Your search keyword '"Mighiu, A."' showing total 16 results

1. Laboratory Assessment for Determining Microplastics in Freshwater Systems—Characterization and Identification along the Somesul Mic River.

Author

Gheorghe, Stefania, Stoica, Catalina, Harabagiu, Anca Maria, Neidoni, Dorian-Gabriel, Mighiu, Emanuel Daniel, Bumbac, Costel, Ionescu, Ioana Alexandra, Pantazi, Aida, Enache, Laura-Bianca, and Enachescu, Marius

Subjects

MICROPLASTICS, FRESH water, ENVIRONMENTAL protection, SCANNING electron microscopy, POLYPROPYLENE, MONOCHROMATIC light, IDENTIFICATION

Abstract

Microplastics (MPs) pollution has become a persisting problem over the last decades and is a critical issue for environmental protection and human health. In this context, scientific data able to reveal MPs presence and improve the characterization and identification of this pollution via different systems are valuable. The aim of this paper is to assess available techniques for determining MPs in real freshwater samples and subsequently to highlight the occurrence and type of MPs in the study case area (Somesul Mic River). The MPs sampling was performed from fresh water and sediment using planktonic nets and sieves with different mesh sizes (from 20 to 500 µm). Using both classical microscopic techniques as well as scanning electron microscopy (SEM), large (1–5 mm) and small (1 µm to 1 mm) MPs were observed in the shape of fibers, fragments, foam, foils and spheres in various colors (red, green, blue, purple, pink, white, black, transparent, and opaque). Raman and FT-IR spectroscopic methods were used for MPs identification. The presence of polyethylene (PE), polypropylene (PP), and polystyrene (PS) was registered for all sampling points. The MPs laboratory investigations have raised some issues regarding the identification of MPs particles smaller than 500 µm, these being characterized especially under microscope. Some small MPs particles were identified using micro-Raman spectroscopy that highlighted the same type of polymers. No differences were registered between the sampling points due to the widespread presence of MPs. The sediment samples presented a greater abundance as compared to the water samples. Overall, it is necessary to continue the optimization of MPs separation protocol and identification according to the complexity of samples, mainly due to the limitation and lack of spectral databases. [ABSTRACT FROM AUTHOR]

Published

2024

2. Health state utilities for beta-thalassemia: a time trade-off study.

Author

Martin, Antony P., Ferri Grazzi, Enrico, Mighiu, Claudia, Chevli, Manoj, Shah, Farrukh, Maher, Louise, Shaikh, Anum, Sagar, Aliah, Hubberstey, Hayley, Franks, Bethany, Ramos-Goñi, Juan M., Oppe, Mark, and Tang, Derek

Subjects

BETA-Thalassemia, CHELATION therapy, IRON, BLOOD transfusion, WELL-being

Abstract

Background: Beta-thalassemia (BT) is an inherited blood disorder characterized by reduced levels of functional hemoglobin resulting in phenotypes ranging from clinically asymptomatic to severely anemic. Patients with BT may require lifelong regular blood transfusions supported by appropriate iron chelation therapy (ICT). This study aimed to determine how the UK general population values BT health states associated with differing transfusion burden and ICT. Methods: Composite time trade-off (cTTO) methodology was employed to elicit health state utilities in BT. Relevant BT literature related to symptom and quality-of-life impact, including physical, functional, and emotional well-being, and safety profiles of BT treatments were considered when drafting health state descriptions. Eleven health state descriptions were developed and validated by hematologists and patient advocates for clinical accuracy and completeness. 200 individuals from the UK general population participated in the cTTO interviews. Results: The mean age of participants was 41.50 years (SD 16.01, range 18–81); 88 (46.8%) were female. Utility values ranged from 0.78 (SD 0.34) for non-transfusion dependent BT with oral ICT to 0.37 (SD 0.50) for high transfusion burden with subcutaneous ICT in transfusion-dependent BT. Conclusions: This study provides health utilities for a range of BT health states from the UK general population perspective. Importantly, lower transfusion burden and lower burden of anemia were associated with higher utilities. To a lesser extent, differential modes of ICT were found to impact utility valuations in patients with BT. The utilities obtained in this study can be employed as inputs in cost-effectiveness analyses of BT therapies. [ABSTRACT FROM AUTHOR]

Published

2023

3. Impact of progressive familial intrahepatic cholestasis on caregivers: caregiver-reported outcomes from the multinational PICTURE study.

