UMLS:C0243026 - FACTA Search

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Query: UMLS:C0243026 (sepsis)
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Infant Botulism (IB) is a relatively uncommon, though potentially life-threatening neuroparalytic illness caused by the toxins elaborated by Clostridium botulinum (C botulinum). We describe two cases of Infant Botulism. Both these infants presented with a sepsis-like picture and were unsuspectingly treated with the conventional antibiotics ampicillin and gentamicin. The neuroparalytic syndrome of both infants was probably potentiated by the use of gentamicin. We suggest that cefotaxime be carefully considered instead of gentamicin in the initial management of infants presenting with a sepsis-like clinical picture and associated history of constipation, recent onset of hypotonia, poor feeding and/or drooling. Clinical trials evaluating human Botulism Immune Globulin (BIG) are under way by the California Department of Health. This article comes at a very timely moment because once FDA approved, BIG will be the only specific treatment available for this illness.
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PMID:Infant botulism: case reports and review. 1132 89

Very long chain fatty acid dehydrogenase (VLCAD) deficiency is a rare but treatable cause of cardiomyopathy, fatty liver, skeletal myopathy, pericardial effusions, ventricular arrhythmias, and sudden death. Unrecognized, VLCAD deficiency may be rapidly progressive and fatal, secondary to its cardiac involvement. Because early diagnosis improves outcome, we present a neonate with VLCAD deficiency in whom retrospective analysis of the newborn screening card revealed that a correct diagnosis could have been made by newborn screening using tandem mass spectrometry. Our patient demonstrated a classic neonatal course with transient hypoglycemia at birth, interpreted as culture-negative sepsis, followed by a quiescent period notable only for hypotonia and poor feeding. At 3 months, he presented with cardiorespiratory failure and pericardial effusions, requiring pericardiocentesis, tracheostomy, and prolonged mechanical ventilation. Plasma free-fatty acid and acylcarnitine profiles demonstrated small but significant elevations of C14:2, C14:1, C16, and C18:1 acylcarnitine species, findings consistent with a biochemical diagnosis of VLCAD deficiency. Enteral feeds were changed to Portagen formula with marked improvement in cardiac symptoms over several weeks. To confirm the biochemical diagnosis, molecular analysis was performed by analysis of genomic DNA on a blood sample of the patient. Sequencing analysis and delineation of VLCAD mutations were performed using polymerase chain reaction and genomic sequencing. The patient was heterozygous for 2 different disease-causing mutations at the VLCAD locus. The maternal mutation was a deletion of bp 842-3 in exon 8, causing a shift in the reading frame. The paternal mutation was G+1A in the consensus donor splice site after exon 1; this splice-site mutation would likely result in decreased mRNA. The likely consequence of these mutations is essentially a null phenotype. To determine whether this case could have been picked up by tandem mass spectrometry analysis at birth when the patient was asymptomatic, acylcarnitine analysis was performed on the patient's original newborn card (after obtaining parental consent, the original specimen was provided courtesy of Dr Kenneth Pass, Director, New York State Newborn Screening Program). The blood sample had been obtained at 1 week of age and stored at room temperature for 6 months and at 70 degrees C thereafter for 18 months. Electrospray tandem mass spectrometry used a LC-MS/MS API 2000 operated in ion evaporation mode with the TurboIonSpray ionization probe source. The acylcarnitine profile obtained from the patient's original newborn card was analyzed 2 years after it was obtained. In comparison with a normal control, there was a significant accumulation of long chain acylcarnitine species, with a prominent peak of tetradecenoylcarnitine (C14:1), the most characteristic metabolic marker of VLCAD deficiency. This profile would have likely been even more significant if it had been analyzed at the time of collection, yet 2 years later is sufficient to provide strong biochemical evidence of the underlying disorder. Discussion. VLCAD was first discovered in 1992, and clinical experience with VLCAD deficiency has been accumulating rapidly. Indeed, the patients originally diagnosed with long chain acyl-CoA deficiency suffer instead from VLCAD deficiency. The phenotype of VLCAD deficiency is heterogeneous, ranging from catastrophic metabolic and cardiac failure in infancy to mild hypoketotic, hypoglycemia, and exertional rhabdomyolysis in adults. This case demonstrates that VLCAD deficiency could have been detected from the patient's own neonatal heel-stick sample. Most likely, a presymptomatic diagnosis would have avoided at least part of a lengthy and intensive prediagnosis hospitalization that had an estimated cost of $400 000. Although VLCAD is relatively rare, timely and correct diagnosis leads to dramatic recovery, so that detection by newborn screening could prevent the onset of arrhythmias, heart failure, metabolic insufficiency, and death. Fatty acid oxidation defects, including VLCAD deficiency, may account for as many as 5% of sudden infant death patients. Recent instrumentation advances have made automated tandem mass spectrometry of routine neonatal heel-stick samples technically feasible. Pilot studies have demonstrated an incidence of fatty acid oxidation defects, including short chain, medium chain, and very long chain acyl-CoA dehydrogenase deficiencies, of approximately 1/12 000. As a result, cost-benefit ratios for this approach should be systematically examined.
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PMID:Diagnosis of very long chain acyl-dehydrogenase deficiency from an infant's newborn screening card. 1143 98

