Your search keyword '"Schönle, Eugen"' showing total 16 results

1. Clinical follow-up of the first SF-1 insufficient female patient

Author

Gerster, Karine, Biason-Lauber, Anna, and Schoenle, Eugen J.

Published

2017

2. Parent and Health Professional Perspectives in the Management of Adolescents with Diabetes: Development of Assessment Instruments for International Studies

Author

Hoey, Hilary, McGee, Hannah M., Fitzgerald, Michael, Mortensen, Henrik B., Hougaard, Philip, Lynggaard, Helle, Skovlund, Soren E., Aanstoot, Henk-Jan, Chiarelli, Francesco, Daneman, Denis, Danne, Thomas, Dorchy, Harry, Garandeau, Patrick, Greene, Stephen, Holl, Reinhard, Kaprio, Eero, Kocova, Mirjana, Martul, Pedro, Matsuura, Nobuo, Robertson, Kenneth, Schoenle, Eugen, Sovik, Oddmund, Swift, Peter, Tsou, Rosa Maria, Vanelli, Maurizio, and Aman, Jan

Published

2006

3. 17α-Hydroxylase/17,20-Lyase Deficiency as a Model to Study Enzymatic Activity Regulation: Role of Phosphorylation*

Author

Biason-Lauber, Anna, Kempken, Bianca, Werder, Edmond, Forest, Maguelone G, Einaudi, Silvia, Ranke, Michael B, Matsuo, Nobutake, Brunelli, Valeria, Schönle, Eugen J, and Zachmann, Milo

Published

2000

4. Targets and teamwork: Understanding differences in pediatric diabetes centers treatment outcomes

Author

Skinner, Timothy C, Lange, Karin S, Hoey, Hilary, Mortensen, Henrik B, Aanstoot, Henk-Jan, Castaňo, Luis, Skovlund, Soren, Swift, Peter Gf, Cameron, Fergus J, Dorchy, Harry R, Palmert, Mark R, Kaprio, Eero, Robert, Jean-Jacques, Danne, Thomas, Neu, Andreas, Shalitin, Shlomit, Chiarelli, Francesco, Chiari, Giovanni, Urakami, Tatsuhiko, Njølstad, Pål R, Jarosz-Chobot, Premyslawa K, Roche, Edna F, Castro-Correia, Cintia G, Kocova, Mirjana, Åman, Jan, Schönle, Eugen, Barrett, Timothy G, Fisher, Lynda, de Beaufort, Carine E, Hvidoere Study Group, University of Zurich, and Skinner, Timothy C

Subjects

2712 Endocrinology, Diabetes and Metabolism, 10036 Medical Clinic, 2724 Internal Medicine, 610 Medicine & health, 2735 Pediatrics, Perinatology and Child Health

Published

2018

5. Disease progression and search for monogenic diabetes among children with new onset type 1 diabetes negative for ICA, GAD- and IA-2 Antibodies

Author

de Beaufort Carine, Schönle Eugen J, Kocova Mirjana, Swift Peter, Åman Jan, Schwarcz Erik, de Wet Heidi, Sandal Tone, Louise Max Andersen Marie, Nielsen Lotte, Laborie Lene, Pörksen Sven, Hougaard Philip, Ashcroft Frances, Molven Anders, Knip Mikael, Mortensen Henrik B, Hansen Lars, and Njølstad Pål R