Author

Mighiu, Claudia, O'Hara, Sonia, Ferri Grazzi, Enrico, Murray, Karen F., Schattenberg, Jörn M., Ventura, Emily, Karakaidos, Melanie, Taylor, Alison, Brrang, Harpreet, Dhawan, Anil, Willemse, Jose, and Finnegan, Alan

Subjects

CAREGIVERS, CHOLESTASIS, INTERPERSONAL relations, LABOR productivity, MENTAL illness

Abstract

Background: Progressive familial intrahepatic cholestasis (PFIC) is a spectrum of rare genetic diseases characterized by inadequate bile secretion that requires substantial ongoing care, though little research is published in this area. We report health-related quality of life (HRQoL) and work productivity outcomes from the retrospective, cross-sectional PICTURE study investigating the burden of PFIC on caregivers. Information from caregivers of patients with PFIC 1 or 2 in Germany, the United Kingdom and the United States from September 2020 to March 2021 was included.Results: The PICTURE study sample comprised HRQoL responses from 22 PFIC caregivers. Patients were on average 8.2 years old; most caregivers were 30-49 years old (68%) and mothers (77%). Median CarerQoL-7D score was 67.7/100; mean CarerQoL-VAS score for general happiness was 5.7/10 (SD 2.1). Most caregivers reported fulfilment in their caregiving responsibilities, but problems with mental and physical health, finances, and relationships. When stratified by patient's PFIC type, mean CarerQoL-7D and CarerQoL-VAS scores suggested worse HRQoL outcomes with PFIC2 versus PFIC1 (59.4 vs. 71.2, and 5.3 vs. 6.5, respectively). Additionally, more caregivers reported impact on sleep in the PFIC2 versus PFIC1 subgroup (93% vs. 75%). When stratified by history of PFIC-related surgeries, mean CarerQoL-7D and VAS scores were higher among those whose children had no specified surgeries (67.7 vs. 59.0/100 and 6.2 vs. 5.2/10, respectively). Nearly all caregivers reported an impact of caregiving responsibilities on sleeping (86%) and on personal relationships (82%). No caregivers reported having formal care support. Most caregivers were employed (73%); a third reported mean productivity loss of 12.9 days (SD 19.3) over the last 3 months, and a mean of 2.8 (SD 9.5) missed years of employment during their career. A higher number of workdays were missed by PFIC 2 caregivers compared to PFIC1 over last 3 months (16 days vs. 3 days).Conclusions: The PICTURE study has demonstrated the prevalent, comprehensive, and meaningful burden that caring for an individual with PFIC has on caregivers. Despite fulfilment from caregiving, the breadth and depth of these responsibilities reduced caregiver reported HRQoL including mental and physical health, productivity, career prospects, sleep, relationships and finances. [ABSTRACT FROM AUTHOR]

Published

2022

4. Inducibility, but not stability, of atrial fibrillation is increased by NOX2 overexpression in mice.

Author

Mighiu, Alexandra S, Recalde, Alice, Ziberna, Klemen, Carnicer, Ricardo, Tomek, Jakub, Bub, Gil, Brewer, Alison C, Verheule, Sander, Shah, Ajay M, Simon, Jillian N, and Casadei, Barbara

Subjects

ATRIAL fibrillation, SUPEROXIDES, MYOCARDIAL depressants, LEFT heart atrium, MICE, HIGH performance liquid chromatography, OXIDASES

