Your search keyword '"Brugere, C."' showing total 10 results

1. Plant Versus Animal Protein Intake On Bone Mineral Density In A Combined Cohort Of Frail, Malnourished And Healthy Older Adults

Author

Groenendijk, I., primary, Grootswagers, P., additional, Santoro, A., additional, Franceschi, C., additional, Bazzocchi, A., additional, Meunier, N., additional, Caille, A., additional, Malpuech-Brugere, C., additional, Bialecka-Debek, A., additional, Pietruszka, B., additional, Fairweather-Tait, S., additional, Jennings, A., additional, and de Groot, L.C., additional

Published

2023

2. 1907P Deployment of remote patient monitoring in older patients: A real-world experience from 2419 patients across 58 centres in France and Belgium

Author

Bertrand, N., Grellety, T., Autheman, M., Rivoirard, R., Boulahssass, R., Brain, E.G.C., Mourey, L., Dumas-Bonnetain, C., Caillet, P., Frelaut, M., Beauplet, B., Bringuier, M., Chakiba Brugere, C., Couderc, A-L., Canouï-Poitrine, F., and Baldini, C.

Published

2024

3. 1886P Expectations and priorities of older patients with cancer: The PRIORITY multicenter cohort study

Author

Grellety, T., Bellera, C., Cantarel, C., Mertens, C., Cabart, M., Roubaud, G., Chantecaille, M-C., Desclos, H., Lefort, A., Bouchaert, P., Bourbouloux, E., Terret, C., Delattre, C., Cany, L., Lalet, C., Mathoulin, S., Soubeyran, P., and Chakiba Brugere, C.

Published

2024

4. Humanizing aquaculture development: Putting social and human concerns at the center of future aquaculture development.

Author

Brugere, C., Bansal, T., Kruijssen, F., and Williams, M.

Subjects

AQUACULTURE, BUSINESS ethics, PROCEDURAL justice, NON-state actors (International relations), SOCIAL ethics, POSE estimation (Computer vision), NETWORK governance

Abstract

Compared with other aquaculture issues, attention to human and social dimensions is lagging behind. Sectoral development, policy, and programmatic factors have created inequities and sub‐optimal social outcomes, which are jeopardizing the broader contribution the sector could make to human well‐being. Human rights in aquaculture are at the core of this article, which argues that aquaculture development, as a major economic and food producing sector, needs to be about human development. The article reviews: the application of human rights in aquaculture, and the related right to decent work; the notions of justice and equity including the idea of Blue Justice and its relevance in aquaculture; and ethics and social license to operate with the challenges that business ethics and public acceptance pose to the sector. It also reviews how these issues affect people: women, along with slow progress in gender equality in the sector; youth and their engagement in aquaculture, while noting that 'youth' does not equate to "jobs" and requires the lifting of many more societal hurdles for their full participation in the sector; indigenous people and local ecological knowledge—a precious asset for future aquaculture as well as the survival and enhancement of the cultural value of aquaculture; and people with disabilities and other minorities who have yet to become fully visible and accounted for in aquaculture development. Redressing human and social issues in aquaculture, and placing people at the center of aquaculture development requires a fundamental change from business as usual. To humanize aquaculture development, a renewed human relationship with aquaculture is proposed, which is founded on recognizing substantive equality and agency, embracing intersectionality, that is, the multiple social dimensions of identity and interaction, and valuing cross‐disciplinary knowledge systems. It would be implemented through new, inclusive, business models, social provisioning approaches, and procedural justice and governance mechanisms for overcoming inequalities. Public, private, and non‐state actors will need to be involved, inclusive of small‐scale farmers, women, youth, people with disabilities, and indigenous communities as key groups. Six key messages conclude the article. [ABSTRACT FROM AUTHOR]

Published

2023

5. Mitochondria in human white adipose tissue related to body composition

Author

Guerrier, L., Malpuech-Brugère, C., Bacoeur-Ouzillou, O., Mezher, S., Cassagnes, L., Pezet, D., Gagnière, J., Richard, R., and Touron, J.