Subjects

Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

Abstract Background To investigate disease progression the first 12 months after diagnosis in children with type 1 diabetes negative (AAB negative) for pancreatic autoantibodies [islet cell autoantibodies(ICA), glutamic acid decarboxylase antibodies (GADA) and insulinoma-associated antigen-2 antibodies (IA-2A)]. Furthermore the study aimed at determining whether mutations in KCNJ11, ABCC8, HNF1A, HNF4A or INS are common in AAB negative diabetes. Materials and methods In 261 newly diagnosed children with type 1 diabetes, we measured residual β-cell function, ICA, GADA, and IA-2A at 1, 6 and 12 months after diagnosis. The genes KCNJ11, ABCC8, HNF1A, HNF4A and INS were sequenced in subjects AAB negative at diagnosis. We expressed recombinant K-ATP channels in Xenopus oocytes to analyse the functional effects of an ABCC8 mutation. Results Twenty-four patients (9.1%) tested AAB negative after one month. Patients, who were AAB-negative throughout the 12-month period, had higher residual β-cell function (P = 0.002), lower blood glucose (P = 0.004), received less insulin (P = 0.05) and had lower HbA1c (P = 0.02) 12 months after diagnosis. One patient had a heterozygous mutation leading to the substitution of arginine at residue 1530 of SUR1 (ABCC8) by cysteine. Functional analyses of recombinant K-ATP channels showed that R1530C markedly reduced the sensitivity of the K-ATP channel to inhibition by MgATP. Morover, the channel was highly sensitive to sulphonylureas. However, there was no effect of sulfonylurea treatment after four weeks on 1.0-1.2 mg/kg/24 h glibenclamide. Conclusion GAD, IA-2A, and ICA negative children with new onset type 1 diabetes have slower disease progression as assessed by residual beta-cell function and improved glycemic control 12 months after diagnosis. One out of 24 had a mutation in ABCC8, suggesting that screening of ABCC8 should be considered in patients with AAB negative type 1 diabetes.

Published

2010

6. Targets and teamwork:Understanding differences in pediatric diabetes centers treatment outcomes

Author

Skinner, Timothy C., Lange, Karin S., Hoey, Hilary, Mortensen, Henrik B., Aanstoot, Henk Jan, Castaňo, Luis, Skovlund, Soren, Swift, Peter Gf, Cameron, Fergus J., Dorchy, Harry R., Palmert, Mark R., Kaprio, Eero, Robert, Jean Jacques, Danne, Thomas, Shalitin, Shlomit, Chiarelli, Francesco, Chiari, Giovanni, Urakami, Tatsuhiko, Njølstad, Pål R., Jarosz-Chobot, Premyslawa K., Roche, Edna F., Castro-Correia, Cintia G., Kocova, Mirjana, Åman, Jan, Schönle, Eugen, Barrett, Timothy G., Fisher, Lynda, de Beaufort, Carine E., Skinner, Timothy C., Lange, Karin S., Hoey, Hilary, Mortensen, Henrik B., Aanstoot, Henk Jan, Castaňo, Luis, Skovlund, Soren, Swift, Peter Gf, Cameron, Fergus J., Dorchy, Harry R., Palmert, Mark R., Kaprio, Eero, Robert, Jean Jacques, Danne, Thomas, Shalitin, Shlomit, Chiarelli, Francesco, Chiari, Giovanni, Urakami, Tatsuhiko, Njølstad, Pål R., Jarosz-Chobot, Premyslawa K., Roche, Edna F., Castro-Correia, Cintia G., Kocova, Mirjana, Åman, Jan, Schönle, Eugen, Barrett, Timothy G., Fisher, Lynda, and de Beaufort, Carine E.

Abstract

Objective: The reason for center differences in metabolic control of childhood diabetes is still unknown. We sought to determine to what extent the targets, expectations, and goals that diabetes care professionals have for their patients is a determinant of center differences in metabolic outcomes. Research Design and Methods: Children, under the age of 11 with type 1 diabetes and their parents treated at the study centers participated. Clinical, medical, and demographic data were obtained, along with blood sample for centralized assay. Parents and all members of the diabetes care team completed questionnaires on treatment targets for hemoglobin A1c (HbA1c) and recommended frequency of blood glucose monitoring. Results: Totally 1113 (53% male) children (mean age 8.0±2.1years) from 18 centers in 17 countries, along with parents and 113 health-care professionals, participated. There were substantial differences in mean HbA1c between centers ranging from 7.3±0.8% (53mmol/mol±8.7) to 8.9±1.1% (74mmol/mol±12.0). Centers with lower mean HbA1c had (1) parents who reported lower targets for their children, (2) health-care professionals that reported lower targets and more frequent testing, and (3) teams with less disagreement about recommended targets. Multiple regression analysis indicated that teams reporting higher HbA1c targets and more target disagreement had parents reporting higher treatment targets. This seemed to partially account for center differences in Hb1Ac. Conclusions: The diabetes care teams' cohesiveness and perspectives on treatment targets, expectations, and recommendations have an influence on parental targets, contributing to the differences in pediatric diabetes center outcomes.

