Magnetic Resonance Spectroscopy in Ring Enhancing Lesions.

We report a 4 year old girl with ring enhancing lesions in brain CT, initially diagnosed as neurocysticercosis but did not respond to cysticidal therapy. A Magnetic resonance spectropscopy (MRS) revealed lipid peaks suggestive of tuberculoma which was successfully treated with antituberculosis therapy. This report highlights the role of MRS in the diagnosis of ring enhancing lesios.

Awareness about taeniasis and neurocysticercosis among municipal schoolteachers in Delhi.

Taenia solium is the commonest parasitic infection of CNS and an important cause of new-onset seizures and epilepsy in children and adults. Human activities impact on almost every one of the stages of the lifecycle of the worm as man is responsible for dispersion of the parasite's egg through outdoor defecation and indiscriminate disposal of feces. Health education to cause behavioral changes in these practices can therefore be an effective intervention strategy. We conducted a study to assess KAP regarding taeniasis and neurocysticercosis among municipal school teachers in Delhi. The findings are presented in this communication. The study revealed that, general information related to personal food hygiene was known to majority of the teachers but core information in the context of taeniasis/cysticercosis and seizure prevention was lacking.

Multi-minicore disease: a rare form of myopathy.

BACKGROUND: Multi-minicore disease is a rare form of myopathy characterized by slowly progressive or nonprogressive muscle weakness and characteristic multiple cores within the muscle fibers. To the best of our knowledge, this is first documentation of the clinicopathological features of this rare entity from India. MATERIALS AND METHODS: A ll cases of multi-minicore disease diagnosed in our laboratory were retrieved. Clinical and pathological features were reviewed. RESULT: During a period of two years (January 2004 to December 2005), we received 985 muscle biopsies for various reasons. Of which, 15 were diagnosed as myopathies and four of which were of multi-minicore disease. Thus, multi-minicore disease comprises 0.40% of all muscle diseases and 26.6% of all myopathies. All were male and presented in early childhood (first decade of life) with generalized hypotonia and muscle weakness. All of them had dysmorphic facies and three had high arched palate. CPK levels were normal and EMG was myopathic except in one patient. Microscopic examination revealed minimal changes with Type I fibers' predominance but characteristic multiple cores in the myofibers. Ultrastructural examination showed both structured and unstructured cores. CONCLUSIONS: Multi-minicore disease, although a rare form of myopathies, should be suspected in children who present with generalized hypotonia and slowly progressive muscle weakness along with dysmorphic facies.

Nemaline rod myopathy: a rare form of myopathy.

Nemaline rod myopathy (NM) is a rare form of congenital myopathy characterized by slowly progressive or nonprogressive muscle weakness and pathognomonic rod-like structures within the muscle fibers. To the best of our knowledge, this is first documentation of the clinicopathological features of this rare entity from India. All cases of NM diagnosed in our laboratory were retrieved. Clinical and pathological features were reviewed. During a period of 1.5 years (Jan 2004 to June 2005), we received 750 muscle biopsies for various reasons. Of which, 15 were diagnosed as congenital myopathies and four as nemaline rod myopathies. Thus, NM comprises 0.53% of all muscle diseases and 22.6% of all congenital myopathies. All of them presented in childhood (first five years of life) with generalized hypotonia, feeding problems, repeated respiratory infections and muscle weakness. Both males and females were equally affected. The CPK levels were normal and EMG was myopathic. Microscopic examination revealed minimal changes but characteristic red-colored material was seen on modified Gomori trichrome staining which was immunopositive to alpha actinin. Ultrastructural examination confirmed this material to be nemaline rods. NM, although a rare form of congenital myopathies, should be suspected in children who present with generalized hypotonia, repeated chest infections and slowly progressive muscle weakness. This report highlights the importance of histochemistry and ultrastructural examination in the diagnosis of this entity, in the absence of the availability of methodology for genetic studies.

