1/18. Acute hemorrhagic encephalitis (Hurst disease) associated with neuroaxonal dystrophy. Two cases that fulfil the clinical and neuropathological criteria of acute hemorrhagic encephalitis are described. Histological examination revealed additionally focal changes in the white matter characteristic for neuroaxonal dystrophy. The differences in the clinical course and morphological picture observed in both cases are discussed. ( info) |
| Cerebral glucose metabolism was investigated in a 4.8-year-old boy with alpha-n-acetylgalactosaminidase deficiency using 2-[18F]fluoro-2-deoxy-D-glucose and positron emission tomography (PET). In comparison to normal values for age, the overall cerebral glucose metabolism was reduced and the regional cerebral glucose metabolism was decreased in proportion to the degree of atrophy. In the supratentorial cortical regions, the hypometabolism was asymmetric. However, the level of regional cerebral glucose metabolism in all cortical regions excluded a persistent vegetative state. In the lentiform nucleus and the head of the caudate, comparatively increased regional cerebral glucose metabolism was documented, similar to findings in neurodegenerative disorders with active epilepsy. In contrast, the infratentorial structures (cerebellar hemispheres, brain stem, mesencephalon, and hypothalamus), which are predominantly affected by the atrophic process, showed distinct and symmetric hypometabolism. Thus, the 2-[18F]-fluoro-2-deoxy-D-glucose PET scans provided additional insight into and correlation of the functional and structural disturbances in type I alpha-n-acetylgalactosaminidase deficiency, in addition to documenting the hypometabolism due to brain atrophy. ( info) |
3/18. Neuroaxonal dystrophy with dystonia and pallidal involvement. Infantile neuroaxonal dystrophy (INAD) is an autosomal recessive disease of infantile onset, characterised by progressive clinical course, multi-systemic involvement and widespread presence of dystrophic axons in both the central and peripheral nervous system. Clinical, neurophysiological and neuroradiological criteria of the disease are established, but the occurrence of atypical cases is known. Since the availability of molecular markers is still lacking, diagnostic evidence in vivo is provided by the presence of specific axonal lesions distally in the peripheral nerve fibres. In two children who had a protracted course of the disease with dystonic postures of the upper limbs and showed dystrophic axons following sural nerve biopsy, bilateral pallidal hypointensity was observed after T2-weighted MRI scans. These findings are consistent with iron deposition, and are usually observed in Hallervorden-Spatz syndrome (HSS), a condition which is also characterised by dystrophic axons diffusely present in the central nervous system, but without peripheral nervous system involvement. These observations raise the issue of different phenotypes of INAD, and are consistent with the existence of intermediate forms between INAD and HSS. Altered mechanisms of iron storage and transport to and from the cellular compartments may play a role in the pathogenesis of the disease. ( info) |
4/18. Neuroaxonal leukodystrophy associated with congenital cutis laxa: report of an autopsy case. A male patient, who was born with congenital cutis laxa characterized by cutaneous laxity due to the degeneration of elastic fibers, presented with an arrest of mental and motor development at the age of 3 years. The progressive decline of the psychomotor abilities led to the patient's death at the age of 4 years and 9 months. An autopsy revealed extensive white matter degeneration, characterized by the formation of numerous neuroaxonal spheroids and a diffuse loss of axons and myelin sheaths. The centrum semiovale and the cerebellar white matter were the most severely affected. The ultrastructure of the spheroids was consistent with a dystrophic type of axonal swelling. neurons of the cerebral cortex, cerebellar cortex, and some brain stem nuclei were lost in moderate to severe degrees, and there were relatively few neuroaxonal spheroids in the gray matter. The pallidum and substantia nigra were well preserved. Neuroaxonal leukodystrophy, in which the spheroid formation predominantly affects the white matter, is the rarest variant of primary neuroaxonal dystrophies, and there are very few reports of autopsied cases. Among the reported cases, two Japanese siblings had congenital skin lesions similar to those of our case. The unique association of neuroaxonal leukodystrophy and congenital cutis laxa may form a distinct variant in this disease category. ( info) |