Published

2018

7. Targets and teamwork: Understanding differences in pediatric diabetes centers treatment outcomes

Author

Skinner, Timothy T.C., Lange, Karin K.S., Hoey, Hilary, Mortensen, Henrik Bindesbøl, Aanstoot, Henk Jan, Castaňo, Luis, Skovlund, Sören Eik, Swift, Peter G.F., Cameron, Fiona, Dorchy, Harry, Palmert, Mark, Kaprio, Eero, Robert, Jean-Jacques, Danne, Thomas, Neu, Andreas, Shalitin, Shlomit, Chiarelli, Francesco, Chiari, Giovanni, Urakami, Tatsuhiko, Njølstad, Pål Rasmus, Jarosz-Chobot, Premyslawa P.K., Roche, Edna E.F., Castro-Correia, Cíntia, Kocova, Mirjana, Åman, Jan, Schönle, Eugen, Barrett, Timothy Geoffrey, Fisher, Lynda, De Beaufort, Carine, Skinner, Timothy T.C., Lange, Karin K.S., Hoey, Hilary, Mortensen, Henrik Bindesbøl, Aanstoot, Henk Jan, Castaňo, Luis, Skovlund, Sören Eik, Swift, Peter G.F., Cameron, Fiona, Dorchy, Harry, Palmert, Mark, Kaprio, Eero, Robert, Jean-Jacques, Danne, Thomas, Neu, Andreas, Shalitin, Shlomit, Chiarelli, Francesco, Chiari, Giovanni, Urakami, Tatsuhiko, Njølstad, Pål Rasmus, Jarosz-Chobot, Premyslawa P.K., Roche, Edna E.F., Castro-Correia, Cíntia, Kocova, Mirjana, Åman, Jan, Schönle, Eugen, Barrett, Timothy Geoffrey, Fisher, Lynda, and De Beaufort, Carine

Abstract

Objective: The reason for center differences in metabolic control of childhood diabetes is still unknown. We sought to determine to what extent the targets, expectations, and goals that diabetes care professionals have for their patients is a determinant of center differences in metabolic outcomes. Research Design and Methods: Children, under the age of 11 with type 1 diabetes and their parents treated at the study centers participated. Clinical, medical, and demographic data were obtained, along with blood sample for centralized assay. Parents and all members of the diabetes care team completed questionnaires on treatment targets for hemoglobin A1c (HbA1c) and recommended frequency of blood glucose monitoring. Results: Totally 1113 (53% male) children (mean age 8.0 ± 2.1 years) from 18 centers in 17 countries, along with parents and 113 health-care professionals, participated. There were substantial differences in mean HbA1c between centers ranging from 7.3 ± 0.8% (53 mmol/mol ± 8.7) to 8.9 ± 1.1% (74 mmol/mol ± 12.0). Centers with lower mean HbA1c had (1) parents who reported lower targets for their children, (2) health-care professionals that reported lower targets and more frequent testing, and (3) teams with less disagreement about recommended targets. Multiple regression analysis indicated that teams reporting higher HbA1c targets and more target disagreement had parents reporting higher treatment targets. This seemed to partially account for center differences in Hb1Ac. Conclusions: The diabetes care teams’ cohesiveness and perspectives on treatment targets, expectations, and recommendations have an influence on parental targets, contributing to the differences in pediatric diabetes center outcomes., SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2018

8. Fas activation in adipocytes impairs insulin-stimulated glucose uptake by reducing Akt

Author

Wueest, Stephan, Rapold, Reto A., Schoenle, Eugen J., and Konrad, Daniel

Published

2010

9. Outcome of craniopharyngioma in children: long-term complications and quality of life.

Author

Poretti, Andrea, Grotzer, Michael A., Ribi, Karin, Schönle, Eugen, Boltshauser, Eugen, and Schönle, Eugen