Published

2023

6. Relation entre IMC, adiposité et respiration mitochondriale des tissus adipeux blancs humains

Author

Guerrier, L., Richard, R., Malpuech-Brugère, C., Cassagnes, L., Bacoeur, O., Pezet, D., Gagnière, J., and Touron, J.

Published

2023

7. Protein intake and bone mineral density: Cross‐sectional relationship and longitudinal effects in older adults

Author

Inge Groenendijk, Pol Grootswagers, Aurelia Santoro, Claudio Franceschi, Alberto Bazzocchi, Nathalie Meunier, Aurélie Caille, Corinne Malpuech‐Brugere, Agata Bialecka‐Debek, Barbara Pietruszka, Susan Fairweather‐Tait, Amy Jennings, Lisette C.P.G.M. de Groot, Wageningen University and Research [Wageningen] (WUR), University of Bologna/Università di Bologna, IRCCS Istituto delle Scienze Neurologiche di Bologna [Bologna, Italy], Ospedale Bellaria [Bologna, Italy], Centre de Recherche en Nutrition Humaine Auvergne [CHU Clermont-Ferrand] (CRNH A), Direction de la recherche clinique et de l’innovation [CHU Clermont-Ferrand] (DRCI), CHU Clermont-Ferrand-CHU Clermont-Ferrand, Unité de Nutrition Humaine (UNH), Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Université Clermont Auvergne (UCA), Warsaw University of Life Sciences (SGGW), University of East Anglia [Norwich] (UEA), Groenendijk I., Grootswagers P., Santoro A., Franceschi C., Bazzocchi A., Meunier N., Caille A., Malpuech-Brugere C., Bialecka-Debek A., Pietruszka B., Fairweather-Tait S., Jennings A., and de Groot L.C.P.G.M.

Subjects

Ageing, Physiology (medical), Older adults, Protein, [SDV.MHEP.GEG]Life Sciences [q-bio]/Human health and pathology/Geriatry and gerontology, Osteoporosi, Life Science, Osteoporosis, Orthopedics and Sports Medicine, Older adult, Bone, Nutritional Biology, VLAG

Abstract

Background: There are several mechanisms via which increased protein intake might maintain or improve bone mineral density (BMD), but current evidence for an association or effect is inconclusive. The objectives of this study were to investigate the association between dietary protein intake (total, plant and animal) with BMD (spine and total body) and the effects of protein supplementation on BMD. Methods: Individual data from four trials that included either (pre-)frail, undernourished or healthy older adults (aged ≥65years) were combined. Dietary intake was assessed with food records (2, 3 or 7days) and BMD with dual-energy X-ray absorptiometry (DXA). Associations and effects were assessed by adjusted linear mixed models. Results: A total of 1570 participants [57% women, median (inter-quartile range): age 71 (68–75) years] for which at least total protein intake and total body BMD were known were included in cross-sectional analyses. In fully adjusted models, total protein intake was associated with higher total body and spine BMD [beta (95% confidence interval): 0.0011 (0.0006–0.0015) and 0.0015 (0.0007–0.0023) g/cm2, respectively]. Animal protein intake was associated with higher total body and spine BMD as well [0.0011 (0.0007–0.0016) and 0.0017 (0.0010–0.0024) g/cm2, respectively]. Plant protein intake was associated with a lower total body and spine BMD [−0.0010 (−0.0020 to −0.0001) and −0.0019 (−0.0034 to −0.0004) g/cm2, respectively]. Associations were similar between sexes. Participants with a high ratio of animal to plant protein intake had higher BMD. In participants with an adequate calcium intake and sufficient serum 25(OH)D concentrations, the association between total protein intake with total body and spine BMD became stronger. Likewise, the association between animal protein intake with total body BMD was stronger. In the longitudinal analyses, 340 participants [58% women, median (inter-quartile range): age 75 (70–81) years] were included. Interventions of 12 or 24weeks with protein supplementation or protein supplementation combined with resistance exercise did not lead to significant improvements in BMD. Conclusions: An association between total and animal protein intake with higher BMD was found. In contrast, plant protein intake was associated with lower BMD. Research is warranted to further investigate the added value of dietary protein alongside calcium and vitamin D for BMD improvement, especially in osteopenic or osteoporotic individuals. Moreover, more research on the impact of a plant-based diet on bone health is needed.