Abstract

Aims Gp91-containing NADPH oxidases (NOX2) are a significant source of myocardial superoxide production. An increase in NOX2 activity accompanies atrial fibrillation (AF) induction and electrical remodelling in animal models and predicts incident AF in humans; however, a direct causal role for NOX2 in AF has not been demonstrated. Accordingly, we investigated whether myocardial NOX2 overexpression in mice (NOX2-Tg) is sufficient to generate a favourable substrate for AF and further assessed the effects of atorvastatin, an inhibitor of NOX2, on atrial superoxide production and AF susceptibility. Methods and results NOX2-Tg mice showed a 2- to 2.5-fold higher atrial protein content of NOX2 compared with wild-type (WT) controls, which was associated with a significant (twofold) increase in NADPH-stimulated superoxide production (2-hydroxyethidium by HPLC) in left and right atrial tissue homogenates (P  = 0.004 and P  = 0.019, respectively). AF susceptibility assessed in vivo by transoesophageal atrial burst stimulation was modestly increased in NOX2-Tg compared with WT (probability of AF induction: 88% vs. 69%, respectively; P  = 0.037), in the absence of significant alterations in AF duration, surface ECG parameters, and LV mass or function. Mechanistic studies did not support a role for NOX2 in promoting electrical or structural remodelling, as high-resolution optical mapping of atrial tissues showed no differences in action potential duration and conduction velocity between genotypes. In addition, we did not observe any genotype difference in markers of fibrosis and inflammation, including atrial collagen content and Col1a1, Il-1β, Il-6, and Mcp-1 mRNA. Similarly, NOX2 overexpression did not have consistent effects on RyR2 Ca2+ leak nor did it affect PKA or CaMKII-mediated RyR2 phosphorylation. Finally, treatment with atorvastatin significantly inhibited atrial superoxide production in NOX2-Tg but had no effect on AF induction in either genotype. Conclusion Together, these data indicate that while atrial NOX2 overexpression may contribute to atrial arrhythmogenesis, NOX2-derived superoxide production does not affect the electrical and structural properties of the atrial myocardium. [ABSTRACT FROM AUTHOR]

Published

2021

5. Burden of illness of progressive familial intrahepatic cholestasis in the US, UK, France, and Germany: study rationale and protocol of the PICTURE study.

Author

Ruiz-Casas, Leonardo, O'Hara, Sonia, Mighiu, Claudia, Finnegan, Alan, Taylor, Alison, Ventura, Emily, Dhawan, Anil, Murray, Karen F, Schattenberg, Jorn, Willemse, Jose, Karakaidos, Melanie, and Brrang, Harpreet

Abstract

Background: Progressive familial intrahepatic cholestasis (PFIC) is an ultra-rare disease with a considerable burden on pediatric patients and their caregivers, impacting quality of life (QoL). The mortality rates highlight a significant need for efficacious treatments. Real-world data on associated costs and QoL are needed to gauge the potential impact of new pharmacological treatments.Methods: Clinical and socio-economic burden of PFIC on patients/caregivers, health systems, and society will be assessed. Patient/caregiver- and physician-level retrospective cross-sectional data will be collected from the US, UK, France, and Germany, for PFIC types 1, 2, 3.A representative sample of physicians will provide clinical and resource utilization information using an electronic Case Report Form (eCRF). Patient/caregiver surveys will collect socio-economic and QoL data, enabling assessment of PFIC impact on QoL. Mean costs (direct medical/non-medical, indirect) will be calculated.The study materials were reviewed by medical professionals and patient representatives and received ethical approval from the University of Chester.Discussion: The study aims to reveal the unmet medical need, disease burden, resource utilization, and costs of PFIC, to raise awareness with policymakers and healthcare professionals, and provide support for the patient/caregiver community. As novel PFIC therapies recently emerged, this study will yield quantifiable data for health technology assessments. [ABSTRACT FROM AUTHOR]

Published

2021

6. P783: CLINICAL, HUMANISTIC, AND ECONOMIC BURDEN IN PATIENTS WITH PNH RECEIVING C5 INHIBITION TREATMENT ACROSS UK, GERMANY, AND FRANCE. INSIGHTS FROM THE COMMODORE BURDEN OF ILLNESS STUDY.

Author

Terriou, Louis, Piggin, Maria, Burmester, Pascale, Zhang, Fengkui, Finnegan, Alan, Kritikou, Persefoni, Mighiu, Claudia, Buehrer, Christian, Katz, Pablo, Mode, Selma, Studera, Xenia, Trinh, Huong, and Munir, Talha

Published

2023

7. Hypothalamic glucagon signaling inhibits hepatic glucose production.

Author

Mighiu, Patricia I, Yue, Jessica T Y, Filippi, Beatrice M, Abraham, Mona A, Chari, Madhu, Lam, Carol K L, Yang, Clair S, Christian, Nikita R, Charron, Maureen J, and Lam, Tony K T