Subjects

HYPOTHALAMUS, RADIOTHERAPY, SURGERY, TUMORS, QUALITY of life

Abstract

Childhood craniopharyngiomas are histologically benign tumours arising from remnants of Rathke's pouch in the hypothalamic-pituitary region. The two common treatment approaches are primary total resection or limited resection followed by radiotherapy. To study the outcome after a primary surgical approach, we followed 25 consecutive patients (10 females, 15 males) under 16 years of age who were treated in a single institution with a management policy of radical tumour excision (mean age at diagnosis 9 years 2 months, SD 4 years 3 months; range 2 years 9 months to 15 years 11 months). Mean follow-up after primary surgery was 11 years 3 months (SD 7 years 7 months). Tumour control, and neurological, endocrine, and hypothalamic complications and their impact on health-related quality of life were assessed (medical follow-up, semi-structured interview, and questionnaires). Results of tumour control were generally good, however, local failure was observed in 6 of 25 patients, and severe late-treatment complications decreased quality of life for many long-time survivors. Endocrine deficiency occurred in 24/25, visual complications in 16/24, neurological complications in 8/24, obesity in 14/23, increased daytime sleepiness in 6/21, and significant school problems in 10/20. Patients with craniopharyngioma rated their health-related quality of life as considerably lower than healthy controls; the domains of social and emotional functioning were particularly affected. Parents' ratings were considerably lower than those of the patients. Poor functional outcome was associated with large tumours infiltrating or displacing the hypothalamus, the occurrence of hydrocephalus, and young age at diagnosis, but also with multiple operations due to tumour recurrence. Alternative treatment strategies should be considered, especially in very young patients with large tumours. [ABSTRACT FROM AUTHOR]

Published

2004

10. Evaluation of a type 1 diabetes serum cohort by SELDI-TOF MS protein profiling

Author

Albrethsen, Jakob, primary, Kaas, Anne, additional, Schönle, Eugen, additional, Swift, Peter, additional, Kocova, Mirjana, additional, Gammeltoft, Steen, additional, Hansen, Lars, additional, and Mortensen, Henrik Bindesbøl, additional

Published

2009

11. A childhood fibrolamellar hepatocellular carcinoma with increased aromatase activity and a near triploid karyotype

Author

Hany, Manuela A., primary, Betts, David R., additional, Schmugge, Markus, additional, Schönle, Eugen, additional, Niggli, Felix K., additional, Zachmann, Milo, additional, and Plüss, Hans-Jürg, additional

Published

1997

12. Disease progression and search for monogenic diabetes among children with new onset type 1 diabetes negative for ICA, GAD- and IA-2Antibodies.

Author

Pörksen, Sven, Laborie, Lene Bjerke, Nielsen, Lotte, Andersen, Marie Louise Max, Sandal, Tone, de Wet, Heidi, Schwarcz, Erik, Åman, Jan, Swift, Peter, Kocova, Mirjana, Schönle, Eugen J., de Beaufort, Carine, Hougaard, Philip, Ashcroft, Frances, Molven, Anders, Knip, Mikael, Mortensen, Henrik B., Hansen, Lars, and Njølstad, Pål R.

Subjects

DISEASE progression, DIABETES in children, IMMUNOGLOBULINS, GLUTAMIC acid, GENETIC mutation, XENOPUS