The detection of neurodegenerative and neurometabolic diseases in children relies on a high index of suspicion as most will present as common paediatric problems such as recurrent vomiting, feeding problem, failure to thrive, sepsis, or developmental delay. Alternatively, children may present with an acute encephalopathy or with a chronic progressive encephalopathy. Clinical clues suggestive of neurometabolic disorders include encephalopathic features such as microcephaly, macrocephaly, developmental regression, developmental arrest, change in sensorium, seizures, hypotonia, hypertonia, abnormal eye signs; also extrapyramidal or cerebellar signs and systemic features like abnormal respiration, hepatosplenomegaly, abnormal hair, liver dysfunction, renal tubular dysfunction, cardiomyopathy, and feeding difficulties or growth problems. Initial screening include tests for acidosis, ketosis, hyperlacticemia, and hyperammonemia. Further investigations should amino acid chromatography, assays of organic acids, specific enzyme assay of white cell or fibroblast culture, and histopatholgy of cell and tissue biopsy (white blood cell, skin, muscle, conjunctiva, bone marrow, liver, rectum, or brain). The correct diagnosis holds implications for targeted therapeutic intervention, genetic counselling, and possibly, prenatal diagnosis.
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PMID:Neurodegenerative diseases in children. 1184 61

Classical galactosaemia (Mendelian Inheritance in Man, no 230400) is an autosomal recessive disorder of galactose metabolism caused by a deficiency of the enzyme galactose-1-phosphate uridyltransferase (GALT). The GALT enzyme is responsible for the conversion of galactose-1-phosphate with UDP glucose to glucose-1-phosphate and UDP galactose. The gene encoding for GALT is located on chromosome 9p13. Patients present with hepatomegaly, liver failure, food intolerance, hypoglycaemia, muscle hypotonia, sepsis and cataract. Treatment involving the total restriction of lactose-containing foods is life-saving but many patients develop late complications such as problems of mental development, disorders of motor function, disorders of speech and hypergonadotrophic hypogonadism.
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PMID:[From gene to disease; galactosemia and galactose-1-phosphate uridyltransferase deficiency]. 1475 29

Perfusion of the abdomen is determined by cardiac function and circulation. Intestinal ischemia can be caused by Non occlusive bowel ischemia (NOD) that is important in internal as well as surgical intensive care medicine. Cardiac medication can influence perfusion of the bowel: 1) digitalis increases muscular tonus and decreases perfusion regulation b) diuretics lead to hypovolemia, hypotonia and malperfusion, c) antihypertensive medication can cause intraoperative hypotension that demands catecholamines, d) catecholamines can reduce perfusion by pathologic vasoconstriction in the splanchnicus area. Preoperative medication should respect 1) preoperatively taken ACE-inhibitors should be given postoperatively, as they have protective influence on the microcirculation of the bowel, 2) beta-blockers stabilize the myogenic tonus of the abdominal vessels, reduce an overshot of the parasympatheticus and diminish the risk of neurogenic abdominal shock, 3) catecholamines should be used with respect to ischemia of the bowel. Therapy of NOD should be focused on the primary vascular and hemodynamic causes and also take care for bacterial translocation and consecutive sepsis.
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PMID:[Influence of cardiac circulation and medication on the perfusion of the intestine]. 1596 73

Classical galactosaemia (McKusick 230400) is an: autosomal recessive disorder of galactose metabolism, caused by a deficiency of the enzyme galactose-1-phosphate uridyltransferase (GALT; EC 2.7.712). Most patients present in the neonatal period, after ingestion of galactose, with jaundice, hepatosplenomegaly, hepatocellular insufficiency, food intolerance, hypoglycaemia, renal tubular dysfunction, muscle hypotonia, sepsis and cataract. The gold standard for diagnosis of classical galactosaemia is measurement of GALT activity in erythrocytes. Gas-chromatographic determination of urinary sugars and sugar alcohols demonstrates elevated concentrations of galactose and galactitol. The only therapy for patients with classical galactosaemia is a galactose-restricted diet, and initially all galactose must be removed from the diet as soon as the diagnosis is suspected. After the neonatal period, a lactose-free diet is advised in most countries, without restriction of galactose-containing fruit and vegetables. In spite of the strict diet, long-term complications such as retarded mental development, verbal dyspraxia, motor abnormalities and hypergonadotrophic hypogonadism are frequently seen in patients with classical galactosaemia. It has been suggested that these complications may result from endogenous galactose synthesis or from abnormal galactosylation. Novel therapeutic strategies, aiming at the prevention of galactose 1-phosphate production, should be developed. In the meantime, the follow-up protocol for patients with GALT deficiency should focus on early detection, evaluation and, if possible, early intervention in problems of motor, speech and cognitive development.
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PMID:Classical galactosaemia revisited. 1683 75

