Your search keyword '"Michele O’Connell"' showing total 6 results

1. Best Practice for Identification of Classical 21-Hydroxylase Deficiency Should Include 21 Deoxycortisol Analysis with Appropriate Isomeric Steroid Separation

Author

Ronda F. Greaves, Monish Kumar, Nazha Mawad, Alberto Francescon, Chris Le, Michele O’Connell, James Chi, and James Pitt

Subjects

21-deoxycortisol, method validation, isobaric steroids, interferences, congenital adrenal hyperplasia, liquid chromatography–tandem mass spectrometry, Pediatrics, RJ1-570

Abstract

There are mixed reports on the inclusion and use of 21 deoxycortisol (21DF) as the primary decision marker for classical 21-hydroxylase deficiency. We hypothesize that this may be due to insufficient recognition of the presence and chromatographic separation of isomeric steroids. The aim of this study was to determine the comparative utility of 21DF for screening and diagnosis of CAH due to classical 21-hydroxylase deficiency using a second-tier LC–MS/MS method that included the separation of isomeric steroids to 17OHP and 21DF. For each baby sample, one 3.2 mm dried blood spot was eluted in a methanolic solution containing isotopically matched internal standards. Data were interrogated by univariate and receiver operator characteristic analysis. Steroid profile results were generated for 924 non-CAH baby samples (median gestational age 37 weeks, range 22 to 43 weeks) and 17 babies with 21-hydroxylase deficiency. The ROC curves demonstrated 21DF to have the best sensitivity and specificity for the diagnosis of classical 21-hydroxylase deficiency with an AUC = 1.0. The heatmap showed the very strong correlation (r = 0.83) between 17OHP and 21DF. Our data support 21DF as a robust marker for CAH due to 21-hydroxylase deficiency. We recommend that 21DF be incorporated into routine newborn screening panels as part of the second-tier LC–MS/MS method, follow-up plasma steroid panels, and external quality assurance material.

Published

2023

2. Glucose tolerance during pulmonary exacerbations in children with cystic fibrosis.

Author

John Widger, Mark R Oliver, Michele O'Connell, Fergus J Cameron, Sarath Ranganathan, and Phil J Robinson

Subjects

Medicine, Science

Abstract

BACKGROUND: Patients with Cystic Fibrosis (CF) are relatively insulinopenic and are at risk of diabetes, especially during times of stress. There is a paucity of data in the literature describing glucose tolerance during CF pulmonary exacerbations. We hypothesised that glucose tolerance would be worse during pulmonary exacerbations in children with CF than during clinical stability. METHODS: Patients with CF, 10 years or older, admitted with a pulmonary exacerbation underwent an OGTT within 48 hours of admission. A repeat OGTT was performed 4 to 6 weeks post discharge when the patients were well. RESULTS: Nine patients completed the study. Four patients were found to have normal glucose tolerance, 3 with impaired and 2 with CF related diabetes during the exacerbation. Mean change in 2-hour glucose was 1.1 mmol (SD = 0.77). At the follow up OGTT, 8 of 9 (89%) remained within their respective glucose tolerance status groupings. CONCLUSION: The findings of this study show that there is little difference in glucose tolerance during CF exacerbations compared to clinical stability in the majority of patients.

Published

2012

3. Genetic Variants in SRD5A2 in a Spectrum of DSD Patients from Australian Clinics Highlight Importance of Genetic Testing alongside Typical First-Line Investigations

Author

Gorjana Robevska, Chloe Hanna, Jocelyn van den Bergen, John Welch, Jennifer Couper, Shannon Harris, Kriti Joshi, Justin Brown, Matthew Sabin, Andrew Sinclair, Michele O’Connell, and Katie Ayers

Subjects

Embryology, Endocrinology, Diabetes and Metabolism, Developmental Biology

Abstract

Introduction: Steroid 5-alpha reductase deficiency (5α-R2D) is a rare condition caused by genetic variants that reduce the activity of the enzyme that converts testosterone into dihydrotestosterone. The clinical spectrum of 5α-R2D is known to overlap with other 46,XY differences of sex development (DSD) such as androgen insensitivity or gonadal dysgenesis. However, the clinical trajectories of the aetiologies can differ, with 5α-R2D presenting its own challenges. Methods: In this study, we have collated clinical information for five individuals with variants in SRD5A2 identified using research genetic testing in an Australian paediatric setting. Results: We describe how a genetic finding resolved or confirmed a diagnosis for these individuals and how it guided clinical management and family counselling. Conclusion: This work highlights the importance of early genetic testing in children born with 46,XY DSD where it complements traditional first-line testing.