Subjects

HYPOTHALAMIC hormones, GLUCAGON, CELLULAR signal transduction, GLUCOSE in the body, CYCLIC-AMP-dependent protein kinase, INTRAVENOUS therapy, VAGOTOMY

Abstract

Glucagon activates hepatic protein kinase A (PKA) to increase glucose production, but the gluco-stimulatory effect is transient even in the presence of continuous intravenous glucagon infusion. Continuous intravenous infusion of insulin, however, inhibits glucose production through its sustained actions in both the liver and the mediobasal hypothalamus (MBH). In a pancreatic clamp setting, MBH infusion with glucagon activated MBH PKA and inhibited hepatic glucose production (HGP) in rats, as did central glucagon infusion in mice. Inhibition of glucagon receptor-PKA signaling in the MBH and hepatic vagotomy each negated the effect of MBH glucagon in rats, whereas the central effect of glucagon was diminished in glucagon receptor knockout mice. A sustained rise in plasma glucagon concentrations transiently increased HGP, and this transiency was abolished in rats with negated MBH glucagon action. In a nonclamp setting, MBH glucagon infusion improved glucose tolerance, and inhibition of glucagon receptor-PKA signaling in the MBH enhanced the ability of intravenous glucagon injection to increase plasma glucose concentrations. We also detected a similar enhancement of glucose concentrations that was associated with a disruption in MBH glucagon signaling in rats fed a high-fat diet. We show that hypothalamic glucagon signaling inhibits HGP and suggest that hypothalamic glucagon resistance contributes to hyperglycemia in diabetes and obesity. [ABSTRACT FROM AUTHOR]

Published

2013

8. Controlling parasympathetic regulation of heart rate: a gatekeeper role for RGS proteins in the sinoatrial node.

Author

Mighiu, Alexandra S. and Heximer, Scott P.

Subjects

HEART beat, PARASYMPATHETIC nervous system, NERVE endings, SINOATRIAL node, G proteins, PACEMAKER cells, POTASSIUM channels, PHYSIOLOGY

Abstract

Neurotransmitters released from sympathetic and parasympathetic nerve terminals in the sinoatrial node (SAN) exert their effects via G-protein-coupled receptors. Integration of these different G-protein signals within pacemaker cells of the SAN is critical for proper regulation of heart rate and function. For example, excessive parasympathetic signaling can be associated with sinus node dysfunction (SND) and supraventricular arrhythmias. Our previous work has shown that one member of the regulator of G-protein signaling (RGS) protein family, RGS4, is highly and selectively expressed in pacemaker cells of the SAN. Consistent with its role as an inhibitor of parasympathetic signaling, RGS4-knockout mice have reduced basal heart rates and enhanced negative chronotropic responses to parasympathetic agonists. Moreover, RGS4 appears to be an important part of SA nodal myocyte signaling pathways that mediate G-protein-coupled inwardly rectifying potassium channel (GIRK) channel activation/deactivation and desensitization. Since RGS4 acts immediately downstream of M2 muscarinic receptors, it is tempting to speculate that RGS4 functions as a master regulator of parasympathetic signaling upstream of GIRKs, HCNs, and L-type Ca2+ channels in the SAN. Thus, loss of RGS4 function may lead to increased susceptibility to conditions associated with increased parasympathetic signaling, including bradyarrhythmia, SND, and atrial fibrillation. [ABSTRACT FROM AUTHOR]

Published

2012

9. Glycine Normalizes Hepatic Triglyceride-Rich VLDL Secretion by Triggering the CNS in High-Fat Fed Rats.

Author

Yue, Jessica T.Y., Mighiu, Patricia I., Naples, Mark, Adeli, Khosrow, and Lam, Tony K.T.

Published

2012

10. Controlling parasympathetic regulation of heart rate: a gatekeeper role for RGS proteins in the sinoatrial node.

Author

Mighiu, Alexandra S. and Heximer, Scott P.

