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1. Phenotypic Properties of Collagen in Dentinogenesis Imperfecta Associated with Osteogenesis Imperfecta

Author

Ibrahim S, Strange AP, Aguayo S, Shinawi A, Harith N, Mohamed-Ibrahim N, Siddiqui S, Parekh S, and Bozec L

Subjects
dentin, collagen, dentinogenesis imperfecta, demineralisation, dentistry, atomic force microscopy, Medicine (General), R5-920
Abstract

Salwa Ibrahim,1,* Adam P Strange,2,* Sebastian Aguayo,2,3 Albatool Shinawi,1 Nabilah Harith,1 Nurjehan Mohamed-Ibrahim,1 Samera Siddiqui,2 Susan Parekh,1 Laurent Bozec4 1Department of Paediatric Dentistry, UCL Eastman Dental Institute, University College London, London, UK; 2Department of Biomaterials and Tissue Engineering, UCL Eastman Dental Institute, University College London, London, UK; 3School of Dentistry, Faculty of Medicine, Pontificia Universidad Católica de Chile, Santiago, Chile; 4Faculty of Dentistry, University of Toronto, Toronto, Canada*These authors contributed equally to this workCorrespondence: Laurent BozecFaculty of Dentistry, University of Toronto, 124 Edward Street, Toronto ON M5G 1G6, CanadaEmail L.bozec@utoronto.caIntroduction: Dentinogenesis imperfecta type 1 (OIDI) is considered a relatively rare genetic disorder (1:5000 to 1:45,000) associated with osteogenesis imperfecta. OIDI impacts the formation of collagen fibrils in dentin, leading to morphological and structural changes that affect the strength and appearance of teeth. However, there is still a lack of understanding regarding the nanoscale characterization of the disease, in terms of collagen ultrastructure and mechanical properties. Therefore, this research presents a qualitative and quantitative report into the phenotype and characterization of OIDI in dentin, by using a combination of imaging, nanomechanical approaches.Methods: For this study, 8 primary molars from OIDI patients and 8 primary control molars were collected, embedded in acrylic resin and cut into longitudinal sections. Sections were then demineralized in 37% phosphoric acid using a protocol developed in-house. Initial experiments demonstrated the effectiveness of the demineralization protocol, as the ATR-FTIR spectral fingerprints showed an increase in the amide bands together with a decrease in phosphate content. Structural and mechanical analyses were performed directly on both the mineralized and demineralized samples using a combination of scanning electron microscopy, atomic force microscopy, and Wallace indentation.Results: Mesoscale imaging showed alterations in dentinal tubule morphology in OIDI patients, with a reduced number of tubules and a decreased tubule diameter compared to healthy controls. Nanoscale collagen ultrastructure presented a similar D-banding periodicity between OIDI and controls. Reduced collagen fibrils diameter was also recorded for the OIDI group. The hardness of the (mineralized) control dentin was found to be significantly higher (p

Published
2019

2. Combining nano-physical and computational investigations to understand the nature of “aging” in dermal collagen

Author

Ahmed T, Nash A, Clark KEN, Ghibaudo M, de Leeuw NH, Potter A, Stratton R, Birch HL, Enea Casse R, and Bozec L

Subjects
Collagen, Ageing, Atomic Force Microscopy, Nanomechanics, Advanced Glycation End Products, Nanotechnology, Medicine (General), R5-920
Abstract

Tarek Ahmed,1 Anthony Nash,2 Kristina EN Clark,3 Marion Ghibaudo,4 Nora H de Leeuw,2 Anne Potter,4 Richard Stratton,3 Helen L Birch,5 Ramona Enea Casse,4 Laurent Bozec1 1Division of Biomaterials and Tissue Engineering, Eastman Dental Institute, University College London, 2Department of Chemistry, University College London, 3Centre for Rheumatology and Connective Tissue Diseases, Division of Medicine, University College London, London, UK; 4L’Oréal Research and Innovation, Aulnay-sous-Bois, France; 5Division of Surgery and Interventional Science, UCL Institute of Orthopaedics and Musculoskeletal Science, University College London, London, UK Abstract: The extracellular matrix of the dermis is a complex, dynamic system with the various dermal components undergoing individual physiologic changes as we age. Age-related changes in the physical properties of collagen were investigated in particular by measuring the effect of aging, most likely due to the accumulation of advanced glycation end product (AGE) cross-links, on the nanomechanical properties of the collagen fibril using atomic force microscope nano-indentation. An age-related decrease in the Young’s modulus of the transverse fibril was observed (from 8.11 to 4.19 GPa in young to old volunteers, respectively, P

Published
2017

3. Quantitative nanohistological investigation of scleroderma: an atomic force microscopy-based approach to disease characterization

Author

Strange AP, Aguayo S, Ahmed T, Mordan N, Stratton R, Porter SR, Parekh S, and Bozec L

Subjects
scleroderma, atomic force microscopy, picrosirius red, collagen, nanohistology, Medicine (General), R5-920
Abstract

Adam P Strange,1 Sebastian Aguayo,1 Tarek Ahmed,1 Nicola Mordan,1 Richard Stratton,2 Stephen R Porter,3 Susan Parekh,4 Laurent Bozec1 1Department of Biomaterials and Tissue Engineering, UCL Eastman Dental Institute, 2Centre for Rheumatology and Connective Tissue Diseases, Royal Free Hospital, UCL Medical School, 3UCL Eastman Dental Institute, 4Department of Pediatrics, UCL Eastman Dental Institute, London, UK Abstract: Scleroderma (or systemic sclerosis, SSc) is a disease caused by excess crosslinking of collagen. The skin stiffens and becomes painful, while internally, organ function can be compromised by the less elastic collagen. Diagnosis of SSc is often only possible in advanced cases by which treatment time is limited. A more detailed analysis of SSc may provide better future treatment options and information of disease progression. Recently, the histological stain picrosirius red showing collagen register has been combined with atomic force microscopy (AFM) to study SSc. Skin from healthy individuals and SSc patients was biopsied, stained and studied using AFM. By investigating the crosslinking of collagen at a smaller hierarchical stage, the effects of SSc were more pronounced. Changes in morphology and Young’s elastic modulus were observed and quantified; giving rise to a novel technique, we have termed “quantitative nanohistology”. An increase in nanoscale stiffness in the collagen for SSc compared with healthy individuals was seen by a significant increase in the Young’s modulus profile for the collagen. These markers of stiffer collagen in SSc are similar to the symptoms experienced by patients, giving additional hope that in the future, nanohistology using AFM can be readily applied as a clinical tool, providing detailed information of the state of collagen. Keywords: rheumatology, adjunct diagnosis, picrosirius red, collagen, nanohistology

Published
2017

4. Demineralization–remineralization dynamics in teeth and bone

Author

Abou Neel EA, Aljabo A, Strange A, Ibrahim S, Coathup M, Young AM, Bozec L, and Mudera V

