Dar-Shong Lin

Clinical characteristics and survival of trisomy 18 in a medical center in Taipei, 1988–2004†

Trisomy 18 is the second most common autosomal trisomy in newborns. The birth prevalence of this disorder is approximately 1 in 3,000 to 1 in 8,000, and the life span of the majority of patients is less than 1 year. As information regarding outcome in trisomy 18 is rather fragmentary in the literature, this study is aimed at investigating the survival and natural history of trisomy 18. We also evaluated the survival age and management of trisomy 18 in two different periods, before and after the implementation of National Health Insurance (NHI) program. Thirty‐nine cases of trisomy 18 were collected in Mackay Memorial Hospital in a 17‐year period, from 1988 to 2004. Delivery data, survival age, management before and after the implementation of NHI program, structural defects, image findings and cytogenetic results were analyzed by medical and nurses records. The diagnosis of trisomy 18 was based on the prenatal amniocentesis or postnatal chromosome analysis. Three patients had trisomy 18 mosaicism. Since cardiovascular and central nervous systems are the most common organ systems involved in this disorder, 31 patients received brain ultrasonography and heart ultrasonography for evaluation of their multiple anomalies after admission. All patients except one died in their first year due to severe malformations of the cardiovascular or central nervous systems. The median survival age was 6 days. We found a longer survival with female patients than with male patients (P < 0.05). Implementation of NHI program in the more recent decade of this study period was associated with longer survival of trisomy 18 (P < 0.05). The three most common structural defects were clenched hands (95%), rocker bottom feet (90%), and low set or malformed ears (90%). Low birth weight was present in 90%. By cardiac ultrasonography, the top four heart defects were ventricular septal defect (94%), patent ductus arteriosus (77%) and atrial septal defect (68%). However, ten cases (32%) had complex congenital heart defects. By brain ultrasonography, the most common brain lesion was cerebellar hypoplasia (32%), followed by brain edema (29%), enlarged cisterna magna (26%) and choroid plexus cysts (19%). Although most patients with trisomy 18 die within the first few weeks after birth, it is important to recognize that a small but notable percentage of these patients will survive the first year. When prenatal or postnatal decisions need to be made, the possibility of long‐term survival should be included in any discussion to enable families to make the most appropriate decision.

Comparison of hemocytometer leukocyte counts and standard urinalyses for predicting urinary tract infections in febrile infants.

Objectives. To compare the accuracy of standard and hemocytometer white blood cell (WBC) counts and urinalyses for predicting urinary tract infection (UTI) in febrile infants. Methods. Enrolled were 230 febrile infants <12 months of age. All urine specimens were obtained by suprapubic bladder aspiration and microscopically analyzed by the standard urinalysis (UA) and by hemocytometer WBC counts simultaneously, and quantitative urine cultures were performed. Receiver‐operating characteristic (ROC) curves were constructed for each method of UA. The optimal cutoff point of the UA test in predicting UTI was determined by ROC analysis. Results. There were 37 positive urine cultures of at least 1000 CFU/ml. Of these 37 patients, 9 females and 28 males, 1 had a positive blood culture (Escherichia coli). Thirty (81%) of the positive urine cultures had a bacterial colony count ≧100 000 colony‐forming units/ml, whereas the remaining had between 1000 and 50 000 colony‐forming units/ml. The area under the ROC curve for standard UA was 0.790 ± 0.053, compared with 0.900 ± 0.039 for hemocytometer WBC counts (P < 0.05). For hemocytometer WBC counts, the presence of ≧10 WBC/&mgr;l appeared to be the most useful cutoff point, yielding a high sensitivity (83.8%) and specificity (89.6%). Standard UA, with a cutoff point of 5 WBC/high power field, had a lower sensitivity (64.9%) and similar specificity (88.1%). The hemocytometer WBC counts showed significantly greater sensitivity and positive predictive value (83.8 and 60.8%, respectively) than the standard urinalysis (64.9 and 51.1%, respectively) (P < 0.05). The accuracy, specificity and likelihood ratio of hemocytometer WBC counts were also greater than that of standard UA (88.7, 89.6 and 8.08%vs. 84.3, 88.1 and 5.44%). Conclusion. Hemocytometer WBC counts provide more valid and precise prediction of UTI in febrile infants than standard UA. The presence of ≧10 WBC/&mgr;l in suprapubic aspiration specimens is the optimum cutoff value for identifying febrile infants for whom urine culture is warranted.