Subjects

HEART rate monitoring, PARASYMPATHETIC nervous system, HEART beat, REGULATOR of G-protein-signaling proteins, SINOATRIAL node, HEART conduction system

Abstract

Neurotransmitters released from sympathetic and parasympathetic nerve terminals in the SAN exert their effects via G-protein-coupled receptors. Integration of these different G-protein signals within pacemaker cells of the sinoatrial node (SAN) is critical for proper regulation of heart rate and function. For example, excessive parasympathetic signaling can be associated with sinus node dysfunction and supraventricular arrhythmias. Our previous work has shown that one member of the regulator of G-protein signaling (RGS) protein family, RGS4, is highly and selectively expressed in pacemaker cells of the SAN. Consistent with its role as an inhibitor of parasympathetic signaling, RGS4-knockout mice have reduced basal heart rates and enhanced negative chronotropic responses to parasympathetic agonists. Moreover, RGS4 appears to be an important part of SA nodal myocyte signaling pathways that mediate G protein-coupled inwardly-rectifying potassium channel (GIRK) channel activation/deactivation and desensitization. Since RGS4 acts immediately downstream of M2 muscarinic receptors, it is tempting to speculate that RGS4 functions as a master regulator of parasympathetic signaling upstream of GIRKs, HCNs and L-type Ca2+ channels in the SAN. Thus, loss of RGS4 function may lead to increased susceptibility to conditions associated with increased parasympathetic signaling, including bradyarrhythmia, sinus node dysfunction, and atrial fibrillation. [ABSTRACT FROM AUTHOR]

Published

2012

11. Glucose Transporter-1 in the Hypothalamic Glial Cells Mediates Glucose Sensing to Regulate Glucose Production In Vivo.

Author

Chari, Madhu, Yang, Clair S., Lam, Carol K. L., Lee, Katie, Mighiu, Patricia, Kokorovic, Andrea, Cheung, Grace W. C., Lai, Teresa Y. Y., Wang, Penny Y. T., and Lam, Tony K. T.

Subjects

GLUCOSE, NEUROGLIA, HYPERGLYCEMIA, BLOOD sugar, DIABETES, RATS

Abstract

OBJECTIVE -- Circulating glucose inhibits glucose production in normal rodents and humans, but this glucose effectiveness disrupted in diabetes due partly to sustained hyperglycemia. hypothesize that hyperglycemia in diabetes impairs hypothalamic glucose sensing to lower glucose production, and changes of glucose transporter-1 (GLUT1) in the hypothalamic glial cells a responsible for the deleterious effects of hyperglycemia in vivo RESEARCH DESIGN AND METHODS -- We tested hypothalamic glucose effectiveness to increase hypothalamic glucose concentration and lower glucose production in rats induced with streptozotocin (STZ) uncontrolled diabetes, STZ and phlorizin, and whole-body and hypothalamic sustained hyperglycemia. We next assessed the content of glial GLUT1 in the hypothalamus, generated an adenovirus expressing GLUT1 driven by a glial fibrillary acidic protein (GFAP) promoter (Ad-GFAP-GLUT1), and injected Ad-GFAP-GLUT1 into the hypothalamus of rats induced with hyperglycemia. Pancreatic euglycemic clamp and tracerdilution methodologies were used to assess changes in glucose kinetics in vivo. RESULTS -- Sustained hyperglycemia, as seen in the early onset of STZ-induced diabetes, disrupted hypothalamic glucose sensing to increase hypothalamic glucose concentration and lower glucose production in association with reduced GLUT1 levels in the hypothalamic glial cells of rats in vivo. Overexpression of hypothalamic glial GLUT1 in STZ-induced rats with reduced GLUT1 acutely normalized plasma glucose levels and in rats with selectively induced hypothalamic hyperglycemia restored hypothalamic glucose effectiveness. CONCLUSIONS -- Sustained hyperglycemia impairs hypothalamic glucose sensing to lower glucose production through changes in hypothalamic gilal GLUT1, and these data highlight the critical role of hypothalamic glial GLUT1 in mediating glucose sensing to regulate glucose production. [ABSTRACT FROM AUTHOR]

Published

2011

12. Melatonin in children with autistic spectrum disorders: recent and practical data.

Author

Doyen, C., Mighiu, D., Kaye, K., Colineaux, C., Beaumanoir, C., Mouraeff, Y., Rieu, C., Paubel, P., and Contejean, Y.