5/18. Transganglionic gracile response following limb amputation in man. Gracile neuroaxonal dystrophy (nad) is an distinctive morphological alteration of central projecting axon terminals of dorsal root ganglion neurons. Experimentally, lower limb amputation has been shown to accelerate the formation of gracile nad, suggesting that the transganglionic response to peripheral axotomy may play a role in its development. To determine if a similar response occurs in the human sensory nervous system following peripheral nerve injury, we have performed postmortem histopathological examinations of the dorsal column nuclei of three patients (aged 15, 55, and 77 years old); all of whom had undergone accidental or therapeutic unilateral limb amputation (1 year, 38 years, and 1 year 8 months prior to death, respectively). In a 15-year-old man who underwent therapeutic leg amputation, the gracile nuclei on the transected side revealed reactive gliosis and many small axonal spheroids. The spheroids and fine neurites were immunolabelled with antibodies for growth-associated protein-43, ubiquitin and neuropeptide y (NPY). Neither routine histological nor immunohistochemical methods demonstrated comparable changes in the contralateral gracile nucleus. In a 77-year-old man who underwent leg amputation, the gracile nucleus on the amputated side was gliotic and showed several NPY and ubiquitin-immunoreactive spheroids, which were not seen in the contralateral non-transected side. A 55-year-old man with a history of accidental arm amputation showed well-developed nad in the cuneate nucleus only on the transected side. This study clearly demonstrates the occurrence of transganglionic response to limb amputation in human dorsal column nuclei. The extent of the regenerative and/or degenerative responses may vary depending on the age of the patient and the time interval following the peripheral axotomy. ( info) |
6/18. Infantile neuroaxonal dystrophy and giant axonal neuropathy--overlap diseases of neuronal cytoskeletal elements in childhood? giant axonal neuropathy (GAN) and infantile neuroaxonal dystrophy (INAD) are two progressive neurodegenerative disorders of childhood that have considerable clinical as well as histological overlap but are believed to be ultrastructurally distinct. The clinicopathological and ultrastructural features of three cases of INAD, two of whom are siblings and one case of GAN are described. The sural nerve biopsies in all four cases were essentially similar on light microscopy revealing giant axons. On electron microscopy, the findings in the case of GAN were typical with dense accumulation of neurofilaments within the giant axons. In the three cases of INAD, too, in addition to accumulation of mitochondria and organelles with vesiculotubular profiles, a similar increase in neurofilaments was evident. We, therefore, believe that these two disorders may represent a spectrum in evolution of intermediate filament pathology with various organelles participating in the temporal evolution of the disease process. ( info) |
| Two new individuals with alpha-NAGA deficiency are presented. The index patient, 3 years old, has congenital cataract, slight motor retardation and secondary demyelinisation. Screening of his sibs revealed an alpha-NAGA deficiency in his 7-year-old healthy brother who had no clinical or neurological symptoms. Both sibs are homozygous for the E325K mutation, the same genotype that was found in the most severe form of alpha-NAGA deficiency presenting as infantile neuroaxonal dystrophy. Thus, at the age of 7 years the same genotype of alpha-NAGA may present as a 'non-disease' (present healthy case) and can be associated with the vegetative state (the first two patients described with alpha-NAGA deficiency). The clinical heterogeneity among the 11 known individuals with alpha-NAGA deficiency is extreme, with a 'non-disease' (two cases) and infantile neuroaxonal dystrophy (two cases) at the opposite sides of the clinical spectrum. The broad spectrum is completed by a very heterogeneous group of patients with various degrees of epilepsy/behavioural difficulties/psychomotor retardation (four patients) and a mild phenotype in adults without overt neurological manifestations who have angiokeratoma and clear vacuolisation in various cell types (three cases). These observations are difficult to reconcile with a straightforward genotype-phenotype correlation and suggest that factors or genes other than alpha-NAGA contribute to the clinical heterogeneity of the 11 patients with alpha-NAGA deficiency. ( info) |