Abstract

Background: To investigate disease progression the first 12 months after diagnosis in children with type 1 diabetes negative (AAB negative) for pancreatic autoantibodies [islet cell autoantibodies(ICA), glutamic acid decarboxylase antibodies (GADA) and insulinoma-associated antigen-2 antibodies (IA-2A)]. Furthermore the study aimed at determining whether mutations in KCNJ11, ABCC8, HNF1A, HNF4A or INS are common in AAB negative diabetes. Materials and methods: In 261 newly diagnosed children with type 1 diabetes, we measured residual β-cell function, ICA, GADA, and IA-2A at 1, 6 and 12 months after diagnosis. The genes KCNJ11, ABCC8, HNF1A, HNF4A and INS were sequenced in subjects AAB negative at diagnosis. We expressed recombinant K-ATP channels in Xenopus oocytes to analyse the functional effects of an ABCC8 mutation. Results: Twenty-four patients (9.1%) tested AAB negative after one month. Patients, who were AAB-negative throughout the 12-month period, had higher residual β-cell function (P = 0.002), lower blood glucose (P = 0.004), received less insulin (P = 0.05) and had lower HbA1c (P = 0.02) 12 months after diagnosis. One patient had a heterozygous mutation leading to the substitution of arginine at residue 1530 of SUR1 (ABCC8) by cysteine. Functional analyses of recombinant K-ATP channels showed that R1530C markedly reduced the sensitivity of the KATP channel to inhibition by MgATP. Morover, the channel was highly sensitive to sulphonylureas. However, there was no effect of sulfonylurea treatment after four weeks on 1.0-1.2 mg/kg/24 h glibenclamide. Conclusion: GAD, IA-2A, and ICA negative children with new onset type 1 diabetes have slower disease progression as assessed by residual beta-cell function and improved glycemic control 12 months after diagnosis. One out of 24 had a mutation in ABCC8, suggesting that screening of ABCC8 should be considered in patients with AAB negative type 1 diabetes. [ABSTRACT FROM AUTHOR]

Published

2010

13. Elevated IL10 and TNF Alpha Levels Are Associated with Increased Titres of Insulin Antibodies and Reduced C-Peptide Concentration in Young Children with Newly Diagnosed Type 1 Diabetes: Results from the Hvidoere Study Group.

Author

Mortensen, Henrik B., Pfleger, Christian, Chiarelli, Francesco, Kocova, Mirjana, Schönle, Eugen J., De Beaufort, Carine, Knip, Michael, Hougaard, Philip, Schloot, Nanette, and Hansen, Lars

Subjects

INTERLEUKIN-10, TUMOR necrosis factors, AUTOIMMUNE diseases, INSULIN, C-peptide, DIABETES in children, PANCREATIC beta cells

Abstract

Interleukin (IL10) and tumor necrosis factor alpha (TNFa) levels associate with antibody production in several autoimmune diseases (systemic lupus erythematosis, inflammatory bowel disease, myastenia gravis, rheumatoid arthritis and Wegeners granulomatosis). As insulin is a primary autoantigen in type 1 diabetes we therefore studied whether IL10 and TNFa associated with insulin autoantibodies (IAA) and residual beta-cell function in newly diagnosed type 1 diabetes. 256 patients (134 females, 122 males, age 9.6, range 0.2-16.8) with newly diagnosed TlD were followed for 12 mths. At 1, 6, 12 mths after diagnosis Boost-stimulated C-peptide test was carried out and serum IL 10 and TNFa levels were measured by ELISA and IAA titres by a radio ligand assay. Association of IL 10 and TNFa with IAA and residual betacell function were analysed by Spearman test, Wald test and logistic regression models including age and gender. IAA correlated negatively with age (p=0.016) and predicted loss of residual beta-cell function 12 months after diagnosis (p=0.011) independent of age and sex. IL10 and TNFa levels correlated throughout the 12 months period (p<0.0001), and both correlated with IAA at one month (p=0.002 and p=0.003). Between quartile 1 and 4 of IL10 and TNFa for IAA levels the OR were 1.953 (CI: 1.014-3.762). and 2.113 (CI:1.094-4.081), respectively. Only IL10 correlated negatively with residual beta-cell function at 1 month (p=0.005), 6 months (p=0.003) and 12 months (p=0.044), indicating that TNFa associates with IAA by its strong correlation with IL10. When accounting for age and sex the effect of IL10 on IAA and residual beta cell function dissappeared. Our study could not detect any relationship between IL10 or TNFa with IAA or residual beta cell function when age was accounted for. The strong effect of age per se makes it statistically very difficult to study the role of cytokines/chemokines in the pathogenesis of type 1 diabetes. [ABSTRACT FROM AUTHOR]