Published

2023

8. Casein structures differently affect postprandial amino acid delivery through their intra-gastric clotting properties.

Author

Boulier A, Denis S, Henry G, Guérin S, Alric M, Meunier N, Blot A, Pereira B, Malpuech-Brugere C, Remond D, Boirie Y, Baniel A, Richard R, Dupont D, and Boudry G

Subjects

Animals, Stomach metabolism, Swine, Humans, Healthy Volunteers, Amino Acids, Caseins chemistry, Caseins metabolism, Cross-Over Studies, Digestion

Abstract

We aimed to assess if casein structure affects its digestion and its subsequent amino acid delivery kinetic. Higher nitrogen levels were recovered in dialysates after in vitro digestions of sodium caseinate (SC, formed of small aggregates) compared to micellar casein (MC, native form of casein) and calcium caseinate (CC, intermediate structure). Likewise, plasma indispensable amino-acid concentration peak was higher after SC compared to MC or CC ingestion in healthy volunteers in a randomized, double blind, cross-over study. In pigs, gamma-scintigraphy using labelled meals revealed that SC was mainly localized in the proximal part of the stomach whereas MC was distributed in the whole gastric cavity. Caseins were found in both solid and liquid phases and partly hydrolyzed casein in the solid phase shortly after SC drink ingestion. These data support the concept of slow (MC) and rapid (SC) casein depending of casein structure, likely due to their intra-gastric clotting properties., Competing Interests: Declaration of Competing Interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Gaelle BOUDRY reports financial support and equipment, drugs, or supplies were provided by Ingredia SA. Audrey BOULIER reports a relationship with Ingredia SA that includes: employment. Alain BANIEL reports a relationship with Ingredia SA that includes: employment. Gaelle BOUDRY reports a relationship with Ingredia SA that includes: travel reimbursement., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2023

9. Protein intake and bone mineral density: Cross-sectional relationship and longitudinal effects in older adults.

Author

Groenendijk I, Grootswagers P, Santoro A, Franceschi C, Bazzocchi A, Meunier N, Caille A, Malpuech-Brugere C, Bialecka-Debek A, Pietruszka B, Fairweather-Tait S, Jennings A, and de Groot LCPGM

Subjects

Animals, Female, Male, Calcium, Absorptiometry, Photon, Plant Proteins pharmacology, Bone Density, Dietary Proteins pharmacology