Infant botulism is a rare cause of hypotonia in young infants. It may present with vague symptoms such as poor feeding and lethargy. We present 4 cases of infant botulism presenting to 2 community hospitals in central Maryland. In each case, poor feeding and lethargy were the chief complaints. One patient was referred to the emergency department with suspected sepsis and one with suspected intussusception. Three patients required endotracheal intubation. All were treated with botulism immune globulin, and all eventually made full recoveries. We discuss the differential diagnosis and provide an overview of infant botulism.
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PMID:Infant botulism presenting with poor feeding and lethargy: a review of 4 cases. 1766 36

Three hundred-forty-eight out of a regional population of 1272 newborn infants were randomly chosen and followed neurologically until age of two years to study the epidemiology of neurodevelopmental disorders, and to reveal the main factors influencing outcome. The most frequent neonatal pathologies were low Apgar scores - 45 (3.5%), neonatal sepsis - 28 (2.2%), neonatal seizures - 26 (2.0%), neonatal sepsis complicated with bacterial meningitis - 13 (1.0%), traumatic injury of peripheral nerves - 7 (0.6%), intracranial hemorrhages - 4 (0.3%) and CNS malformations - 3 (0.2%). At the age of 24 months abnormal development was identified in 29 cases (8.5%) of children, comprising global developmental delay in five (1.5%), unclassified motor problems (hypotonia without ataxia) in four (1.2%), cerebral palsy in three (0.9%), behavioral/sleep disorders in 12 (3.5%) and epilepsy in five (1.5%). The most significant single risk factors for abnormal neurodevelopmental outcome were maternal age, chorioamnionitis, gestational age <37 weeks, pathological delivery, and a low (<5) Apgar score at 5min after birth. Coexistence of several risk factors increased the probability of an adverse outcome.
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PMID:Epidemiology of neurodevelopmental disorders in 2 years old Georgian children. Pilot study - population based prospective study in a randomly chosen sample. 1968 48

Peroxisomal biogenesis disorders (PBD) are groups of inherited neurometabolic disorders caused by defects in PEX genes. We report on a female infant, born to a consanguineous parents (first degree cousins), who presented with inactivity, poor sucking, and hypotonia early in the neonatal period. She had subtle dysmorphic features. Liver function tests were impaired with raised liver enzymes, conjugated and unconjugated hyperbilirubinemia. CT of the brain showed diffuse bilateral changes. She developed seizures with an abnormal EEG. Plasma very long chain fatty acid analysis showed high C26:0 levels and increasedC26:0/C22:0 and C24:0/C22:0 ratios, which is consistent with a PBD. Studies in fibroblasts including plasmalogen biosynthesis, peroxisomal fatty acid alfa and beta oxidation confirmed the diagnosis of PBD. Immunofluoresence microscopy revealed the absence of peroxisomes in fibroblasts. The patient was assigned to the PEX19 complementation group. Subsequent mutation analysis of the PEX19 gene revealed homozygosity for a c.320delA frameshift mutation. The patient had a stormy course with multiple admissions to the pediatric intensive care unit with pneumonia, liver impairment, sepsis, and epilepsy. At 1 year of age she developed metabolic acidosis with normal anion gap, proteinuria, aminoaciduria, and glucosuria consistent with a renal tubular defect. Abdominal ultrasound showed multiple gallstones. Other causes of gallstones like haemoglobinopathy were excluded. So far, only two siblings had been reported with mutations in the PEX19 gene. Our patient showed a previously unrecognized association of gallstones and a renal tubular defect with a PBD.
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PMID:A mutation in PEX19 causes a severe clinical phenotype in a patient with peroxisomal biogenesis disorder. 2068 89

Nonketotic hyperglycinemia (OMIM #605899), also known as glycine encephalopathy, is an autosomal recessive disorder of glycine metabolism caused by a defect in the glycine cleavage system. A term neonate developed progressive lethargy, muscular hypotonia, and respiratory insufficiency on day 2 after birth, but no overt clinical seizures. Amplitude-integrated electroencephalography indicated a continuous burst-suppression pattern. The diagnosis of nonketotic hyperglycinemia was made biochemically and was confirmed by genetic studies, which revealed two missense mutations (one not previously described) within the glycine decarboxylase gene, GLDC. Nonketotic hyperglycinemia should be incorporated into the differential diagnosis of neonatal hypotonia, to avoid an erroneous diagnosis of sepsis or hypoxic ischemic injury. Amplitude-integrated electroencephalography may be helpful in the initial assessment of severely sick and hypotonic neonates without overt clinical seizures, and may direct further diagnostic evaluation.
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PMID:A novel missense mutation in a neonate with nonketotic hyperglycinemia. 2093 83

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