Published

2007

14. Elevated concentration of IGF II in brain tissue from an infant with macrencephaly

Author

Schoenle, Eugen J., Haselbacher, Gisela K., Briner, Jakob, Janzer, Robert C., Gammeltoft, Steen, Humbel, Rene E., and Prader, Andrea

Published

1986

15. Targets and teamwork: Understanding differences in pediatric diabetes centers treatment outcomes.

Author

Skinner TC, Lange KS, Hoey H, Mortensen HB, Aanstoot HJ, Castaňo L, Skovlund S, Swift PG, Cameron FJ, Dorchy HR, Palmert MR, Kaprio E, Robert JJ, Danne T, Neu A, Shalitin S, Chiarelli F, Chiari G, Urakami T, Njølstad PR, Jarosz-Chobot PK, Roche EF, Castro-Correia CG, Kocova M, Åman J, Schönle E, Barrett TG, Fisher L, and de Beaufort CE

Subjects

Child, Diabetes Mellitus, Type 1 blood, Female, Humans, Male, Parents psychology, Pediatrics standards, Ambulatory Care Facilities standards, Attitude of Health Personnel, Diabetes Mellitus, Type 1 therapy, Glycated Hemoglobin metabolism

Abstract

Objective: The reason for center differences in metabolic control of childhood diabetes is still unknown. We sought to determine to what extent the targets, expectations, and goals that diabetes care professionals have for their patients is a determinant of center differences in metabolic outcomes., Research Design and Methods: Children, under the age of 11 with type 1 diabetes and their parents treated at the study centers participated. Clinical, medical, and demographic data were obtained, along with blood sample for centralized assay. Parents and all members of the diabetes care team completed questionnaires on treatment targets for hemoglobin A1c (HbA1c) and recommended frequency of blood glucose monitoring., Results: Totally 1113 (53% male) children (mean age 8.0 ± 2.1 years) from 18 centers in 17 countries, along with parents and 113 health-care professionals, participated. There were substantial differences in mean HbA1c between centers ranging from 7.3 ± 0.8% (53 mmol/mol ± 8.7) to 8.9 ± 1.1% (74 mmol/mol ± 12.0). Centers with lower mean HbA1c had (1) parents who reported lower targets for their children, (2) health-care professionals that reported lower targets and more frequent testing, and (3) teams with less disagreement about recommended targets. Multiple regression analysis indicated that teams reporting higher HbA1c targets and more target disagreement had parents reporting higher treatment targets. This seemed to partially account for center differences in Hb1Ac., Conclusions: The diabetes care teams' cohesiveness and perspectives on treatment targets, expectations, and recommendations have an influence on parental targets, contributing to the differences in pediatric diabetes center outcomes., (© 2017 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2018

16. Evaluation of a type 1 diabetes serum cohort by SELDI-TOF MS protein profiling.

Author

Albrethsen J, Kaas A, Schönle E, Swift P, Kocova M, Gammeltoft S, Hansen L, and Mortensen HB

Abstract

Proteomics analysis of serum from patients with type 1 diabetes (T1D) may lead to novel biomarkers for prediction of disease and for patient monitoring. However, the serum proteome is highly sensitive to sample processing and before proteomics biomarker research serum cohorts should preferably be examined for potential bias between sample groups. SELDI-TOF MS protein profiling was used for preliminary evaluation of a biological-bank with 766 serum samples from 270 patients with T1D, collected at 18 different paediatric centers representing 15 countries in Europe and Japan over 2 years (2000-2002). Samples collected 1 (n = 270), 6 (n = 248), and 12 (n = 248) months after T1D diagnosis were grouped across centers and compared. The serum protein profiles varied with collection site and day of analysis; however, markers of sample processing were not systematically different between samples collected at different times after diagnosis. Three members of the apolipoprotein family increased with time in patient serum collected 1, 6, and 12 months after diagnosis (ANOVA, p<0.001). These results support the use of this serum cohort for further proteomic studies and illustrate the potential of high-throughput MALDI/SELDI-TOF MS protein profiling for evaluation of serum cohorts before proteomics biomarker research., (Copyright © 2009 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2009