Abstract

Background: There are several mechanisms via which increased protein intake might maintain or improve bone mineral density (BMD), but current evidence for an association or effect is inconclusive. The objectives of this study were to investigate the association between dietary protein intake (total, plant and animal) with BMD (spine and total body) and the effects of protein supplementation on BMD., Methods: Individual data from four trials that included either (pre-)frail, undernourished or healthy older adults (aged ≥65 years) were combined. Dietary intake was assessed with food records (2, 3 or 7 days) and BMD with dual-energy X-ray absorptiometry (DXA). Associations and effects were assessed by adjusted linear mixed models., Results: A total of 1570 participants [57% women, median (inter-quartile range): age 71 (68-75) years] for which at least total protein intake and total body BMD were known were included in cross-sectional analyses. In fully adjusted models, total protein intake was associated with higher total body and spine BMD [beta (95% confidence interval): 0.0011 (0.0006-0.0015) and 0.0015 (0.0007-0.0023) g/cm 2 , respectively]. Animal protein intake was associated with higher total body and spine BMD as well [0.0011 (0.0007-0.0016) and 0.0017 (0.0010-0.0024) g/cm 2 , respectively]. Plant protein intake was associated with a lower total body and spine BMD [-0.0010 (-0.0020 to -0.0001) and -0.0019 (-0.0034 to -0.0004) g/cm 2 , respectively]. Associations were similar between sexes. Participants with a high ratio of animal to plant protein intake had higher BMD. In participants with an adequate calcium intake and sufficient serum 25(OH)D concentrations, the association between total protein intake with total body and spine BMD became stronger. Likewise, the association between animal protein intake with total body BMD was stronger. In the longitudinal analyses, 340 participants [58% women, median (inter-quartile range): age 75 (70-81) years] were included. Interventions of 12 or 24 weeks with protein supplementation or protein supplementation combined with resistance exercise did not lead to significant improvements in BMD., Conclusions: An association between total and animal protein intake with higher BMD was found. In contrast, plant protein intake was associated with lower BMD. Research is warranted to further investigate the added value of dietary protein alongside calcium and vitamin D for BMD improvement, especially in osteopenic or osteoporotic individuals. Moreover, more research on the impact of a plant-based diet on bone health is needed., (© 2022 The Authors. Journal of Cachexia, Sarcopenia and Muscle published by John Wiley & Sons Ltd on behalf of Society on Sarcopenia, Cachexia and Wasting Disorders.)

Published

2023

10. Effects of exercise-induced metabolic and mechanical loading on skeletal muscle mitochondrial function in male rats.

Author

Touron J, Perrault H, Maisonnave L, Patrac V, Walrand S, Malpuech-Brugere C, Pereira B, Burelle Y, Costes F, and Richard R

Subjects

Animals, Male, Mitochondria, Quadriceps Muscle metabolism, RNA, Messenger metabolism, Rats, Muscle, Skeletal physiology, Running physiology

Abstract

Over the past decades, a growing interest in eccentric (ECC) exercise has emerged, but mitochondrial adaptations to ECC training remain poorly documented. Using an approach for manipulating mechanical and metabolic exercise power, we positioned that for the same metabolic power, training using concentric (CON) or ECC contractions would induce similar skeletal muscle mitochondrial adaptations. Sixty adult rats were randomly assigned to a control (CTRL) or three treadmill training groups running at 15 m·min -1 for 45 min, 5 days weekly for 8 wk at targeted upward or downward slopes. Animals from the CON (+15%) and ECC30 (-30%) groups were trained at iso-metabolic power, whereas CON and ECC15 (-15%) exercised at iso-mechanical power. Assessments were made of vastus intermedius mitochondrial respiration (oxygraphy), enzymatic activities (spectrophotometry), and real-time qPCR for mRNA transcripts. Maximal rates of mitochondrial respiration were 14%-15% higher in CON and ECC30 compared with CTRL and ECC15. Apparent K m for ADP for trained groups was 40%-66% higher than CTRL, with statistical significance reached for CON and ECC30. Complex I and citrate synthase activities were 1.6 (ECC15) to 1.8 (ECC30 and CON) times values of CTRL. Complex IV activity was higher than CTRL ( P < 0.05) only for CON and ECC30. mRNA transcripts analyses showed higher TFAM, SLC25A4, CKMT2, and PPID in the ECC30 compared with CTRL. Findings confirm that training-induced skeletal muscle mitochondrial function adaptations are governed by the extent of metabolic overload irrespective of exercise modality. The distinctive ECC30 mRNA transcript pattern may reflect a cytoskeleton damage-repair or ECC adaptive cycle that differs from that of biogenesis. NEW & NOTEWORTHY Anticipating outcomes of eccentric versus concentric training is confounded by differences in mechanical efficiency. Our observations in groups of rats submitted to uphill and downhill running regimens inducing similar levels of metabolic demands or same external power outputs reaffirm that independent of modality, oxygen requirements and not external work governs skeletal muscle mitochondrial function adaptations.

Published

2022