The Pathology of Wobbly Hedgehog Syndrome.

Wobbly hedgehog syndrome (WHS) is a leading cause of neurologic disease in African pygmy hedgehogs (APHs; Atelerix albiventris). This study describes the signalment, clinical signs, gross, microscopic, and ultrastructural lesions of WHS in a cohort of 12 pet APHs. Microscopically, lesions consisted of status spongiosus of the white matter, typically bilateral and symmetrical, with myelin degeneration and loss that was accompanied by neuronal/axonal degeneration plus reactive microgliosis and mild, focal astrocytosis and astrogliosis. Lesions were most severe in the cerebellum and medulla oblongata, as well as cervical and thoracic spinal cord. Less affected areas were the corona radiata, corpus callosum, corpus striatum, internal capsule, and the mesencephalon. Ultrastructurally, the lesions consisted of splitting of the myelin sheath at the intraperiod line with subsequent focal expansion, resulting in status spongiosus, disruption, dilatation, rhexis, and phagocytosis. Based on these results, WHS is best described as a "spongy myelinopathy" with widespread central nervous system involvement.

Mural Dissections of Brain-Supplying Arteries in a Chimpanzee (Pan troglodytes).

We describe the pathologic features of mural arterial dissection involving brain-supplying arteries in a 31-y-old female chimpanzee (Pan troglodytes). Several hours after examination for a possible respiratory tract infection, the chimpanzee became unresponsive, developed seizures, and died within 18 h. At necropsy, the occipital cortex of the brain had a small area of congestion, and the cerebellar cortex contained a small necrotic area. Histologic evaluation confirmed the cortical lesions and revealed an additional necrotic area in the medulla oblongata characterized by mural dissection of the brain-supplying vertebral and basilar arteries and subsequent branches. Lesions in the cortices and medulla were within areas supplied by the vertebrobasilar system. Dissection of brain-supplying arteries has been described in humans but not previously in chimpanzees (or any other NHP), suggesting that these species might be useful in understanding this condition in humans. In addition, the lesion should be added to the NHP clinician's and pathologist's differential diagnosis list for similar presentations in this species.

Restraint stress facilitates systemic dissemination of Theiler's virus and alters its pathogenecity.

Theiler's murine encephalomyelitis virus (TMEV), a Picornavirus used as a viral model for multiple sclerosis (MS), causes an acute encephalomyelitis and chronic demyelination. The failure to clear the virus, which can result from stress, is a prerequisite for development of the later disease. Similarly, stressful life events have been associated with the development of MS. In the present study, a restraint stress (RS) model was used to investigate the effect of stress on the systemic dissemination of TMEV during the early stage of disease. Experimental data demonstrated that repeated RS remarkably facilitated the spread of virus from the CNS to such systemic organs as the spleen, lymph nodes, thymus, lungs and heart and compromised the ability of viral clearance within those tissues. RS also altered the pathogenecity of TMEV, enabling it to become cardiotropic, resulting in higher myocardial infectivity. These results demonstrate the profound impact that RS has upon both the tissue and organ dissemination of the virus, and the organ tropism of TMEV. An additional finding associated with stress was hepatic necrosis in the restrained animals, regardless of whether or not they were infected.

Surgical removal of an intramedullary spinal cord foreign body granuloma in a dog.

A 2-year-old, spayed female, mixed-breed dog was presented for evaluation of a progressive asymmetric tetraparesis and cranial nerve deficits with a 3-week duration. Computed tomography showed a contrast-enhancing lesion along the left side of the junction of the medulla and the cervical spinal cord. An exploratory surgery determined the presence of an intramedullary lesion of the first cervical spinal cord segment. The mass was removed through a dorsal midline myelotomy. Microscopic examination identified a foreign body granuloma that contained a dense, anisotropic outer wall, supporting the conclusion that the foreign body was of plant origin. The dog recovered to a more improved ambulatory status than prior to surgery.

Neonatal cerebellar ataxia in Coton de Tulear dogs.

A neonatal ataxia syndrome was observed in Coton de Tulear dogs. Seven affected pups (32%; 7/22) of both genders came from 5 different litters with phenotypically normal parents. Neurologic examination revealed normal mental status, head titubation, intention tremors, and severe gait, stance, and ocular ataxia beginning at 2 weeks of age. One of the pups was able to walk with assistance, but most of the affected pups were unable to stand and used propulsive movements ("swimming") for goal-oriented activities. They frequently would fall to lateral recumbency with subsequent decerebellate posturing and paddling. Ocular motor abnormalities included fine vertical tremors at rest and saccadic dysmetria. The condition was nonprogressive at least until 4 months of age. No specific abnormalities were identified in routine laboratory screening of blood and urine. Cerebrospinal fluid (CSF) analysis was normal in 1 dog, and a mild increase in protein concentration was observed in a second dog. CSF organic and amino acid concentrations were within normal limits. Magnetic resonance imaging and computed tomography of the brain, electromyography, motor nerve conduction studies, and brain stem auditory-evoked potentials were within normal limits. Postmortem examinations were performed on 5 affected dogs between 2 and 4 months of age. Routine light microscopic and immunocytochemical examination of brain, spinal cord, peripheral nerve, and muscle did not disclose any gross or histologic lesions. Compared with the cerebellum from an age-matched normal dog, the cerebellum from an affected dog showed synaptic abnormalities, including loss of presynaptic terminals and organelles associated with parallel fiber varicosities within the molecular layer and increased numbers of lamellar bodies in Purkinje cells. An autosomal recessive trait affecting development of the cerebellum is suspected.

A line of Berlin Druckrey IV rats proposed as a new model for human hereditary ataxia.

An experimental colony of Berlin Druckrey IV (BD IV) rats with inherited, congenital, gradually progressive incoordination and rear limb ataxia was evaluated for clinical signs, gross and microscopic nervous system lesions, and mode of inheritance of the gene defect. Clinical evaluation suggested a lesion in the midbrain or brainstem, with resulting lower motor neuron functional impairment. Gross alterations in affected rats were atrophy of thigh musculature by six months of age and thoracic kyphoscoliosis. Histological evaluation of the nervous system revealed central chromatolysis of neurons within the red nuclei in 20 out of 24 affected rats. Additionally, in six out of 24 affected rats chromatolytic neural cell bodies of this nucleus contained brightly eosinophilic, coarsely granular, cytoplasmic deposits. Special stains (osmium tetroxide, Kinyoun's acid-fast and periodic acid-Schiff) indicated these deposits consisted of lipopolysaccharide. Additional lesions in ataxic rats included qualitative reduction in neuronal cell bodies of the inferior olivary nucleus (10 out of 26 rats) and cerebellar Purkinje cells (5 out of 27 rats). No reduction in the number of spinal cord lower motor neurons was detected. Analysis of intercross pedigrees that were established between ataxic BD IV females and either normal Long Evans or Fisher males indicated a likely autosomal recessive mode of inheritance. The authors propose that this disease accompanying a new variant of the BD IV rat (to be designated "shaker" rat) provides a new and unique research model for ataxia with features in common with some human hereditary ataxias.