Subjects
Demineralisation, remineralisation, teeth, bone & calcium phosphates., Medicine (General), R5-920
Abstract

Ensanya Ali Abou Neel,1–3 Anas Aljabo,3 Adam Strange,3 Salwa Ibrahim,3 Melanie Coathup,4 Anne M Young,3 Laurent Bozec,3 Vivek Mudera4 1Division of Biomaterials, Operative Dentistry Department, Faculty of Dentistry, King Abdulaziz University, Jeddah, Saudi Arabia; 2Biomaterials Department, Faculty of Dentistry, Tanta University, Tanta, Egypt; 3Department of Biomaterials and Tissue Engineering, UCL Eastman Dental Institute, London, UK; 4UCL Institute of Orthopaedics and Musculoskeletal Sciences, Royal National Orthopaedic Hospital, Stanmore, London, UK Abstract: Biomineralization is a dynamic, complex, lifelong process by which living organisms control precipitations of inorganic nanocrystals within organic matrices to form unique hybrid biological tissues, for example, enamel, dentin, cementum, and bone. Understanding the process of mineral deposition is important for the development of treatments for mineralization-related diseases and also for the innovation and development of scaffolds. This review provides a thorough overview of the up-to-date information on the theories describing the possible mechanisms and the factors implicated as agonists and antagonists of mineralization. Then, the role of calcium and phosphate ions in the maintenance of teeth and bone health is described. Throughout the life, teeth and bone are at risk of demineralization, with particular emphasis on teeth, due to their anatomical arrangement and location. Teeth are exposed to food, drink, and the microbiota of the mouth; therefore, they have developed a high resistance to localized demineralization that is unmatched by bone. The mechanisms by which demineralization–remineralization process occurs in both teeth and bone and the new therapies/technologies that reverse demineralization or boost remineralization are also scrupulously discussed. Technologies discussed include composites with nano- and micron-sized inorganic minerals that can mimic mechanical properties of the tooth and bone in addition to promoting more natural repair of surrounding tissues. Turning these new technologies to products and practices would improve health care worldwide. Keywords: demineralization, remineralization, teeth, bone and calcium phosphates

Published
2016

5. Probing the nanoadhesion of Streptococcus sanguinis to titanium implant surfaces by atomic force microscopy

Author

Aguayo S, Donos N, Spratt D, and Bozec L

Subjects
Medicine (General), R5-920
Abstract

Sebastian Aguayo,1 Nikolaos Donos,2 Dave Spratt,3 Laurent Bozec11Department of Biomaterials and Tissue Engineering, 2Periodontology Unit, 3Division of Microbial Diseases, UCL Eastman Dental Institute, University College London, London, UKAbstract: As titanium (Ti) continues to be utilized in great extent for the fabrication of artificial implants, it is important to understand the crucial bacterium–Ti interaction occurring during the initial phases of biofilm formation. By employing a single-cell force spectroscopy technique, the nanoadhesive interactions between the early-colonizing Streptococcus sanguinis and a clinically analogous smooth Ti substrate were explored. Mean adhesion forces between S. sanguinis and Ti were found to be 0.32±0.00, 1.07±0.06, and 4.85±0.56 nN for 0, 1, and 60 seconds contact times, respectively; while adhesion work values were reported at 19.28±2.38, 104.60±7.02, and 1,317.26±197.69 aJ for 0, 1, and 60 seconds, respectively. At 60 seconds surface delays, minor-rupture events were modeled with the worm-like chain model yielding an average contour length of 668±12 nm. The mean force for S. sanguinis minor-detachment events was 1.84±0.64 nN, and Poisson analysis decoupled this value into a short-range force component of -1.60±0.34 nN and a long-range force component of -0.55±0.47 nN. Furthermore, a solution of 2 mg/mL chlorhexidine was found to increase adhesion between the bacterial probe and substrate. Overall, single-cell force spectroscopy of living S. sanguinis cells proved to be a reliable way to characterize early-bacterial adhesion onto machined Ti implant surfaces at the nanoscale.Keywords: atomic force microscopy, biophysics, bacterial adhesion, dental implants, titanium

Published
2016

6. Nanotechnology in dentistry: prevention, diagnosis, and therapy

Author

Abou Neel EA, Bozec L, Perez RA, Kim HW, and Knowles JC

Subjects
Medicine (General), R5-920
Abstract

Ensanya Ali Abou Neel,1–3 Laurent Bozec,3 Roman A Perez,4,5 Hae-Won Kim,4–6 Jonathan C Knowles3,5 1Division of Biomaterials, Operative Dentistry Department, Faculty of Dentistry, King Abdulaziz University, Jeddah, Saudi Arabia; 2Biomaterials Department, Faculty of Dentistry, Tanta University, Tanta, Egypt; 3UCL Eastman Dental Institute, Biomaterials and Tissue Engineering, London, UK; 4Institute of Tissue Regenerative Engineering (ITREN), 5Department of Nanobiomedical Science and BK21 Plus NBM Global Research Center for Regenerative Medicine, 6Department of Biomaterials Science, College of Dentistry, Dankook University, Cheonan, Republic of Korea Abstract: Nanotechnology has rapidly expanded into all areas of science; it offers significant alternative ways to solve scientific and medical questions and problems. In dentistry, nanotechnology has been exploited in the development of restorative materials with some significant success. This review discusses nanointerfaces that could compromise the longevity of dental restorations, and how nanotechnolgy has been employed to modify them for providing long-term successful restorations. It also focuses on some challenging areas in dentistry, eg, oral biofilm and cancers, and how nanotechnology overcomes these challenges. The recent advances in nanodentistry and innovations in oral health-related diagnostic, preventive, and therapeutic methods required to maintain and obtain perfect oral health, have been discussed. The recent advances in nanotechnology could hold promise in bringing a paradigm shift in dental field. Although there are numerous complex therapies being developed to treat many diseases, their clinical use requires careful consideration of the expense of synthesis and implementation. Keywords: nanotechnology, nanointerfaces, biofilm-related oral diseases, tissue engineering, drug delivery, toxicity

Published
2015

7. Synchrotron-based near-field photothermal microspectroscopy: Development of a quantitative nanohistology set-up with expansion of the infrared capability 2

Author

Bozec, L, Cinque, G, Reading, M, and Pollock, H M

Subjects
Physics - Instrumentation and Detectors
Abstract

The purpose was two-fold: To explore the capability of the Diamond Synchrotron infra-red so as to include near-field photothermal microspectroscopy (PTMS); and Toward a quantitative nanohistology - investigation of scleroderma using synchrotron radiation (mu- FTIR). With recent advances in AFM, the integration of an IR temperature-based system on an IR beamline is still a promising and unique approach. These preliminary tests of the PTMS stand-alone system with the Diamond Multimode InfraRed Imaging and Microspectroscopy beamline (MIRIAM) were successful in one beamtime. To our knowledge, this is still among very few studies worldwide that managed to interface an AFM-resistive probe to measure an infrared spectrum using synchrotron radiation (SR) as a source. When the alignment was successful, we managed to obtain good spectra on samples that were strong infrared absorbers. However, the alignment could not be guaranteed all the time, and the signal-to-noise ratio became too low to record any meaningful spectra on samples deemed of scientific interest for this proposal. We clarified the possible improvements to PTMS instrumentation and data acquisition needed to ensure that we can collect sufficient thermal signals from very thin samples., Comment: 10 pages.12 figures, two additional references with relevant comments added to text

