Your search keyword '"Nolan, CJ"' showing total 9 results

1. G2P2C-A modular reinforcement learning algorithm for glucose control by glucose prediction and planning in Type 1 Diabetes

Author

Hettiarachchi, C, Malagutti, N, Nolan, CJ, Suominen, H, Daskalaki, E, Hettiarachchi, C, Malagutti, N, Nolan, CJ, Suominen, H, and Daskalaki, E

Published

2024

2. The Role of Fatty Acid Signaling in Islet Beta-Cell Adaptation to Normal Pregnancy

Author

Kim, J-H, Delghingaro-Augusto, V, Chan, JY, Laybutt, DR, Proietto, J, Nolan, CJ, Kim, J-H, Delghingaro-Augusto, V, Chan, JY, Laybutt, DR, Proietto, J, and Nolan, CJ

Abstract

BACKGROUND: Maintenance of a normal fetal nutrient supply requires major adaptations in maternal metabolic physiology, including of the islet beta-cell. The role of lipid signaling processes in the mechanisms of islet beta-cell adaptation to pregnancy has been minimally investigated. OBJECTIVE: To determine the effects of pregnancy on islet fatty acid (FA) metabolic partitioning and FA augmentation of glucose-stimulated insulin secretion (GSIS). METHODS: Age matched virgin, early pregnant (gestational day-11, G11) and late pregnant (G19) Sprague-Dawley rats were studied. Fasted and fed state biochemistry, oral glucose tolerance tests (OGTT), and fasted and post-OGTT liver glycogen, were determined to assess in vivo metabolic characteristics. In isolated islets, FA (BSA-bound palmitate 0.25 mmol/l) augmentation of GSIS, FA partitioning into esterification and oxidation processes using metabolic tracer techniques, lipolysis by glycerol release, triacylglycerols (TG) content, and the expression of key beta-cell genes were determined. RESULTS: Plasma glucose in pregnancy was lower, including during the OGTT (glucose area under the curve 0-120 min (AUC0-120); 655±24 versus 849±13 mmol.l-1.min; G19 vs virgin; P<0.0001), with plasma insulin concentrations equivalent to those of virgin rats (insulin AUC0-120; 97±7 versus 83±7 ng.ml-1.min; G19 vs virgin; not significant). Liver glycogen was depleted in fasted G19 rats with full recovery after oral glucose. Serum TG increased during pregnancy (4.4±0.4, 6.7±0.5; 17.1±1.5 mmol/l; virgin, G11, G19, P<0.0001), and islet TG content decreased (147±42, 172±27, 73±13 ng/µg protein; virgin, G11, G19; P<0.01). GSIS in isolated islets was increased in G19 compared to virgin rats, and this effect was augmented in the presence of FA. FA esterification into phospholipids, monoacylglycerols and TG were increased, whereas FA oxidation was reduced, in islets of pregnant compared to virgin rats, with variable effects on lipolysis dependent on

Published

2022

3. The Potential of Current Noninvasive Wearable Technology for the Monitoring of Physiological Signals in the Management of Type 1 Diabetes: Literature Survey

Author

Daskalaki, E, Parkinson, A, Brew-Sam, N, Hossain, MZ, O'Neal, D, Nolan, CJ, Suominen, H, Daskalaki, E, Parkinson, A, Brew-Sam, N, Hossain, MZ, O'Neal, D, Nolan, CJ, and Suominen, H

Abstract

BACKGROUND: Monitoring glucose and other parameters in persons with type 1 diabetes (T1D) can enhance acute glycemic management and the diagnosis of long-term complications of the disease. For most persons living with T1D, the determination of insulin delivery is based on a single measured parameter-glucose. To date, wearable sensors exist that enable the seamless, noninvasive, and low-cost monitoring of multiple physiological parameters. OBJECTIVE: The objective of this literature survey is to explore whether some of the physiological parameters that can be monitored with noninvasive, wearable sensors may be used to enhance T1D management. METHODS: A list of physiological parameters, which can be monitored by using wearable sensors available in 2020, was compiled by a thorough review of the devices available in the market. A literature survey was performed using search terms related to T1D combined with the identified physiological parameters. The selected publications were restricted to human studies, which had at least their abstracts available. The PubMed and Scopus databases were interrogated. In total, 77 articles were retained and analyzed based on the following two axes: the reported relations between these parameters and T1D, which were found by comparing persons with T1D and healthy control participants, and the potential areas for T1D enhancement via the further analysis of the found relationships in studies working within T1D cohorts. RESULTS: On the basis of our search methodology, 626 articles were returned, and after applying our exclusion criteria, 77 (12.3%) articles were retained. Physiological parameters with potential for monitoring by using noninvasive wearable devices in persons with T1D included those related to cardiac autonomic function, cardiorespiratory control balance and fitness, sudomotor function, and skin temperature. Cardiac autonomic function measures, particularly the indices of heart rate and heart rate variability, have been show