Published

2023

4. Increasing evidence of the benefits of a transition coordinator in type 1 diabetes

Author

Mary, White, Michele, O'Connell, Katharine, Steinbeck, Raghu, Lingam, and Fergus, Cameron

Subjects

Glycated Hemoglobin, Diabetes Mellitus, Type 1, Diabetes Mellitus, Type 2, Humans

Published

2021

5. Recessive mutations in the INS gene result in neonatal diabetes through reduced insulin biosynthesis

Author

Jose M. Rial, Lorna W. Harries, Sian Ellard, Kusiel Perlman, Adnan Alshaikh, Khalid Hussain, Zdenek Sumnik, Thiruvengadam Vasanthi, Ildem Akerman, Rüveyde Bundak, Juan M. Fernandez, Guiomar Perez de Nanclares, Dorothee Deiss, Emma L. Edghill, Karen A. Johnstone, Gabriel del Castillo, Jonathan M. Locke, Eduardo Fernandez-Rebollo, Noel G. Morgan, Miguel A. Maestro, Estibaliz Ugarte, Thomasz Klupa, Sarah E. Flanagan, Oscar Rubio-Cabezas, Fauzia Mohsin, Stanislava Kolouskova, Michele O’Connell, Itxaso Rica, Luis Castaño, Asma Deeb, Jorge Ferrer, Carlos Castaño, Klemens Raile, Rosa de Diego Martínez, Intza Garin, Ann-Marie Patch, Koumudi Godbole, and Andrew T. Hattersley

Subjects

Male, Preproinsulin, medicine.medical_treatment, DNA Mutational Analysis, Gene Dosage, Genes, Recessive, 030209 endocrinology & metabolism, Biology, Gene dosage, 03 medical and health sciences, Diabetes mellitus genetics, 0302 clinical medicine, Diabetes mellitus, Diabetes Mellitus, medicine, Humans, Insulin, Protein Precursors, Gene, DNA Primers, 030304 developmental biology, Proinsulin, Regulation of gene expression, Genetics, 0303 health sciences, Multidisciplinary, Infant, Newborn, Biological Sciences, medicine.disease, Mutation, Oligonucleotide Probes

Abstract

Heterozygous coding mutations in the INS gene that encodes preproinsulin were recently shown to be an important cause of permanent neonatal diabetes. These dominantly acting mutations prevent normal folding of proinsulin, which leads to beta-cell death through endoplasmic reticulum stress and apoptosis. We now report 10 different recessive INS mutations in 15 probands with neonatal diabetes. Functional studies showed that recessive mutations resulted in diabetes because of decreased insulin biosynthesis through distinct mechanisms, including gene deletion, lack of the translation initiation signal, and altered mRNA stability because of the disruption of a polyadenylation signal. A subset of recessive mutations caused abnormal INS transcription, including the deletion of the C1 and E1 cis regulatory elements, or three different single base-pair substitutions in a CC dinucleotide sequence located between E1 and A1 elements. In keeping with an earlier and more severe beta-cell defect, patients with recessive INS mutations had a lower birth weight (−3.2 SD score vs. −2.0 SD score) and were diagnosed earlier (median 1 week vs. 10 weeks) compared to those with dominant INS mutations. Mutations in the insulin gene can therefore result in neonatal diabetes as a result of two contrasting pathogenic mechanisms. Moreover, the recessively inherited mutations provide a genetic demonstration of the essential role of multiple sequence elements that regulate the biosynthesis of insulin in man.

Published

2010

6. Clinical Scenarios

Author

Michele O’Connell, Annemieke M. Boot, Martin Ritzen, Margaret Zacharin, Leena Patel, Anna Simon, and Vijayalakshmi Bhatia

Subjects

Medical education, Interpretation (philosophy), education, Working through, Plan (drawing), Psychology, Advice (programming)

Abstract

This chapter provides a series of clinical vignettes for use by the paediatrician, to assist with managing a patient when there may not be available local expertise or advice. They have been devised by several endocrinologists, to demonstrate methods of working through a clinical problem, with a plan for management together with interpretation of data.

Published

2013