Published
2022

8. Beneath HMGA2 alterations in pleomorphic adenomas: Pathological, immunohistochemical, and molecular insights

Author

Ala-Eddine, C., Aubry, K., Babin, E., Bach, C., Badoual, C., Baglin, A.C., Barry, B., Bastit, V., Baujat, B., Benezery, K., Bensadoun, R.J., Benzerdjeb, N., Bernadach, M., Bertolus, C., Biet, A., Bodmer, D., Boisselier, P., Boulagnon-Rombi, C., Bozec, L., Grayeli, A.Bozorg, Brenet, E., Brugel, L., Calais, G., Calugaru, V., Camby, S., Casiraghi, O., Cassagnau, E., Castain, C., Castelli, J., Ceruse, P., Chabolle, F., Chevalier, D., Choussy, O., Clatot, F., Constans, J.M., Coste, A., Coste, F., Costes, V., Cottier, J.P., Coutte, A., Cristofari, J.P., Cupissol, D., Delgrande, J., Delord, J.P., Devauchelle, B., Digue, L., Dolivet, G., Doré, M., Duflo, S., Dufour, X., Dupin, C., Eker, E., Even, C., Evrard, C., Fabiano, E., Faivre, S., Fakhry, N., Ferrand, F.R., Frandon, J., Franetti, D., de Gabory, L., Galy, C., Garcier, M., Garrel, R., Gauthier, H., Gilain, L., Guihard, S., Guillerm, S., Halimi, C., Hans, S., Herman, P., Houessinon, A., Hourseau, M., Huguet, F., Jadaud, E., Jankowski, R., Jeanne, C., Jegoux, F., Juliéron, M., Kaci, R., Kaminsky, M.-C., de Kermadec, H., Kolb, F., Kreps, S., Laadhari, M., Saint Guily, J. Lacau, Laccoureye, L., Lae, M., Lagarde, F., Lagrange, A., Lallemant, B., Lamuraglia, M., Lang, P., Lapeyre, M., Lapierre, A., Cardon, A.Lasne, Le Tourneau, C., Lefebvre, G., Lefevre, M., Lelonge, Y., Leroy, X., Lesnik, M., Liem, X., Linassier, C., Maingon, P., Majoufre, C., Malard, O., Malouf, G., Marchand, C., Marie, J.-P., Maurina, T., Mauvais, O., Merol, J.-C., Michel, J., Mineur, G., Mirafzal, S., Mirghani, H., Modesto, A., Molinier-Blossier, S., de Monès, E., Morinière, S., Mouawad, F., Moya-Plana, A., Muller, L., Musat, E., Nguyen, F., Noel, G., Obongo-Anga, F.R., Onea, M., Orliac, H., Page, C., Patron, V., Pestre, J., Dang, N. Pham, Philouze, P., Poissonnet, G., Pons, C., Pouliquen, C., J.-M.Prades, Prevost, A., Queiros, C., Rahmani, A., Rambeau, A., Ramin, L., Renard, S., Siegfried, A., Righini, C.A., Rolland, F., Saada, E., Sacino, F., Salas, S., Saroul, N., Schultz, P., Simonaggio, A., Sterkers, O., Strunski, V., Sudaka, A., Xu-Shan, S., Taouachi, R., Tassart, M., Testelin, S., J.Thariat, David, M. Timar, Timochenko, A., Toussaint, B., Coste, E. Uro, Valette, G., Van den Abbele, T., Varoquaux, A., Vauleon, E., Vergez, S., Verillaud, B., Villa, J., Villepelet, A., Volondat, M., Vulquin, N., Wagner, I., Wassef, M., Webert, L., Wong, S., Alsugair, Ziyad, Lépine, Charles, Descotes, Françoise, Lanic, Marie-Delphine, Pissaloux, Daniel, Tirode, Franck, Lopez, Jonathan, Céruse, Philippe, Philouze, Pierre, Fieux, Maxime, Wassef, Michel, Baglin, Anne-Catherine, Mihaela, Onea, Castain, Claire, Sudaka, Anne, Uro-Coste, Emmanuelle, Champagnac, Anne, Costes-Martineau, Valérie, Laé, Marick, and Benzerdjeb, Nazim

Published
2024
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9. Characterization of a Molecularly Distinct Subset of Oncocytic Pleomorphic Adenomas/Myoepitheliomas Harboring Recurrent ZBTB47-AS1: PLAG1 Gene Fusion