Clinical characteristics and survival of trisomy 13 in a medical center in Taiwan, 1985-2004.

Background: This study investigated the survival and natural history of trisomy 13 in a series of patients, comparing the management and outcome before and after the implementation of Taiwan’s National Health Insurance program (NHI).

Polysomnographic characteristics in patients with mucopolysaccharidoses

To evaluate the prevalence of obstructive sleep apnea (OSA) and to clarify sleep characteristics in patients with mucopolysaccharidoses (MPS), we performed overnight polysomnographic studies in 24 patients (22 males and 2 females; 3 with MPS I, 15 with MPS II, 1 with MPS III, 1 with MPS IV, and 4 with MPS VI; mean age, 10.8 ± 6.0 years; age range, 2.0–23.7 years; 2 patients ≥18 years of age). The nadir arterial oxygen saturation (SaO2) was 74.5 ± 12.3%, and the average percentage of sleep time with an SaO2 of <95% was 39.4%. The percentages of total sleep time spent in sleep stages N1, N2, N3, and R were 18.6 ± 10.8%, 50.3 ± 7.6%, 14.8 ± 8.1%, and 15.3 ± 4.6%, respectively. The respiratory disturbance index (RDI) was 21.8 ± 20.4/hr, and obstructive apnea–hypopnea index (OAHI) and central apnea index were 21.4 ± 19.9/hr and 0.4 ± 0.6/hr, respectively. The desaturation index was 17.6 ± 17.8/hr. All patients had some degree of OSA. For 22 children, the disorder was mild (OAHI 1.5–5) in 2, moderate (OAHI 5–10) in 7, and severe (OAHI > 10) in 13. Two patients with MPS II who received enzyme replacement therapy had reductions in RDI after treatment (38.9–10.8 and 3.5–2.0, respectively). The prevalence of moderate to severe OSA was 88% (21/24) in patients with MPS. The overnight polysomnography will help to determine the abnormalities of breathing during sleep more precisely and urge the clinicians to take necessary action for patients with severe manifestations. Pediatr Pulmonol. 2010;45:1205–1212.

Overexpression of Akt1 Enhances Adipogenesis and Leads to Lipoma Formation in Zebrafish

Background Obesity is a complex, multifactorial disorder influenced by the interaction of genetic, epigenetic, and environmental factors. Obesity increases the risk of contracting many chronic diseases or metabolic syndrome. Researchers have established several mammalian models of obesity to study its underlying mechanism. However, a lower vertebrate model for conveniently performing drug screening against obesity remains elusive. The specific aim of this study was to create a zebrafish obesity model by over expressing the insulin signaling hub of the Akt1 gene. Methodology/Principal Findings Skin oncogenic transformation screening shows that a stable zebrafish transgenic of Tg(krt4Hsa.myrAkt1)cy18 displays severely obese phenotypes at the adult stage. In Tg(krt4:Hsa.myrAkt1)cy18, the expression of exogenous human constitutively active Akt1 (myrAkt1) can activate endogenous downstream targets of mTOR, GSK-3α/β, and 70S6K. During the embryonic to larval transitory phase, the specific over expression of myrAkt1 in skin can promote hypertrophic and hyperplastic growth. From 21 hour post-fertilization (hpf) onwards, myrAkt1 transgene was ectopically expressed in several mesenchymal derived tissues. This may be the result of the integration position effect. Tg(krt4:Hsa.myrAkt1)cy18 caused a rapid increase of body weight, hyperplastic growth of adipocytes, abnormal accumulation of fat tissues, and blood glucose intolerance at the adult stage. Real-time RT-PCR analysis showed the majority of key genes on regulating adipogenesis, adipocytokine, and inflammation are highly upregulated in Tg(krt4:Hsa.myrAkt1)cy18. In contrast, the myogenesis- and skeletogenesis-related gene transcripts are significantly downregulated in Tg(krt4:Hsa.myrAkt1)cy18, suggesting that excess adipocyte differentiation occurs at the expense of other mesenchymal derived tissues. Conclusion/Significance Collectively, the findings of this study provide direct evidence that Akt1 signaling plays an important role in balancing normal levels of fat tissue in vivo. The obese zebrafish examined in this study could be a new powerful model to screen novel drugs for the treatment of human obesity.