Sarcoglycanopathies: a clinicopathological study of 13 cases [corrected]

BACKGROUND: Limb girdle muscular dystrophy (LGMD) is a phenotypic expression of a heterogeneous group of diseases and sarcoglycanopathy is one of the causes of LGMD. There is only one study on sarcoglycanopathies in the Indian literature. No data is available from northern India. MATERIALS AND METHODS: All cases of muscular dystrophies, which were diagnosed in our laboratory in the last six years, were reviewed. Immunohistochemistry for various sarcoglycan proteins was done. Clinical features and pathological findings of the cases that were diagnosed as sarcoglycanopathies were reviewed. RESULTS: In the last 6 (1/2) years (1998-June 2004), we received 1435 muscle biopsies, of which 498 cases were of muscular dystrophies, and 13 cases were of sarcoglycanopathies (8 of gamma, 3 of alpha, 1 of both alpha and gamma, and 1 with absence of all four sarcoglycans). Sarcoglycanopathies comprised 2.6% of all muscular dystrophies, 11.8% of LGMD and 0.90% of all muscle diseases diagnosed in our laboratory. The mean age of onset was 7.2 years and the M:F ratio was 1.1:1. Most of them presented with difficulty in getting up, climbing stairs, calf hypertrophy and markedly raised CPK levels. Histological features were like dystrophinopathies. CONCLUSION: Sarcoglycanopathies are a relatively rare cause of LGMD and should be confirmed by immunohistochemistry as it will facilitate counseling and also prognostification. Although rare, in patients with muscle weakness, calves hypertrophy and raised CPK levels this possibility should be considered and needs to be differentiated from dystrophinopathies.

Low birth weight and its implication in renal disease.

It has been demonstrated that intrauterine growth retardation, defined as birth weight below the 10th percentile, gives rise to a reduction in nephron number. Oligonephropathy has been suggested to increase the risk for systemic and glomerular hypertension in adult life as well as enhance risk for expression of renal disease after exposure to potentially injurious renal stimuli. Diseases, such as diabetes, that damage the kidney, may enhance this risk. In addition, it has been hypothesized that the same factors affecting kidneys in utero also impact on pancreatic tissue development, thus predisposing infants of low birth weight to an increased risk for the subsequent development of diabetes and diabetic nephropathy, consistent with the so-called "thrifty phenotype" hypothesis. Impact of low birth weight on nondiabetic renal disease has also been shown in some studies. In the current scenario, chronic kidney disease is increasing all over the world and the major two causes are diabetes and hypertension. Once the issues are shifting from management of end-stage renal disease to prevention of chronic kidney disease, prevention of low birth weight is likely to be an issue for the nephrologists in future.

Congenital fiber type disproportion: a rare type of congenital myopathy: a report of four cases.

Congenital fiber type disproportion is a rare type of congenital myopathy which presents as hypotonia, delayed motor milestones and dysmorphic facies. During the past 2 years we received 449 muscle biopsies, of which 4 cases were diagnosed as congenital fiber type disproportion (CFTD). In addition to CFTD, one case also had centronuclear features. Three of them were females and one was a male child. Although rare, it should be considered in the differential diagnosis of childhood muscle diseases. Histochemical staining is necessary for the diagnosis of this entity.

Spectrum of floppy children in Indian scenario.

OBJECTIVE: To study the clinical profile of paralytic floppy infants undertaking available investigations and detect the frequency of exon7 of survival motor neuron (SMNT) gene deletion among the spinal muscular atrophy (SMA) cases. DESIGN: Descriptive study. SETTING: Tertiary care teaching hospital. SUBJECTS: 70 paralytic floppy infants (40 males/30 females) with age less than 13 years were included in the study. Exclusion criteria included central hypotonia of any cause. Detailed clinical evaluation was done followed by serum creatine phosphokinase levels, electrophysiological studies, muscle biopsy including immunohistochemistry and electron microscopy. Exon7 of SMNT gene deletion studies was done by PCR. RESULTS: Final diagnosis of SMA was assigned to 37 patients followed by congenital myopathy (n = 7), cogenital muscular dystrophy (n = 5), mitochondrial myopathy (n = 4), neuropathies (n = 5) and diaphragmatic SMA (n = 1). Only 15.7% of cases remained unclassified. When EMG was correlated with final diagnosis, it was 80.6% and 75% sensitive and 68.8% and 87.5% specific for neurogenic and muscle disease, respectively. Muscle biopsy revealed neurogenic atrophy in 47.8% cases followed by normal in 37.3% and myopathic pattern in 14.97% cases. Exon7 of SMNT gene was deleted in only 50% of SMA cases. CONCLUSIONS: Spinal muscular atrophy was the commonest cause of floppy children. The low rate of SMNT gene deletion detected needs confirmation with further studies.

Adhalin deficiency: an unusual cause of muscular dystrophy.