Author

Alsugair, Ziyad, Perrot, Jimmy, Descotes, Françoise, Lopez, Jonathan, Champagnac, Anne, Pissaloux, Daniel, Castain, Claire, Onea, Mihaela, Céruse, Philippe, Philouze, Pierre, Lépine, Charles, Lanic, Marie-Delphine, Laé, Marick, Costes-Martineau, Valérie, Benzerdjeb, Nazim, Ala-Eddine, C., Aubry, K., Babin, E., Bach, C., Badoual, C., Baglin, A.C., Barry, B., Bastit, V., Baujat, B., Benezery, K., Bensadoun, R.J., Benzerdjeb, N., Bernadach, M., Bertolus, C., Biet, A., Bodmer, D., Boisselier, P., Boulagnon-Rombi, C., Bozec, L., Grayeli, A. Bozorg, Brenet, E., Brugel, L., Calais, G., Calugaru, V., Camby, S., Casiraghi, O., Cassagnau, E., Castain, C., Castelli, J., Ceruse, P., Chabolle, F., Chevalier, D., Choussy, O., Clatot, F., Constans, J.M., Coste, A., Coste, F., Costes, V., Cottier, J.P., Coutte, A., Cristofari, J.P., Cupissol, D., Delgrande, J., Delord, J.P., Devauchelle, B., Digue, L., Dolivet, G., Doré, M., Duflo, S., Dufour, X., Dupin, C., Eker, E., Even, C., Evrard, C., Fabiano, E., Faivre, S., Fakhry, N., Ferrand, F. R., Frandon, J., Franetti, D., de Gabory, L., Galy, C., Garcier, M., Garrel, R., Gauthier, H., Gilain, L., Guihard, S., Guillerm, S., Halimi, C., Hans, S., Herman, P., Houessinon, A., Hourseau, M., Huguet, F., Jadaud, E., Jankowski, R., Jeanne, C., Jegoux, F., Juliéron, M., Kaci, R., Kaminsky, M.-C., de Kermadec, H., Kolb, F., Kreps, S., Laadhari, M., Saint Guily, J. Lacau, Laccoureye, L., Lae, M., Lagarde, F., Lagrange, A., Lallemant, B., Lamuraglia, M., Lang, P., Lapeyre, M., Lapierre, A., Cardon, A. Lasne, Le Tourneau, C., Lefebvre, G, Lefevre, M., Lelonge, Y., Leroy, X., Lesnik, M., Liem, X., Linassier, C., Maingon, P., Majoufre, C., Malard, O., Malouf, G., Marchand, C., Marie, J.-P., Maurina, T., Mauvais, O., Merol, J.-C., Michel, J., Mineur, G., Mirafzal, S., Mirghani, H., Modesto, A., Molinier-Blossier, S., de Monès, E., Morinière, S., Mouawad, F., Moya-Plana, A, Muller, L., Musat, E., Nguyen, F., Noel, G., Obongo-Anga, F.R., Onea, M., Orliac, H., Page, C., Patron, V., Pestre, J., Dang, N. Pham, Philouze, P., Poissonnet, G., Pons, C., Pouliquen, C., Prades, J.-M., Prevost, A., Queiros, C., Rahmani, A., Rambeau, A., Ramin, L., Renard, S., Righini, C.A., Rolland, F., Saada, E., Sacino, F., Salas, S., Saroul, N., Schultz, P., Simonaggio, A., Sterkers, O., Strunski, V., Sudaka, A., Xu-Shan, S., Taouachi, R., Tassart, M., Testelin, S., Thariat, J., David, M. Timar, Timochenko, A., Toussaint, B., Coste, E. Uro, Valette, G., Van den Abbele, T., Varoquaux, A., Vauleon, E., Vergez, S., Verillaud, B., Villa, J., Villepelet, A., Volondat, M., Vulquin, N., Wagner, I., Wassef, M., Webert, L., and Wong, S.

Published
2024
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10. Impact of facial nerve resection in parotid cancer abutting the facial nerve without preoperative paralysis: A multicentric propensity score-based analysis

Author

Ala-Eddine, C., Aubry, K., Babin, E., Bach, C., Badoual, C., Baglin, A.C., Barry, B., Bastit, V., Baujat, B., Benezery, K., Bensadoun, R.J., Benzerdjeb, N., Bernadach, M., Bertolus, C., Bettoni, J., Biet, A., Bodmer, D., Boisselier, P., Boulagnon-Rombi, C., Bozec, L., Bozorg Grayeli, A., Brenet, E., Brugel, L., Calais, G., Calugaru, V., Camby, S., Casiraghi, O., Cassagnau, E., Castain, C., Castelli, J., Ceruse, P., Chabolle, F., Chevalier, D., Choussy, O., Classe, M., Clatot, F., Colin, E., Constans, J.M., Coste, A., Coste, F., Costes, V., Cottier, J.P., Coutte, A., Cristofari, J.P., Cupissol, D., Delgrande, J., Delord, J.P., Devauchelle, B., Digue, L., Dolivet, G., Doré, M., Duflo, S., Dufour, X., Dupin, C., Eker, E., Espitalier, F., Even, C., Evrard, C., Fabiano, E., Faivre, S., Fakhry, N., Ferrand, F.R., Frandon, J., Franetti, D., de Gabory, L., Galy, C., Garcier, M., Garrel, R., Gauthier, H., Gilain, L., Guihard, S., Guillerm, S., Halimi, C., Hans, S., Herman, P., Houessinon, A., Hourseau, M., Huguet, F., Jadaud, E., Jankowski, R., Jeanne, C., Jegoux, F., Juliéron, M., Kaci, R., Kaminsky, M.-C., de Kermadec, H., Kolb, F., Kreps, S., Laadhari, M., Lacau Saint Guily, J., Laccoureye, L., Lae, M., Lagarde, F., Lagrange, A., Lallemant, B., Lamuraglia, M., Lang, P., Lapeyre, M., Lapierre, A., Lasne Cardon, A., Le Tourneau, C., Lefebvre, G., Lefevre, M., Lelonge, Y., Leroy, X., Lesnik, M., Liem, X., Linassier, C., Maingon, P., Majoufre, C., Malard, O., Malouf, G., Marchand, C., Marie, J.-P., Maurina, T., Mauvais, O., Merol, J.-C., Michel, J., Mineur, G., Mirafzal, S., Mirghani, H., Modesto, A., Molinier-Blossier, S., de Monès, E., Morinière, S., Mouawad, F., Moya-Plana, A., Muller, L., Musat, E., Nguyen, F., Noel, G., Obongo-Anga, F.R., Onea, M., Orliac, H., Page, C., Patron, V., Pestre, J., Pham Dang, N., Philouze, P., Poissonnet, G., Pons, C., Pouliquen, C., Prades, J.-M., Prevost, A., Queiros, C., Rahmani, A., Rambeau, A., Ramin, L., Renard, S., Righini, C.A., Rolland, F., Saada, E., Sacino, F., Salas, S., Saroul, N., Schultz, P., Simonaggio, A., Sterkers, O., Strunski, V., Sudaka, A., Xu-Shan, S., Taouachi, R., Tassart, M., Testelin, S., Thariat, J., Timar David, M., Timochenko, A., Toussaint, B., Uro Coste, E., Valette, G., Van den Abbeele, T., Varoquaux, A., Vauleon, E., Vergez, S., Verillaud, B., Villa, J., Villepelet, A., Volondat, M., Vulquin, N., Wagner, I., Wassef, M., Webert, L., Wong, S., Chatelet, Florian, Chevret, Sylvie, Fakhry, Nicolas, Even, Caroline, Malard, Olivier, de Monès, Erwan, Saroul, Nicolas, Mouawad, François, de Boutray, Marie, Mauvais, Olivier, Vergez, Sébastien, Evrard, Diane, Righini, Christian, Schultz, Philippe, Baudouin, Robin, Poissonnet, Gilles, Atallah, Sarah, Haroun, Fabienne, Morinière, Sylvain, Evrard, Camille, Philouze, Pierre, Paasche, Agnès, Lesnik, Maria, Lelonge, Yann, Herman, Philippe, and Verillaud, Benjamin

Published
2024
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12. Characterization of a Molecularly Distinct Subset of Oncocytic Pleomorphic Adenomas/Myoepitheliomas Harboring Recurrent ZBTB47-AS1::PLAG1Gene Fusion