CNS-targeted AAV5 gene transfer results in global dispersal of vector and prevention of morphological and function deterioration in CNS of globoid cell leukodystrophy mouse model

Globoid cell leukodystrophy (GLD) is a devastating lysosomal storage disease caused by deficiency of the enzyme galactocerebrosidase (GALC). Currently, there is no definite cure for GLD. Several attempts with CNS-directed gene therapy in twitcher mice (a murine model of GLD) demonstrated restricted expression of GALC activity in CNS and failure of therapeutic efficacy in cerebellum and spinal cord, resulting in various degrees of correction of biochemical, pathological and clinical phenotype. More recently, twitcher mice receiving a combination of hematopoietic and viral vector gene transfer therapies were not protected from neurodegeneration and axonopathy in both cerebellum and spinal cord. This evidence indicates the requirement of sufficient and widespread GALC expression in CNS and rescue of cerebellum and spinal cord in the therapeutic intervention of murine model of GLD. In this study, we have optimized intracranial delivery of AAV2/5-GALC to the neocortex, hippocampus and cerebellum, instead of the thalamus as was previously conducted, of twitcher mice. The CNS-targeted AAV2/5 gene transfer effectively dispersed GALC transgene along the neuraxis of CNS as far as the lumbar spinal cord, and reduced the accumulation of psychosine in the CNS of twitcher mice. Most importantly, the treated twitcher mice were protected from loss of oligodendrocytes and Purkinje cells, axonopathy and marked gliosis, and had significantly improved neuromotor function and prolonged lifespan. These preclinical findings with our approach are encouraging, although a more robust response in the spinal cord would be desirable. Collectively, the information in this study validates the efficacy of this gene delivery approach to correct enzymatic deficiency, psychosine accumulation and neuropathy in CNS of GLD. Combining cell therapy such as bone marrow transplantation with treatment with the aim of reducing inflammation, replacing dead or dying oligodendrocytes and targeting PNS may provide a synergistic and more complete correction of this disease.

A novel mutation in PYCR1 causes an autosomal recessive cutis laxa with premature aging features in a family

The autosomal recessive form of type II cutis laxa (ARCL II) is characterized by the appearance of redundant, inelastic skin with wrinkling, an aged look and additional variable systemic involvement including intrauterine growth retardation, failure to thrive, developmental delay, dysmorphism, osseous abnormality, and CNS manifestations. Several genetic defects have been found in patients and families with the clinical manifestations of ARCL II. Recently, mutations in PYCR1 have been linked to cutis laxa with progeroid features. We ascertained two siblings with of ARCL II born to non‐consanguineous parents. Mutation analysis of PYCR1 revealed a novel single‐base deletion (c.345delC) in exon 4 leading to frame‐shift and premature stop of translation. The effect of this mutation results in a strong reduction of PYCR1 expression in skin fibroblasts from affected siblings. These two cases extend the genotypic spectrum of PYCR1‐related ARCL II.

A method for lactate and pyruvate determination in filter-paper dried blood spots