Published

2022

4. Integrating Multiple Inputs Into an Artificial Pancreas System: Narrative Literature Review.

Author

Hettiarachchi, C, Daskalaki, E, Desborough, J, Nolan, CJ, O'Neal, D, Suominen, H, Hettiarachchi, C, Daskalaki, E, Desborough, J, Nolan, CJ, O'Neal, D, and Suominen, H

Abstract

BACKGROUND: Type 1 diabetes (T1D) is a chronic autoimmune disease in which a deficiency in insulin production impairs the glucose homeostasis of the body. Continuous subcutaneous infusion of insulin is a commonly used treatment method. Artificial pancreas systems (APS) use continuous glucose level monitoring and continuous subcutaneous infusion of insulin in a closed-loop mode incorporating a controller (or control algorithm). However, the operation of APS is challenging because of complexities arising during meals, exercise, stress, sleep, illnesses, glucose sensing and insulin action delays, and the cognitive burden. To overcome these challenges, options to augment APS through integration of additional inputs, creating multi-input APS (MAPS), are being investigated. OBJECTIVE: The aim of this survey is to identify and analyze input data, control architectures, and validation methods of MAPS to better understand the complexities and current state of such systems. This is expected to be valuable in developing improved systems to enhance the quality of life of people with T1D. METHODS: A literature survey was conducted using the Scopus, PubMed, and IEEE Xplore databases for the period January 1, 2005, to February 10, 2020. On the basis of the search criteria, 1092 articles were initially shortlisted, of which 11 (1.01%) were selected for an in-depth narrative analysis. In addition, 6 clinical studies associated with the selected studies were also analyzed. RESULTS: Signals such as heart rate, accelerometer readings, energy expenditure, and galvanic skin response captured by wearable devices were the most frequently used additional inputs. The use of invasive (blood or other body fluid analytes) inputs such as lactate and adrenaline were also simulated. These inputs were incorporated to switch the mode of the controller through activity detection, directly incorporated for decision-making and for the development of intermediate modules for the controller. The validati

Published

2022

5. The current understanding of precision medicine and personalised medicine in selected research disciplines: study protocol of a systematic concept analysis

Author

Brew-Sam, N, Parkinson, A, Lueck, C, Brown, E, Brown, K, Bruestle, A, Chisholm, K, Collins, S, Cook, M, Daskalaki, E, Drew, J, Ebbeck, H, Elisha, M, Fanning, V, Henschke, A, Herron, J, Matthews, E, Murugappan, K, Neshev, D, Nolan, CJ, Pedley, L, Phillips, C, Suominen, H, Tricoli, A, Wright, K, Desborough, J, Brew-Sam, N, Parkinson, A, Lueck, C, Brown, E, Brown, K, Bruestle, A, Chisholm, K, Collins, S, Cook, M, Daskalaki, E, Drew, J, Ebbeck, H, Elisha, M, Fanning, V, Henschke, A, Herron, J, Matthews, E, Murugappan, K, Neshev, D, Nolan, CJ, Pedley, L, Phillips, C, Suominen, H, Tricoli, A, Wright, K, and Desborough, J

Abstract

INTRODUCTION: The terms 'precision medicine' and 'personalised medicine' have become key terms in health-related research and in science-related public communication. However, the application of these two concepts and their interpretation in various disciplines are heterogeneous, which also affects research translation and public awareness. This leads to confusion regarding the use and distinction of the two concepts. Our aim is to provide a snapshot of the current understanding of these concepts. METHODS AND ANALYSIS: Our study will use Rodgers' evolutionary concept analysis to systematically examine the current understanding of the concepts 'precision medicine' and 'personalised medicine' in clinical medicine, biomedicine (incorporating genomics and bioinformatics), health services research, physics, chemistry, engineering, machine learning and artificial intelligence, and to identify their respective attributes (clusters of characteristics) and surrogate and related terms. A systematic search of the literature will be conducted for 2016-2022 using databases relevant to each of these disciplines: ACM Digital Library, CINAHL, Cochrane Library, F1000Research, IEEE Xplore, PubMed/Medline, Science Direct, Scopus and Web of Science. These are among the most representative databases for the included disciplines. We will examine similarities and differences in definitions of 'precision medicine' and 'personalised medicine' in the respective disciplines and across (sub)disciplines, including attributes of each term. This will enable us to determine how these two concepts are distinguished. ETHICS AND DISSEMINATION: Following ethical and research standards, we will comprehensively report the methodology for a systematic analysis following Rodgers' concept analysis method. Our systematic concept analysis will contribute to the clarification of the two concepts and distinction in their application in given settings and circumstances. Such a broad concept analysis will contri

Published

2022

6. Multifocal pupillographic objective perimetry for assessment of early diabetic retinopathy and generalised diabetes-related tissue injury in persons with type 1 diabetes.