Author

Alsugair, Ziyad, Perrot, Jimmy, Descotes, Françoise, Lopez, Jonathan, Champagnac, Anne, Pissaloux, Daniel, Castain, Claire, Onea, Mihaela, Céruse, Philippe, Philouze, Pierre, Lépine, Charles, Lanic, Marie-Delphine, Laé, Marick, Costes-Martineau, Valérie, Benzerdjeb, Nazim, Ala-Eddine, C., Aubry, K., Babin, E., Bach, C., Badoual, C., Baglin, A.C., Barry, B., Bastit, V., Baujat, B., Benezery, K., Bensadoun, R.J., Benzerdjeb, N., Bernadach, M., Bertolus, C., Biet, A., Bodmer, D., Boisselier, P., Boulagnon-Rombi, C., Bozec, L., Grayeli, A. Bozorg, Brenet, E., Brugel, L., Calais, G., Calugaru, V., Camby, S., Casiraghi, O., Cassagnau, E., Castain, C., Castelli, J., Ceruse, P., Chabolle, F., Chevalier, D., Choussy, O., Clatot, F., Constans, J.M., Coste, A., Coste, F., Costes, V., Cottier, J.P., Coutte, A., Cristofari, J.P., Cupissol, D., Delgrande, J., Delord, J.P., Devauchelle, B., Digue, L., Dolivet, G., Doré, M., Duflo, S., Dufour, X., Dupin, C., Eker, E., Even, C., Evrard, C., Fabiano, E., Faivre, S., Fakhry, N., Ferrand, F. R., Frandon, J., Franetti, D., de Gabory, L., Galy, C., Garcier, M., Garrel, R., Gauthier, H., Gilain, L., Guihard, S., Guillerm, S., Halimi, C., Hans, S., Herman, P., Houessinon, A., Hourseau, M., Huguet, F., Jadaud, E., Jankowski, R., Jeanne, C., Jegoux, F., Juliéron, M., Kaci, R., Kaminsky, M.-C., de Kermadec, H., Kolb, F., Kreps, S., Laadhari, M., Saint Guily, J. Lacau, Laccoureye, L., Lae, M., Lagarde, F., Lagrange, A., Lallemant, B., Lamuraglia, M., Lang, P., Lapeyre, M., Lapierre, A., Cardon, A. Lasne, Le Tourneau, C., Lefebvre, G, Lefevre, M., Lelonge, Y., Leroy, X., Lesnik, M., Liem, X., Linassier, C., Maingon, P., Majoufre, C., Malard, O., Malouf, G., Marchand, C., Marie, J.-P., Maurina, T., Mauvais, O., Merol, J.-C., Michel, J., Mineur, G., Mirafzal, S., Mirghani, H., Modesto, A., Molinier-Blossier, S., de Monès, E., Morinière, S., Mouawad, F., Moya-Plana, A, Muller, L., Musat, E., Nguyen, F., Noel, G., Obongo-Anga, F.R., Onea, M., Orliac, H., Page, C., Patron, V., Pestre, J., Dang, N. Pham, Philouze, P., Poissonnet, G., Pons, C., Pouliquen, C., Prades, J.-M., Prevost, A., Queiros, C., Rahmani, A., Rambeau, A., Ramin, L., Renard, S., Righini, C.A., Rolland, F., Saada, E., Sacino, F., Salas, S., Saroul, N., Schultz, P., Simonaggio, A., Sterkers, O., Strunski, V., Sudaka, A., Xu-Shan, S., Taouachi, R., Tassart, M., Testelin, S., Thariat, J., David, M. Timar, Timochenko, A., Toussaint, B., Coste, E. Uro, Valette, G., Van den Abbele, T., Varoquaux, A., Vauleon, E., Vergez, S., Verillaud, B., Villa, J., Villepelet, A., Volondat, M., Vulquin, N., Wagner, I., Wassef, M., Webert, L., and Wong, S.

Abstract

Recurrent gene fusions are common in salivary gland tumors including benign tumors, such as pleomorphic adenoma (PA) and myoepithelioma (ME). In cases where chromosomal rearrangement is identified in the pleomorphic adenoma gene 1 (PLAG1)gene, different gene partners are found. Oncocytic metaplasia, characterized by oncocytes with abundant eosinophilic granular cytoplasm and hyperchromatic nuclei, is a well-known phenomenon in salivary gland neoplasms. However, the pure oncocytic variant of PA/ME showed PLAG1gene rearrangements involving various gene partners at the molecular level, without any recurrent fusion being found. Our study includes 20 cases of PA/ME, with 11 females and 9 males. The age of patients ranged from 37 to 96 years, with a median age of 62.8 years. Most tumors originate from the parotid gland. The median size of the tumor was 26.5 mm (range: 13 to 60 mm). Among the 20 cases, 14 were a pure oncocytic variant of PA/ME, whereas 6 cases showed focal oncocytic or oncocytic-like aspects. Molecular studies on 20 cases of PA/ME were conducted. A novel recurrent ZBTB47-AS1::PLAG1fusion was identified in 6 of 12 cases with pure oncocytic metaplasia, whereas the other cases had PLAG1gene fusion with different gene partners. The transcriptomic analysis of the cases harboring ZBTB47-AS1::PLAG1fusion demonstrated that these tumors have a distinct molecular profile from conventional PA/ME. This study reveals a unique subset in the oncocytic PA/ME spectrum characterized by pure oncocytic morphology with larger oncocytic cells and recurrent ZBTB47-AS1::PLAG1fusion. It also highlights the transcriptomic distinctness of salivary gland adenomas with pure oncocytic metaplasia in the spectrum of salivary gland neoplasms. Further studies are needed to better understand the oncocytic variant of PA/ME and to determine the true nature of oncocytic cells in PA/ME.

Published
2024
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15. sj-docx-1-jdr-10.1177_00220345231166294 – Supplemental material for Nanoscale Dynamics of Streptococcal Adhesion to AGE-Modified Collagen

Author

Leiva-Sabadini, C., Tiozzo-Lyon, P., Hidalgo-Galleguillos, L., Rivas, L., Robles, A.I., Fierro, A., Barrera, N.P., Bozec, L., Schuh, C.M.A.P., and Aguayo, S.

Subjects
110599 Dentistry not elsewhere classified, FOS: Materials engineering, FOS: Clinical medicine, 91299 Materials Engineering not elsewhere classified
Abstract

Supplemental material, sj-docx-1-jdr-10.1177_00220345231166294 for Nanoscale Dynamics of Streptococcal Adhesion to AGE-Modified Collagen by C. Leiva-Sabadini, P. Tiozzo-Lyon, L. Hidalgo-Galleguillos, L. Rivas, A.I. Robles, A. Fierro, N.P. Barrera, L. Bozec, C.M.A.P. Schuh and S. Aguayo in Journal of Dental Research

Published
2023
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16. sj-docx-1-jdr-10.1177_00220345211072484 ��� Supplemental material for Nanomechanical and Molecular Characterization of Aging in Dentinal Collagen

Author

Schuh, C.M.A.P., Leiva-Sabadini, C., Huang, S., Barrera, N.P., Bozec, L., and Aguayo, S.