Lactic acidemia is commonly associated with severe diseases in pediatric patients. Quantitation of blood lactate and pyruvate is important for the diagnosis and clinical management. A liquid chromatography-tandem mass spectrometry (LC-MS/MS) method using dried blood spots (DBS) was developed and could be used for simultaneous quantification of blood lactate and pyruvate. The applicability of the developed method was tested and confirmed by the regression analysis between LC-MS/MS method and enzymatic assay. Lactate and pyruvate were extracted from DBS obtained from 580 full-term, 120 pre-term infants (gestations ranging from 24 to 36 weeks), and 65 patients with suspected lactic acidemia, with methanolic internal standard (IS) solutions of sodium L-lactate-(13)C(3) and pyruvate-(13)C(3). An API-2000 LC-MS/MS system with multiple reaction monitoring (MRM) mode was applied. The within-run and between-run precisions (CV%) were determined and the results were 1.9% and 3.9% for lactate (n=20) and 5.7% and 7.3% for pyruvate (n=20). The linearity of lactate (r=0.9986) and pyruvate (r=0.9973) based on the IS was excellent. The parameter r squared (r(2)) of linear regression between LC-MS/MS method and enzymatic assay was 0.9405 for lactate and 0.9447 for pyruvate, respectively, and the agreement between these methods was consistent and acceptable. The stability of lactate and pyruvate on DBS was also confirmed. The LC-MS/MS method we developed is a specific, sensitive, and reproducible method for measuring blood lactate and pyruvate concentrations. The use of DBS in this method makes it particularly attractive for pediatric patients.

Compound heterozygous mutations in PYCR1 further expand the phenotypic spectrum of De Barsy syndrome

De Barsy syndrome (DBS) is characterized by progeroid features, ophthalmological abnormalities, intrauterine growth retardation, and cutis laxa. Recently, PYCR1 mutations were identified in cutis laxa with progeroid features. Herein, we report on a DBS patient born to a nonconsanguineous Chinese family. The exceptional observation of congenital glaucoma, aortic root dilatation, and idiopathic hypertrophic pyloric stenosis in this patient widened the range of symptoms that have been noted in DBS. Mutation analysis of PYCR1 revealed compound heterozygous PYCR1 mutations, including a p.P115fsX7 null mutation allele and a second allele with two missense mutations in cis: p.G248E and p.G297R. The effect of mutation results in a reduction of PYCR1 mRNA expression and PYCR1 protein expression in skin fibroblasts from the patient. The findings presented here suggest a mutation screening of PYCR1 and cardiovascular survey in patients with DBS.

Mitigation of cerebellar neuropathy in globoid cell leukodystrophy mice by AAV-mediated gene therapy

Globoid cell leukodystrophy (GLD) is an autosomal recessive, lysosomal storage disease caused by deficiency of the enzyme galactocerebrosidase (GALC). The absence of GALC activity leads to the accumulation of the toxic substance psychosine and the preferential loss of myelinating cells in the central and peripheral nervous systems. Profound demyelination, astrogliosis and axonopathy are the hallmarks of the pathogenesis of GLD, and cerebellar ataxia is one of the dominant manifestations in adolescents and adults affected with GLD. To date, studies regarding cerebellar degeneration in GLD are limited. In this study, the efficacy of cerebellum-targeted gene therapy on the cerebellar neuropathology in twitcher mice (a murine model of GLD) has been validated. We observed degeneration of Purkinje cells, Bergmann glia, and granule cells in addition to astrocytosis and demyelination in the cerebellum of the twitcher mice. Ultrastructural analysis revealed dark cell degeneration and disintegration of the cellular composition of Purkinje cells in untreated twitcher mice. In addition, the expressions of neurotrophic factors CNTF, GDNF and IGF-I were up-regulated and the expression of BDNF was down-regulated. Intracerebellar-mediated gene therapy efficiently corrected enzymatic deficiency by direct transduction to Purkinje cells and cross-correction in other cell types in the cerebellum, leading to the amelioration of both neuroinflammation and demyelination. The population, dendritic territory, and axonal processes of Purkinje cells remained normal in the cerebellum of treated twitcher mice, where radial fibers of Bergmann glia spanned the molecular layer and collateral branches ensheathed the dendritic processes of Purkinje cells. Moreover, the aberrant expressions of neurotrophic factors were mitigated in the cerebellum of treated twitcher mice, indicating the preservation of cellular function in addition to maintaining the neuronal architecture. The life span of the treated twitcher mice was significantly prolonged and their neurobehavioral performance was improved. Taken together, our findings underscore the complexity of cerebellar neurodegeneration in GLD and highlight the potential effectiveness of gene therapy in mitigating neuropathological deficits in GLD and other neurodegenerative disorders in which Purkinje cells are involved.