Subjects

AUTISM, CIRCADIAN rhythms, MELATONIN, SLEEP disorders, CHILDREN

Abstract

Over the last 20 years, melatonin, a pineal hormone synthesized from serotonin, has been implicated in various studies on the autism spectrum disorder (ASD) and altered melatonin levels were detected in subgroups of subjects with ASD. Its effect on sleep disturbances got the attention of clinicians and several investigations were carried out to determine the usefulness and safety of melatonin administration in this disorder. Hypotheses were also raised regarding the possibility that the dysfunctional synthesis and secretion of melatonin detected in subgroups of subjects with ASD may increase the risk as well the severity of ASD. The purpose of this paper is to review our pharmacokinetic knowledge on melatonin and present results from recent studies on sleep disorders in autism, their treatment with melatonin and the impact of melatonin prescription in children with ASD evaluated in a Diagnostic Center for Autism Spectrum Disorder in Paris, France. [ABSTRACT FROM AUTHOR]

Published

2011

13. RGS4-Deficiency Alters Intracellular Calcium and PKA-Mediated Control of Insulin Secretion in Glucose-Stimulated Beta Islets.

Author

Bastin, Guillaume, Luu, Lemieux, Batchuluun, Battsetseg, Mighiu, Alexandra, Beadman, Stephanie, Zhang, Hangjung, He, Changhao, Al Rijjal, Dana, Wheeler, Michael B., and Heximer, Scott P.

Subjects

INTRACELLULAR calcium, INSULIN, SECRETION, LABORATORY mice, ISLANDS of Langerhans

Abstract

A number of diverse G-protein signaling pathways have been shown to regulate insulin secretion from pancreatic β-cells. Accordingly, regulator of G-protein signaling (RGS) proteins have also been implicated in coordinating this process. One such protein, RGS4, is reported to show both positive and negative effects on insulin secretion from β-cells depending on the physiologic context under which it was studied. We here use an RGS4-deficient mouse model to characterize previously unknown G-protein signaling pathways that are regulated by RGS4 during glucose-stimulated insulin secretion from the pancreatic islets. Our data show that loss of RGS4 results in a marked deficiency in glucose-stimulated insulin secretion during both phase I and phase II of insulin release in intact mice and isolated islets. These deficiencies are associated with lower cAMP/PKA activity and a loss of normal calcium surge (phase I) and oscillatory (phase II) kinetics behavior in the RGS4-deficient β-cells, suggesting RGS4 may be important for regulation of both Gαi and Gαq signaling control during glucose-stimulated insulin secretion. Together, these studies add to the known list of G-protein coupled signaling events that are controlled by RGS4 during glucose-stimulated insulin secretion and highlight the importance of maintaining normal levels of RGS4 function in healthy pancreatic tissues. [ABSTRACT FROM AUTHOR]

Published

2021

14. Linking Inflammation to the Brain-Liver Axis.

Author

Mighiu, Patricia I., Filippi, Beatrice M., and Lam, Tony K. T.

Subjects

HOMEOSTASIS, ENCEPHALITIS, HYPOTHALAMUS, PYRUVATES, INFLAMMATION

Abstract

The article discusses the disruption of the ability of insulin to control glucose homeostasis which is attributed to obesity-induced inflammation in the brain. A study by Milanski et al, which explored the link between hypothalamic inflammation to a disruption of the brain-liver axis, is cited. The authors performed a pyruvate tolerance test and evaluated changes in hepatic gluconeogenic gene expression in obese rats with hypothalamic inflammatory neutralization.

Published

2012

15. Is Insulin Action in the Brain Clinically Relevant?

Author

Filippi, Beatrice M., Mighiu, Patricia I., and Lam, Tony K. T.

Subjects

INSULIN, INTRANASAL medication, PEPTIDES, CEREBROSPINAL fluid, DRUG delivery systems

Abstract

The author reflects on whether insulin action in the brain is clinically relevant. Topics discussed include the development of an intranasal peptide delivery method in humans which enables selective elevation of peptide levels in the cerebrospinal fluid without altering plasma peptide levels, and experiments which distinguished the effects of intranasal insulin administration in postprandial versus fasting conditions.

Published

2012

16. A fatty acid-dependent hypothalamic-DVC neurocircuitry that regulates hepatic secretion of triglyceride-rich lipoproteins.

Author

Yue, Jessica T. Y., Abraham, Mona A., LaPierre, Mary P., Mighiu, Patricia I., Light, Peter E., Filippi, Beatrice M., and Lam, Tony K. T.

Published

2015