Subjects
110599 Dentistry not elsewhere classified, FOS: Materials engineering, FOS: Clinical medicine, 91299 Materials Engineering not elsewhere classified
Abstract

Supplemental material, sj-docx-1-jdr-10.1177_00220345211072484 for Nanomechanical and Molecular Characterization of Aging in Dentinal Collagen by C.M.A.P. Schuh, C. Leiva-Sabadini, S. Huang, N.P. Barrera, L. Bozec and S. Aguayo in Journal of Dental Research

Published
2022
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20. Controlled environment neutron radiography of moisture\ud sorption/desorption in nanocellulose-treated cotton painting canvases

Author

Bridarolli, A., Odlyha, Marianne, Burca, G., Duncan, J.C., Akeroyd, F.A., Church, A., and Bozec, L.

Subjects
bcs
Abstract

Nanocellulose-based materials have recently been used\ud to consolidate degraded cotton painting canvases. Canvas-supported\ud paintings consist of materials that are sensitive to moisture and\ud especially susceptible to environmental fluctuations in temperature and\ud relative humidity (RH). These environmental fluctuations occur in\ud uncontrolled environments found in historic houses and palaces and\ud can lead to hydrolytic degradation and mechanical damage to canvases.\ud To simulate this situation in an experimental setting, canvas samples\ud were mounted in a custom-made closed-cell and subjected to\ud programmed cycles of RH at a controlled temperature while exposed\ud to the neutron beam. Results are presented for both untreated samples\ud and those treated with a polar consolidant, cellulose nanofibrils\ud (CNF(aq)) in water, and an apolar consolidant, a composite of\ud persilylated methyl cellulose with surface silylated cellulose nanocrystals\ud (MC+CNC(h)) in heptane. They were then compared with changes in ionic conductivities as measured by dielectric analysis\ud (DEA) with the same cyclic RH program and temperature. Although the samples were exposed to the same experimental conditions,\ud they presented treatment-specific responses. CNF-treated canvas showed higher hygroscopicity than the untreated sample and\ud facilitated moisture diffusion across the sample to areas not exposed to the environment. A sample treated with MC+CNC(h)\ud retarded moisture diffusion during the increase in RH and could, therefore, afford protection to moisture absorption in uncontrolled\ud environments. Thus, the experimental setup and resulting data provide a pilot study demonstrating the potential of neutron\ud radiography in following and comparing real-time moisture diffusion dynamics in untreated and nanocellulose-consolidated cotton\ud canvases and assisting in validating the overall benefit of the treatment

Published
2021

21. Incidence and prognostic factors of clinically meaningful toxicities of kinase inhibitors in older patients with cancer: The PreToxE study

Author

Lebreton, C., CANTAREL, C., TOULZA, E., DESGRIPPES, R., BOZEC, L., Saada, E., Ducoulombier, A., Tardy, M., Paillaud, E., Lalet, C., Bellera, Carine, Italiano, A., Bordeaux population health (BPH), and Université de Bordeaux (UB)-Institut de Santé Publique, d'Épidémiologie et de Développement (ISPED)-Institut National de la Santé et de la Recherche Médicale (INSERM)

Subjects
[SDV.SPEE]Life Sciences [q-bio]/Santé publique et épidémiologie, respiratory tract diseases
Abstract

Most of the safety data of tyrosine and serine/threonine kinase inhibitors (TKIs) approved for cancer treatment are extrapolated from larger trials in which older patients generally accounted for a small fraction of the participants. The Predicting Severe Toxicity of Targeted Therapies in Elderly Patients With Cancer study (PreToxE)PreToxE study aims to describe the incidence and prognostic factors of clinically meaningful toxicities of TKI in patients with cancer aged over 70 years. The primary endpoint was incidence of severe toxicity, defined as treatment-related death, persistent or significant disability/incapacity, hospitalization or the discontinuation of TKI treatment for more than three weeks. Our results indicate that despite frequent upfront dose reduction, clinically meaningful toxicities occurred in approximately 40% of older patients treated with TKIs. The use of at least three concomitant medications is an independent predictor of clinically meaningful toxicities.

Published
2020

22. Influence of root maturity or periodontal involvement on dentinal collagen changes following NaOCL irrigation: an ex-vivo study

Author

Browne, J.T., Ng, Y.-L., Odlyha, Marianne, Gulablvala, K., and Bozec, L.

Subjects
stomatognathic system, bcs
Abstract

\ud Aims: To refine FTIR protocol for detection of NaOCl-induced dentinal collagen changes using an ex- vivo irrigation model, and to apply it to determine the collagen change within 0.5mm of canal or root surfaces, with or without mature roots or periodontal involvement.\ud Methodology: Extracted human roots were irrigated with control saline (n=3) or 5% NaOCl (n=3) and sectioned into transverse discs for FTIR analyses, 0.5mm from both the canal lumen and root surface, before and after surface-treatment with 17% EDTA. Amide I/phosphate and amide II/phosphate absorbance ratios were compared using the Wilcoxon sign rank test. Mature roots without periodontal involvement were irrigated with: saline (n=7), 5% NaOCl (n=7), or 5% NaOCl+17% EDTA (n=7); those with periodontal involvement (n=7) or immature roots (n=7) were irrigated with 5% NaOCl. Dentine discs were then prepared for FTIR analyses. The effects of irrigant/root-maturity/periodontal involvement were analysed using linear mixed models.\ud Results: FTIR analyses of the irrigated samples revealed significant (P < 0.05) reduction in collagen bands near the canal lumen after NaOCl irrigation using surface-EDTA treated samples. Irrigation with test solutions resulted in significant (P < 0.0001) dentinal collagen changes in the mature roots, whilst those in the immature roots were significantly (P < 0.05) greater compared with the mature roots with or without periodontal involvement; but there were no difference between the latter groups.\ud Conclusion: EDTA surface-treatment of polished dentine surfaces enhanced FTIR detection of NaOCl-induced collagen changes. Both root maturity and irrigation protocol influenced the ability of NaOCl to alter dentinal collagen up to 0.5mm from the canal lumen.