8/18. Proton MR spectroscopy reveals lactate in infantile neuroaxonal dystrophy (INAD). Changes of cerebral metabolites detected by proton MR spectroscopy in two cases of infantile neuroaxonal dystrophy are described. A 6 11/12-year-old boy and a girl (aged 4 1/12 years at the first and 5 2/12 years at the second examination) with infantile neuroaxonal dystrophy were investigated by magnetic resonance imaging and spectroscopy of the basal ganglia. The signal intensity of the cerebellar cortex was increased on T2-weighted, proton density, and fluid attenuated inversion recovery images. The long echo time (135 ms) spectra revealed the presence of lactate in the basal ganglia of both cases in all investigations. The N-acetylaspartate/creatine ratio was reduced in Case 1 and in the second investigation of Case 2. The choline/creatine ratio was always increased. As the diagnosis of infantile neuroaxonal dystrophy is made by a synopsis of various clinical, neuropathological, neurophysiological, and neuroradiological data, the presence of lactate in the basal ganglia spectra may help to narrow down the diagnosis and can support the decision to perform more invasive diagnostic procedures (such as biopsies of skin, conjunctiva or even of the brain). ( info) |
9/18. Distal infantile neuroaxonal dystrophy--a new familial variant with perineuronal argyrophilic bodies. We report on two sisters with an infantile onset of dyskinetic movements, tonic spasms, seizures and apneic spells. The condition deteriorated to a hypotonic "burnt out" stage by the age of 3 years in the older sister and to a stable dyskinetic condition by the age of 2.5 years in the younger one. A skin biopsy from the older sister revealed myelinated nerve fibers crowded with neurofilaments. The extensive investigation for neurometabolic disorder, magnetic resonance imaging of the brain, and ophthalmological and neurophysiological examinations were not especially revealing. The older sister died at the age of 3 years. The autopsy revealed no apparent loss of nerve cells in the brain and no sign of storage disease. However, silver-stained coarse granules, immunopositive for neurofilament polypeptide, were found around nerve cell bodies in the cortex and in the basal ganglia. Electron microscopy revealed perineuronal membrane-bound profiles filled with filaments. silver-stained axonal torpedoes were found in the cerebellum, but there were no spheroids. The substantia nigra, the locus ceruleus and the nucleus basalis of Meynert showed extensive perineuronal and perivascular swelling. homovanillic acid was severely reduced, while 5-hydroxyindoleacetic acid and hydroxymethylphenyl glycol were normal in the cerebrospinal fluid of the severely affected, autopsied case. The two cases are considered to represent a new form of infantile neuroaxonal dystrophy, characterized by the degeneration of perineuronal terminals in the cerebral cortex and in the basal ganglia, as well as by axonal degeneration in the cerebellum and peripheral nerves. ( info) |
10/18. Ictal and nonictal paroxysmal events in infantile neuroaxonal dystrophy: polygraphic study of a case. A 7.5-year-old girl, with infantile neuroaxonal dystrophy (INAD), showed a gradual deterioration from 16 months; at age 5 years she was bedridden, with severe tetraplegia, strabismus, nystagmus and optic atrophy, and dementia. From age 5.5 years, she had paroxysmal tonic events. Videopolygraphic recordings disclosed two different kinds of motor events: (a) epileptic tonic seizures, in wakefulness and sleep, associated with autonomic changes and ictal EEG discharges; and (b) nonepileptic prolonged clusters of brief tonic spasms, without ictal modifications of the EEG. Both motor events were characterized by a minimal and clinically similar tonic contraction of the upper extremities. Video-polygraphic studies are mandatory for a correct paroxysmal event classification and treatment in INAD patients. ( info) |