Childhood muscular dystrophies have a wide clinical spectrum, motor disability and are variably inherited. Although the phenotype may appear similar they may represent distinct genetic entities. Advances in immunohistochemistry, gene deletion and linkage studies have enabled precise characterization. We report a family with an early onset weakness and calf pseudo hypertrophy in 2 male sibs with an usually mild course. Deletion screening was negative for 24 exons of the DMD gene in both. Muscle immunohistochemistry revealed normal dystrophin I and II staining but complete absence for adhalin, a dystrophin associated glycoprotein. Classifying them as adhalinopathy. Severe childhood autosomal recessive muscular dystrophies (SCARMD) result from mutation in the sarcoglycan complex (59). Adhalinopathy is now used to describe SCARMD. The adhalinopathy described in our patients is the first report from India.

Congenital myotonic dystrophy.

Myotonic muscular dystrophy is the most frequent autosomal muscular dystrophy affecting adults and children. It affects multiple organ systems and is probably the best example of variable expressivity in a human disease. This article presents a patient with congenital myotonic dystrophy who had facial dysmorphism, hypotonia, talipes, feeding and respiratory difficulties in the neonatal period and later presented to us with developmental delay and had percussion myotonia. His mother had clinical and electrophysiological features of myotonia. Expansion of unstable CTG trinucleotide repeat in the myotonic protein kinase gene was demonstrated in both. The identification of this molecular defect allows its specific diagnosis in relation to other neuromuscular disorders as well as accurate prenatal diagnosis.

Mitochondrial myopathy presenting as ataxia with dilated cardiomyopathy.

Mitochondrial disorders are multisystem diseases with very heterogeneous clinical manifestations. Common cardiac features include cardiomyopathy and conduction defects. We report a five-year-old boy who presented with signs of congestive cardiac failure and was diagnosed to have dilated cardiomyopathy. Six months later, he developed progressively worsening ataxia, hypotonia, other cerebellar signs, hearing loss, severe sensory peripheral neuropathy and lactic acidosis. Electronmicroscopy of skeletal muscle biopsy was consistent with mitochondrial myopathy.

Hypocalcemic heart failure masquerading as dilated cardiomyopathy.

Hypocalcemia is a rare, but reversible, cause of congestive heart failure. We report a 4-month-old boy diagnosed as dilated cardiomyopathy who had prolonged QoTc with low blood levels of calcium, normal phosphate, elevated alkaline phosphatase and findings suggestive of rickets. In view of non response to calcium and vitamin D3, a possible diagnosis of VDDR I (Vitamin D-dependent rickets) was made and he was treated with calcium and calcitriol. The serum calcium levels normalised within 10 days, along with resolution of the signs and symptoms of heart failure, near normal left ventricular function and normalisation of QoTc. Pediatricians should be aware of the association of hypocalcemia with cardiac dysfunction and should keep it as a possible reversible cause of heart failure in children.

Muscular dystrophies.

The muscular dystrophies (MD) are a heterogenous group of genetically determined, variably inherited primary disorders of muscle that progress differently. The various forms can be distinguished by the combination of clinical, genetic and pathologic criteria, confirmation of the muscle biopsy should be with immunohistochemical staining rather than histological only. These and the gene deletion studies in the families have become essential diagnostic criteria.

Infantile-onset leukoencephalopathy with discrepant mild clinical course.

Four children characterised by megalencephaly and cerebral leukoencephalopathy with infantile onset, defined on the basis of clinical and neuroimaging findings are reported. The course of the disease is characterised by stabilization of the macrocephaly and slow clinical deterioration. The CT scan findings include supratentorial diffuse hypodensities in the white matter and swelling. The characteristic MRI findings include the discrepant severity in comparison with the clinical picture, diffuse supratentorial white matter abnormalities with subcortical cysts. The basic defect of the disease is unknown. Considering the high rate of consanguinity among the parents and the presence of two affected sibs in one family, an autosomal recessive inheritance is assumed. We report four unrelated cases of this entity.

Juvenile neuronal ceroid lipofuscinosis.

A case of juvenile neuronal ceroid lipofuscinosis (JNCL) diagnosed on the basis of clinical features, electrophysiologic studies and skin electron microscopy is reported. JNCL was suspected on the basis of characteristic symptoms including progressive loss of vision, seizures, mental retardation and motor disabilities. Diagnosis was confirmed by neurophysiological and biopsy studies. The disease is caused by 23 different mutations in a gene recently isolated on chromosome 16 p11.2-12.1. Although universally fatal, characterisation of mutations can help in prenatal diagnosis in future pregnancies.