Published
2020

30. A phase II of gemcitabine combined with pazopanib followed by pazopanib maintenance, as second-line treatment in patients with advanced leiomyosarcomas: A unicancer French Sarcoma Group study (LMS03 study)

Author

Pautier, P., primary, Penel, N., additional, Ray-Coquard, I., additional, Italiano, A., additional, Bompas, E., additional, Delcambre, C., additional, Bay, J.-O., additional, Bertucci, F., additional, Delaye, J., additional, Chevreau, C., additional, Cupissol, D., additional, Bozec, L., additional, Eymard, J.-C., additional, Saada, E., additional, Isambert, N., additional, Guillemet, C., additional, Rios, M., additional, Piperno-Neumann, S., additional, Chenuc, G., additional, and Duffaud, F., additional

Published
2020
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33. Phenotypic Properties of Collagen in Dentinogenesis Imperfecta Associated with Osteogenesis Imperfecta

Author

Ibrahim,S, Strange,Adam P, Aguayo,S, Shinawi,Albatool, Harith,Nabilah, Mohamed-Ibrahim,Nurjehan, Siddiqui,Samera, Parekh,Susan, Bozec,L, Ibrahim,S, Strange,Adam P, Aguayo,S, Shinawi,Albatool, Harith,Nabilah, Mohamed-Ibrahim,Nurjehan, Siddiqui,Samera, Parekh,Susan, and Bozec,L

Abstract

Salwa Ibrahim,1,* Adam P Strange,2,* Sebastian Aguayo,2,3 Albatool Shinawi,1 Nabilah Harith,1 Nurjehan Mohamed-Ibrahim,1 Samera Siddiqui,2 Susan Parekh,1 Laurent Bozec4 1Department of Paediatric Dentistry, UCL Eastman Dental Institute, University College London, London, UK; 2Department of Biomaterials and Tissue Engineering, UCL Eastman Dental Institute, University College London, London, UK; 3School of Dentistry, Faculty of Medicine, Pontificia Universidad Católica de Chile, Santiago, Chile; 4Faculty of Dentistry, University of Toronto, Toronto, Canada*These authors contributed equally to this workCorrespondence: Laurent BozecFaculty of Dentistry, University of Toronto, 124 Edward Street, Toronto ON M5G 1G6, CanadaEmail L.bozec@utoronto.caIntroduction: Dentinogenesis imperfecta type 1 (OIDI) is considered a relatively rare genetic disorder (1:5000 to 1:45,000) associated with osteogenesis imperfecta. OIDI impacts the formation of collagen fibrils in dentin, leading to morphological and structural changes that affect the strength and appearance of teeth. However, there is still a lack of understanding regarding the nanoscale characterization of the disease, in terms of collagen ultrastructure and mechanical properties. Therefore, this research presents a qualitative and quantitative report into the phenotype and characterization of OIDI in dentin, by using a combination of imaging, nanomechanical approaches.Methods: For this study, 8 primary molars from OIDI patients and 8 primary control molars were collected, embedded in acrylic resin and cut into longitudinal sections. Sections were then demineralized in 37% phosphoric acid using a protocol developed in-house. Initial experiments demonstrated the effectiveness of the demineralization protocol, as the ATR-FTIR spectral fingerprints showed an increase in the amide bands together with a decrease in phosphate content. Structural and mechanical analyses were performed directly on both the mineralized and de

Published
2019

35. Proof‐of‐concept study to establish an in situ method to determine the nature and depth of collagen changes in dentine using Fourier Transform Infra‐Red spectroscopy after sodium hypochlorite irrigation

Author

Morgan, A.D., Ng, Y.‐L., Odlyha, Marianne, Gulabivala, K., and Bozec, L.

Subjects
stomatognathic diseases, stomatognathic system, sense organs, bcs
Abstract

AIM:\ud To establish a method using Fourier Transform Infra-Red spectroscopy (FTIR) to characterize the nature and depth of changes in dentinal collagen following exposure to sodium hypochlorite (NaOCl) during root canal irrigation in an ex vivo model.\ud \ud METHODOLOGY:\ud Fourier Transform Infra-Red spectroscopy was used to assess the changes in dentinal collagen when the root canal was exposed to NaOCl. The changes in dentinal collagen caused by NaOCl irrigation of root canals in transverse sections of roots, at 0.5 mm from the canal wall and 0.5 mm from the external root surface, were assessed by FTIR. The data were analysed using paired t-test with 5% significance level.\ud \ud RESULTS:\ud Fourier Transform Infra-Red spectroscopy confirmed that NaOCl exposure caused alterations in the chemistry and structure of collagen in dentine. FTIR spectra obtained from dentine surfaces and dentine adjacent to root canals exposed to NaOCl, all consistently showed degradation and conformational change of the collagen structure. FTIR data from the ex vivo model showed that the depth of effect of NaOCl extended to at least 0.5 mm from the canal wall.\ud \ud CONCLUSION:\ud In extracted human teeth, NaOCl caused changes in dentinal collagen that were measurable by FTIR. In an ex vivo model, the depth of effect into dentine extended at least 0.5 mm from the canal wall.

Published
2018

36. Personalized treatment according to geriatric assessment in first-line recurrent and/or metastatic (R/M) head and neck squamous cell cancer (HNSCC) patients aged 70 or over: ELAN (ELderly heAd and Neck cancer) FIT and UNFIT trials

Author

Guigay, J., primary, Auperin, A., additional, Mertens, C., additional, Even, C., additional, Geoffrois, L., additional, Cupissol, D., additional, Rolland, F., additional, Sire, C., additional, Fayette, J., additional, Peyrade, F., additional, Blot, E., additional, Debourdeau, P., additional, Bozec, L., additional, Capitain, O., additional, Pointreau, Y., additional, Brard, C., additional, Michel, C., additional, Schwob, D., additional, Ortholan, C., additional, and Le Caer, H., additional

Published
2019
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41. Modulatory Effect of Glycated Collagen on Oral Streptococcal Nanoadhesion.

Author

Schuh, C.M.A.P., Benso, B., Naulin, P.A., Barrera, N.P., Bozec, L., and Aguayo, S.

Subjects
BACTERIAL adhesion, STREPTOCOCCAL diseases, GLYCOPROTEINS, COLLAGEN, BIOFILMS
Abstract

Biofilm-mediated oral diseases such as dental caries and periodontal disease remain highly prevalent in populations worldwide. Biofilm formation initiates with the attachment of primary colonizers onto surfaces, and in the context of caries, the adhesion of oral streptococci to dentinal collagen is crucial for biofilm progression. It is known that dentinal collagen suffers from glucose-associated crosslinking as a function of aging or disease; however, the effect of collagen crosslinking on the early adhesion and subsequent biofilm formation of relevant oral streptococci remains unknown. Therefore, the aim of this work was to determine the impact of collagen glycation on the initial adhesion of primary colonizers such as Streptococcus mutans UA159 and Streptococcus sanguinis SK 36, as well as its effect on the early stages of streptococcal biofilm formation in vitro. Type I collagen matrices were crosslinked with either glucose or methylglyoxal. Atomic force microscopy nanocharacterization revealed morphologic and mechanical changes within the collagen matrix as a function of crosslinking, such as a significantly increased elastic modulus in crosslinked fibrils. Increased nanoadhesion forces were observed for S. mutans on crosslinked collagen surfaces as compared with the control, and retraction curves obtained for both streptococcal strains demonstrated nanoscale unbinding behavior consistent with bacterial adhesin-substrate coupling. Overall, glucose-crosslinked substrates specifically promoted the initial adhesion, biofilm formation, and insoluble extracellular polysaccharide production of S. mutans, while methylglyoxal treatment reduced biofilm formation for both strains. Changes in the adhesion behavior and biofilm formation of oral streptococci as a function of collagen glycation could help explain the biofilm dysbiosis seen in older people and patients with diabetes. Further studies are necessary to determine the influence of collagen crosslinking on the balance between acidogenic and nonacidogenic streptococci to aid in the development of novel preventive and therapeutic treatment against dental caries in these patients. [ABSTRACT FROM AUTHOR]

Published
2021
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45. Localized photothermal infrared spectroscopy using a proximal probe.