Author

Sabeti, F, Carle, CF, Nolan, CJ, Jenkins, AJ, James, AC, Baker, L, Coombes, CE, Cheung, V, Chiou, M, Maddess, T, Sabeti, F, Carle, CF, Nolan, CJ, Jenkins, AJ, James, AC, Baker, L, Coombes, CE, Cheung, V, Chiou, M, and Maddess, T

Abstract

BACKGROUND: To examine the potential utility of five multifocal pupillographic objective perimetry (mfPOP) protocols, in the assessment of early diabetic retinopathy (DR) and generalised diabetes-related tissue injury in subjects with type 1 diabetes (T1D). METHODS: Twenty-five T1D subjects (age 41.8 ± 12.1 (SD) years, 13 male) with either no DR (n = 13) or non-proliferative DR (n = 12), and 23 age and gender-matched control subjects (age 39.7 ± 12.9 years, 9 male) were examined by mfPOP using five different stimulus methods differing in visual field eccentricity (central 30° and 60°), and colour (blue, yellow or green test-stimuli presented on, respectively, a blue, yellow or red background), each assessing 44 test-locations per eye. In the T1D subjects, we assessed 16 metabolic status and diabetes complications variables. These were summarised as three principal component analysis (PCA) factors. DR severity was assessed using Early Treatment of Diabetic Retinopathy Study (ETDRS) scores. Area under the curve (AUC) from receiver operator characteristic analyses quantified the diagnostic power of mfPOP response sensitivity and delay deviations for differentiating: (i) T1D subjects from control subjects, (ii) T1D subjects according to three levels of the identified PCA-factors from control subjects, and (iii) TID subjects with from those without non-proliferative DR. RESULTS: The two largest PCA-factors describing the T1D subjects were associated with metabolic variables (e.g. body mass index, HbA1c), and tissue-injury variables (e.g. serum creatinine, vibration perception). Linear models showed that mfPOP per-region response delays were more strongly associated than sensitivities with the metabolic PCA-factor and ETDRS scores. Combined mfPOP amplitude and delay measures produced AUCs of 90.4 ± 8.9% (mean ± SE) for discriminating T1D subjects with DR from control subjects, and T1D subjects with DR from those without of 85.9 ± 8.8%. The yellow and green stimuli perform

Published

2022

7. Antenatal models of care for women with gestational diabetes mellitus: Vignettes from an international meeting

Author

Sina, M, Cade, TJ, Flack, J, Nolan, CJ, Rajagopal, R, Wong, V, Burcher, L, Barry, A, Gianatti, E, McCarthy, A, McNamara, C, Mickelson, M, Hughes, R, Jones, T, Latino, C, McIntyre, D, Price, S, Simmons, D, Sina, M, Cade, TJ, Flack, J, Nolan, CJ, Rajagopal, R, Wong, V, Burcher, L, Barry, A, Gianatti, E, McCarthy, A, McNamara, C, Mickelson, M, Hughes, R, Jones, T, Latino, C, McIntyre, D, Price, S, and Simmons, D

Abstract

BACKGROUND: Gestational diabetes (GDM) is one of the commonest pregnancy complications and is placing an increasing burden on diabetes and obstetric resources. AIMS: To describe different antenatal models of care that have developed to address the increasing proportion of pregnancies complicated by GDM. MATERIALS AND METHODS: Narrative review with thematic analysis from 15 volunteer antenatal diabetes in pregnancy services from Australia and New Zealand identified through a national diabetes organisation. Main outcomes were approaches to patient education, medical nutrition therapy (MNT), ongoing management and escalation of therapy for women with GDM. RESULTS: All clinics provided at least one group education and one MNT session within 1-2 weeks of GDM diagnosis. Women from culturally and linguistically diverse communities usually required 1:1 education. Ongoing management of women with GDM was through either all women being seen in the GDM clinic, a step-up approach (ongoing management by the primary antenatal team with diabetes team referral if self-blood glucose monitoring (SBGM) or insulin therapy dosage criteria are reached) or step-down approach (ongoing management by the diabetes team with step-down to the primary antenatal team if SBGM criteria are reached). Telehealth was used to reduce the burden of clinic attendance, particularly in rural areas. CONCLUSIONS: Increasing numbers, earlier diagnoses, the need to provide care to women in rural, remote areas, and cultural/language differences, have generated a range of different antenatal models of care, allowed better workload accommodation and probably reduced costs. Randomised controlled trials of different models of care, with associated health economic analyses, are urgently needed.

