Ge), (90-100 mg/day, total 70 g) for two years, developed body weight loss, anemia, renal dysfunction, peripheral neuropathy, myopathy, autonomic dysfunctions and multiple cranial nerve palsies. Serum CK, GOT, LDH, BUN, and creatinine levels were elevated. The cerebrospinal fluid showed albumino-cytologic dissociation. Sural nerve biopsy showed axonal degeneration, and peroneal muscle biopsy showed neurogenic changes including type 2 fiber atrophy and ragged red fibers. High level of Ge content was detected from the hair and nail by inductively coupled plasma atomic emission spectrometry. Despite discontinuation of Ge taking, the peripheral neuropathy and autonomic dysfunction progressed. The symptoms remained unchanged even in the treatment with prednisolone. These findings suggest that inorganic Ge has a serious irreversible multiple system toxicity.

Topics: Autonomic Nervous System Diseases; Beverages; Brain Diseases; Germanium; Humans; Male; Middle Aged; Muscular Diseases; Peripheral Nervous System Diseases

In skeletal muscles from rats treated with germanium for 23 weeks, there were numerous ragged-red fibers and cytochrome-c oxidase (COX)-deficient fibers. Biochemically, germanium reduced the enzyme activities in the mitochondrial respiratory chain. Rotenone-sensitive NADH-cytochrome-c reductase as well as COX activities were markedly reduced, while succinate-cytochrome-c reductase was less severely, but significantly, affected. The histopathological findings in these muscles were similar to those seen in patients with mitochondrial encephalomyopathy, suggesting that germanium-induced myopathy may be a useful experimental model. Coenzyme Q10 administration appeared to be ineffective in preventing this experimental myopathy.

Topics: Animals; Body Weight; Coenzymes; Female; Germanium; Microscopy, Electron; Mitochondria, Muscle; Muscles; Muscular Diseases; Organ Size; Rats; Rats, Wistar; Ubiquinone

The long-term administration of germanium dioxide (GeO2) to rats produced Ge myopathy characterized by the formation of ragged-red fibers. The earliest pathological changes in experimental Ge myopathy were a decrease in cytochrome c oxidase activity and accumulation of high electron-dense materials in mitochondria. These findings suggest that a mitochondrial dysfunction may be most important in the genesis of experimental Ge myopathy, which could be a useful animal model for the investigation of and therapeutic trials for human mitochondrial myopathies.

Topics: Animals; Germanium; Male; Microscopy, Electron; Muscles; Muscular Diseases; Rats; Rats, Inbred Strains; Time Factors; Vacuoles

Pathological examinations were carried out on the skeletal muscle of a patient with germanium intoxication. The prominent histochemical finding was vacuolar myopathy with lipid excess, increased acid phosphatase activity and decreased cytochrome c oxidase activity. Ultrastructural lesions revealed a mitochondrial abnormality, autophagic vacuoles and accumulation of high electron-dense materials in deformed mitochondria and at the periphery of lipid droplets. Furthermore, the toxic effect of germanium on skeletal muscle was confirmed by the experimentally induced germanium myopathy, which showed autophagic degeneration, decreased cytochrome c oxidase activity and a mitochondrial abnormality with high electron-dense materials.

Topics: Child, Preschool; Germanium; Humans; Male; Muscles; Muscular Diseases

Inductively coupled atomic emission spectrometry was used for the determination of germanium in hair, nail, and toenail. The levels of germanium in three individuals administered a high concentration of a germanium preparation daily for about 12-16 months were very high: 56.4-173.7; 5.4-35.0; and 14.0-15.8 micrograms g-1 in hair, nail, and toenail, respectively. The levels for normal or unexposed persons are very low and were not detected by the method.

Topics: Adult; Environmental Exposure; Female; Foot; Germanium; Hair; Hand; Humans; Kidney Diseases; Male; Muscular Diseases; Nails; Reference Values; Spectrum Analysis