Author

Bozec, L., Hammiche, A., Pollock, H. M., Conroy, M., Chalmers, J. M., Everall, N. J., and Turin, L.

Subjects
*FOURIER transform infrared spectroscopy, *POLYMERS
Abstract

A near-field thermal probe, as used in scanning thermal microscopy, is used to obtain photothermal Fourier transform infrared (FT-IR) spectra of polymers, as a first step toward developing FT-IR microscopy at a spatial resolution better than the diffraction limit. The signal from the probe after amplification provides an interferogram, and the resultant spectra are consistent with those obtained by means of the established technique of attenuated total reflection FT-IR spectroscopy. We have extended this technique to the analysis of “real-world” industrial samples, both solid (a fungicide in a fine powder form) and liquid (a concentrated surfactant solution). The overall shapes of the main peaks or bands reflect the fact that the spectrum is a convolution of different contributions from both optical and thermal properties. To confirm the feasibility of subsurface detection of polymers, we demonstrate the ability of the technique to perform spectroscopic detection of a model polymeric bilayer system, polyisobutylene on top of polystyrene. A quantitative analysis of the variation of peak height with coating thickness allows values of thermal diffusion length to be derived. This investigation provides a preliminary result for the understanding of the depth sensitivity of the current setup. Relative intensity distortions are seen, and are attributed to photothermal saturation. A complementary technique has been developed that uses tunable monochromatic radiation, using an optical parametric generator as the infrared source. Spectra have successfully been obtained using the same localized photothermal detection principle. © 2001 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published
2001
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47. Geographical analysis for the integration of a microalgae production and biorefining unit in 'Pays de la Loire'

Author

BISCAÏNO, S., Bizard, A., BOZEC, L., CHEREL, D., CHIQUET, L., DILASSER, J., Dupont, A., Fang, X., Gestin, M., HAINIGUE, G., KERBOULL, J., Lamarre, M., MEGEVAND, L., Michaud, M., Moussavou, J., TRUS, M., Chadenas, C, Chauveau, E, Couallier, Estelle, Master-GAEM (promotion 2015-2016), Université de Nantes (UN), and Centre National de la Recherche Scientifique (CNRS)

Subjects
[SPI.GPROC]Engineering Sciences [physics]/Chemical and Process Engineering, [SHS.GEO]Humanities and Social Sciences/Geography
Abstract

International audience; Microalgae are photosynthetic species able to transform carbon dioxide, for example from combustion processes, into biomass and valuable molecules (lipids, proteins, antioxidants, polysaccharides etc.). The team “Marine bioprocesses and separations” of GEPEA laboratory has been developing an integrated approach to valorise microalgae, from the culture to the biorefinery, for several years. A new collaboration was build with geographers (LETG-Nantes) to explore the French geographic areas where an industrial microalgae production and biorefining unit could be built. A database on the scale of metropolitan France was realized including the parameters for the culture of microalgae (light, water, carbon dioxide, nitrogen, phosphorus, heat, available lands). Three sizes of production unit were taken into account to identify potential zones of installation. Maps were then produced to compare the most interesting sites. This first work was followed by a second, to study more details on the coast of Pays de la Loire. Besides the choice of the site, new criteria were added: regulatory requirements in the installation, perception of the project by local actors (local authorities, public, neighbourhood) that must be known to prepare a local integration.

Published
2016

48. Computational study of glucosepane-water and hydrogen bond formation: an electron topology and orbital analysis

Author

Nash, A, Saßmannshausen, J, Bozec, L, Birch, HL, and de Leeuw, NH

Subjects
QD
Abstract

The collagen protein provides tensile strength to the extracellular matrix in addition to localising cells, proteins and protein cofactors. Collagen is susceptible to a build up of glycation modifications as a result of an exceptionally long half-life. Glucosepane is a collagen cross-linking advanced glycation end product; the structural and mechanical effects of glucosepane are still the subjects of much debate. With the prospect of an ageing population, the management and treatment of age-related diseases is becoming a pressing concern. One area of interest is the isolation of hydrated glucosepane, which has yet to be reported at an atomistic level. This study presents a series of glucosepane–water complexes within an implicit aqueous environment. Electronic structure calculations were performed using density functional theory and a high level basis set. Hydrogen bonds between glucosepane and explicit water were identified by monitoring changes to covalent bonds, calculating levels of electron donation from Natural Bonding Orbital analysis and the detection of bond critical points. Hydrogen bond strength was calculated using second-order perturbation calculations. The combined results suggest that glucosepane is very hydrophilic, with the imidazole feature being energetically more attractive to water than either hydroxyl group, although all hydrogen bonds, regardless of bond strength, were electrostatic in nature. Our results are in growing support of an earlier hypothesis that cross-links may result in an increase in interstitial water retention, which would permit the collagen fibril to swell, thereby potentially affecting the tensile and compression properties and biological function of connective tissues.

Published
2016

49. Nanomaterials for the cleaning and pH adjustment of vegetable tanned leather

Author

Baglioni, M., Bartoletti, A., Bozec, L., Giorgi, R., Odlyha, Marianne, Pianorsi, D., Poggi, G., and Baglioni, P.

Subjects
bcs
Abstract

Leather artifacts in historical collections and archives are often contaminated by physical changes such as soiling, which alter their appearance and readability, and by chemical changes which occur on ageing and give rise to excessive proportion of acids that promote hydrolysis of collagen, eventually leading to gelatinization and loss of mechanical properties. However, both cleaning and pH adjustment of vegetable tanned leather pose a great challenge for conservators, owing to the sensitivity of these materials to the action of solvents, especially water-based formulations and alkaline chemicals. In this study the cleaning of historical leather samples was optimized by confining an oil-in-water (o/w) nanostructured fluid in a highly retentive chemical hydrogel, which allows the controlled release of the cleaning fluid on sensitive surfaces. The chemical gel exhibits optimal viscoelasticity, which facilitates its removal after the application without leaving residues on the object. Nanoparticles of calcium hydroxide and lactate, dispersed in 2-propanol, were used to adjust the pH up to the natural value of leather, preventing too high alkalinity which causes swelling of fibers and denaturation of the collagen. The treated samples were characterized using Scanning Electron Microscopy (FE SEM), controlled environment dynamic mechanical analysis (DMA-RH), and infrared spectroscopy (ATR-FTIR). The analytical assessment validated the use of tools derived from colloid and materials science for the preservation of collagen-based artifacts.

Published
2016

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