Published

2020

8. High Passage MIN6 Cells Have Impaired Insulin Secretion with Impaired Glucose and Lipid Oxidation

Author

Sesti, G, Cheng, K, Delghingaro-Augusto, V, Nolan, CJ, Turner, N, Hallahan, N, Andrikopoulos, S, Gunton, JE, Sesti, G, Cheng, K, Delghingaro-Augusto, V, Nolan, CJ, Turner, N, Hallahan, N, Andrikopoulos, S, and Gunton, JE

Abstract

Type 2 diabetes is a metabolic disorder characterized by the inability of beta-cells to secrete enough insulin to maintain glucose homeostasis. MIN6 cells secrete insulin in response to glucose and other secretagogues, but high passage (HP) MIN6 cells lose their ability to secrete insulin in response to glucose. We hypothesized that metabolism of glucose and lipids were defective in HP MIN6 cells causing impaired glucose stimulated insulin secretion (GSIS). HP MIN6 cells had no first phase and impaired second phase GSIS indicative of global functional impairment. This was coupled with a markedly reduced ATP content at basal and glucose stimulated states. Glucose uptake and oxidation were higher at basal glucose but ATP content failed to increase with glucose. HP MIN6 cells had decreased basal lipid oxidation. This was accompanied by reduced expressions of Glut1, Gck, Pfk, Srebp1c, Ucp2, Sirt3, Nampt. MIN6 cells represent an important model of beta cells which, as passage numbers increased lost first phase but retained partial second phase GSIS, similar to patients early in type 2 diabetes onset. We believe a number of gene expression changes occurred to produce this defect, with emphasis on Sirt3 and Nampt, two genes that have been implicated in maintenance of glucose homeostasis.

Published

2012

9. International Association of Diabetes and Pregnancy Study Groups Recommendations on the Diagnosis and Classification of Hyperglycemia in Pregnancy

Author

Metzger, BE, Gabbe, SG, Persson, B, Buchanan, TA, Catalano, PM, Damm, P, Dyer, AR, de Leiva, A, Hod, M, Kitzmiller, JL, Lowe, LP, McIntyre, HD, Oats, JJN, Omori, Y, Schmidt, MI, Balaji, V, Callaghan, WM, Chen, R, Conway, D, Corcoy, R, Coustan, DR, Dabelea, D, Fagen, C, Feig, DS, Ferrara, A, Geil, P, Hadden, DR, Hillier, TA, Hiramatsu, Y, Houde, G, Inturissi, M, Jang, HC, Jovanovic, L, Kautsky-Willer, A, Kirkman, MS, Kjos, SL, Landon, MB, Lapolla, A, Lowe, J, Mathiesen, HER, Mello, G, Meltzer, SJ, Moore, TR, Nolan, CJ, Ovesen, P, Pettitt, D, Reader, DM, Rowan, JA, Sacks, DA, Schaefer-Graf, U, Seshiah, V, Simmons, D, Sugiyama, T, Trimble, ER, Varma, S, Yang, H, Yasuhi, I, Metzger, BE, Gabbe, SG, Persson, B, Buchanan, TA, Catalano, PM, Damm, P, Dyer, AR, de Leiva, A, Hod, M, Kitzmiller, JL, Lowe, LP, McIntyre, HD, Oats, JJN, Omori, Y, Schmidt, MI, Balaji, V, Callaghan, WM, Chen, R, Conway, D, Corcoy, R, Coustan, DR, Dabelea, D, Fagen, C, Feig, DS, Ferrara, A, Geil, P, Hadden, DR, Hillier, TA, Hiramatsu, Y, Houde, G, Inturissi, M, Jang, HC, Jovanovic, L, Kautsky-Willer, A, Kirkman, MS, Kjos, SL, Landon, MB, Lapolla, A, Lowe, J, Mathiesen, HER, Mello, G, Meltzer, SJ, Moore, TR, Nolan, CJ, Ovesen, P, Pettitt, D, Reader, DM, Rowan, JA, Sacks, DA, Schaefer-Graf, U, Seshiah, V, Simmons, D, Sugiyama, T, Trimble, ER, Varma, S, Yang, H, and Yasuhi, I

Published

2010