Emerging trends in optical sensing of glycemic markers for diabetes monitoring

Pandey, Rishikesh; Dingari, Narahara Chari; Spegazzini, Nicolás; Dasari, Ramachandra R.; Horowitz, Gary L.; Barman, Ishan

doi:10.1016/j.trac.2014.09.005

Cited by 48 publications

(34 citation statements)

References 81 publications

(55 reference statements)

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“…Although there is growing interest in, amongst others, glycated albumin and fructosamin as alternative markers of glycaemic control, HbA1c remains the gold standard biomarker of glycaemia [ 12 ]. It has been used as a universally accepted means for monitoring glycaemic control for more than three decades [ 13 ].…”

Section: Methodsmentioning

confidence: 99%

Differences in biopsychosocial profiles of diabetes patients by level of glycaemic control and health-related quality of life: The Maastricht Study

et al. 2017

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AimsTailored, patient-centred innovations are needed in the care for persons with type 2 diabetes mellitus (T2DM), in particular those with insufficient glycaemic control. Therefore, this study sought to assess their biopsychosocial characteristics and explore whether distinct biopsychosocial profiles exist within this subpopulation, which differ in health-related quality of life (HRQoL).MethodsCross-sectional study based on data from The Maastricht Study, a population-based cohort study focused on the aetiology, pathophysiology, complications, and comorbidities of T2DM. We analysed associations and clustering of glycaemic control and HRQoL with 38 independent variables (i.e. biopsychosocial characteristics) in different subgroups and using descriptive analyses, latent class analysis (LCA), and logistic regressions.ResultsIncluded were 840 persons with T2DM, mostly men (68.6%) and with a mean age of 62.6 (±7.7) years. Mean HbA1c was 7.1% (±3.2%); 308 patients (36.7%) had insufficient glycaemic control (HbA1c>7.0% [53 mmol/mol]). Compared to those with sufficient control, these patients had a significantly worse-off status on multiple biopsychosocial factors, including self-efficacy, income, education and several health-related characteristics. Two ‘latent classes’ were identified in the insufficient glycaemic control subgroup: with low respectively high HRQoL. Of the two, the low HRQoL class comprised about one-fourth of patients and had a significantly worse biopsychosocial profile.ConclusionsInsufficient glycaemic control, particularly in combination with low HRQoL, is associated with a generally worse biopsychosocial profile. Further research is needed into the complex and multidimensional causal pathways explored in this study, so as to increase our understanding of the heterogeneous care needs and preferences of persons with T2DM, and translate this knowledge into tailored care and support arrangements.

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Section: Methodsmentioning

confidence: 99%

Differences in biopsychosocial profiles of diabetes patients by level of glycaemic control and health-related quality of life: The Maastricht Study

et al. 2017

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“…This in turn would cause a great reduction in sample variability, enabling to build calibration models easily, but is completely useless for a real-case application, where the individual variability is a major challenge. 48 In the case of°uorescence, the blood spectra are dominated by haemoglobin°uorescence from the RBCs. The blood-equivalent phantoms should be a viable model in this case for exploring the auto-°u orescence and photobleaching e®ects, 49 yet only to the extent when the°uorescence from chemical compounds in plasma can be neglected.…”

Section: Discussionmentioning

confidence: 99%

Blood equivalent phantom vs whole human blood, a comparative study

Karpienko

Gnyba

Milewska

et al. 2016

J. Innov. Opt. Health Sci.

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Preclinical research of biomedical optoelectronic devices is often performed with the use of blood phantoms -a simpli¯ed physical model of blood. The aim of this study is the comparison and distinction between blood phantoms as well as whole human blood measurements. We show how the use of such phantoms may in°uence the incorrect interpretation of measured signal. On the other hand, we highlight how the use of blood phantoms enables to investigate the phenomena that otherwise are almost impossible to be noticed.

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“…Raman Effect was first discovered in 1928 by Chandrasekhara Ramanan. In 1970 with the [88]. With this improvement higher intensity signals can be obtained [89].…”

Section: Descriptionmentioning

confidence: 99%

Review: Non-Invasive Continuous Blood Glucose Measurement Techniques

Nawaz

Øhlckers

Sælid

et al. 2016

JBD

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Diabetes is a metabolic disorder that results in human body due to insulin deficiency, insulin resistance or both. In the management of diabetes, glucose monitoring technology has been used for the last three decades. The aim of this review article is to describe concise and organized information about different techniques of non-invasive continuous blood glucose monitoring. Many research groups have been working to develop wearable sensors for continuous blood glucose monitoring, but at present, there are to our knowledge no commercially successful non-invasive glucose monitors on the market. To achieve an acceptable sensor system, a glucose sensor should have accuracy better than 15mg/dl (0.8 mmol/l).In future development, continuous glucose sensor systems may become predictable, selective, reliable and acceptable for patient use.

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Emerging trends in optical sensing of glycemic markers for diabetes monitoring

Cited by 48 publications

References 81 publications

Differences in biopsychosocial profiles of diabetes patients by level of glycaemic control and health-related quality of life: The Maastricht Study

Differences in biopsychosocial profiles of diabetes patients by level of glycaemic control and health-related quality of life: The Maastricht Study

Blood equivalent phantom vs whole human blood, a comparative study

Review: Non-Invasive Continuous Blood Glucose Measurement Techniques

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