Thiol-ene Cross-linked Poly(glycidol) / Hyaluronic Acid Based Hydrogels for 3D Bioprinting / Thilo-En vernetzte Hydrogele basierend auf Poly(glyzidolen) und Hyaluronsäure für das 3D-Biodrucken

Schäfer [geb. Stichler], Simone

January 2019

The aim of the work was the development of thiol-ene cross-linked hydrogels based on functionalized poly(glycidol)s (PG) and hyaluronic acid (HA) for extrusion based 3D bioprinting. Additionally, the functionalization of the synthesized PG with peptides and the suitability of these polymers for physically cross-linked gels were investigated, in a proof of principle study in order to demonstrate the versatile use of PG polymers in hydrogel development. First, the precursor polymers of the different hydrogel systems were synthesized. For thiol-ene cross-linked hydogels, linear allyl-functionalized PG (P(AGE-co-G)) and three different thiol-(SH-)functionalized polymers, ester-containing PG-SH (PG SHec), ester-free PG-SH (PG-SHef) and HA-SH were synthesized and analysed, The degree of functionalization of these polymers was adjustable. For physically cross-linked hydrogels, peptide-functionalized PG (P(peptide-co-G)), was synthesized through polymer analogue thiol-ene modification of P(AGE-co-G). Subsequently, thiol-ene cross-linked hydrogels were prepared with the synthesized thiol- and allyl-functionalized polymers. Depending on the origin of the used polymers, two different systems were obtained: on the one hand synthetic hydrogels consisting of PG-SHec/ef and P(AGE-co-G) and on the other hand hybrid gels, consisting of HA-SH and P(AGE-co-G). In synthetic gels, the degradability of the gels was determined by the applied PG-SH. The use of PG-SHec resulted in hydrolytically degradable hydrogels, whereas the cross-linking with PG-SHef resulted in non-degradable gels. The physical properties of these different hydrogel systems were determined by swelling, mechanical and diffusion studies and subsequently compared among each other. In swelling studies the differences of degradable and non-degradable synthetic hydrogels as well as the differences of synthetic compared to hybrid hydrogels were demonstrated. Next, the stiffness and the swelling ratios (SR) of the established hydrogel systems were examined in dependency of different parameters, such as incubation time, polymer concentration and UV irradiation. In general, these measurements revealed the same trends for synthetic and hybrid hydrogels: an increased polymer concentration as well as prolonged UV irradiation led to an increased network density. Moreover, it was demonstrated that the incorporation of additional non-bound HMW HA hampered the hydrogel cross-linking resulting in gels with decreased stiffness and increased SR. This effect was strongly dependent on the amount of additional HMW HA. The diffusion of different molecular weight fluorescein isothiocyanate-dextran (FITC-dextran) through hybrid hydrogels (with/without HMW HA) gave information about the mesh size of these gels. The smallest FITC-dextran (4 kDa) completely diffused through both hydrogel systems within the first week, whereas only 55 % of 40 kDa and 5-10 % HMW FITC-dextrans (500 kDa and 2 MDa) could diffuse through the networks. The applicability of synthetic and hybrid hydrogels for cartilage regeneration purpose was investigated through by biological examinations. It was proven that both gels support the survival of embedded human mesenchymal stromal cells (hMSCs) (21/28 d in vitro culture), however, the chondrogenic differentiation was significantly improved in hybrid hydrogels compared to synthetic gels. The addition of non-bound HMW HA resulted in a slightly less distinct chondrogenesis. Lastly the printability of the established hydrogel systems was examined. Therefore, the viscoelastic properties of the hydrogel solutions were adjusted by incorporation of non-bound HMW HA. Both systems could be successfully printed with high resolution and high shape fidelity. The introduction of the double printing approach with reinforcing PCL allowed printing of hydrogel solutions with lower viscosities. As a consequence, the amount of additional HMW HA necessary for printing could be reduced allowing successful printing of hybrid hydrogel solutions with embedded cells. It was demonstrated that the integrated cells survived the printing process with high viability measured after 21 d. Moreover, by this reinforcing technique, robust hydrogel-containing constructs were fabricated. In addition to thiol-ene cross-linked hydrogels, hydrogel cross-linking via ionic interactions was investigated with a hybrid hydrogel based on HMW HA and peptide-functionalized PG. Rheological measurements revealed an increase in the viscosity of a 2 wt.% HMW HA solution by the addition of peptide-functionalized PG. The increase in viscosity could be attributed to the ionic interactions between the positively charge PG and the negatively charge HMW HA. In conclusion, throughout this thesis thiol-ene chemistry and PG were introduced as promising cross-linking reaction and polymer precursor for the field of biofabrication. Furthermore, the differences of hybrid and synthetic hydrogels as well as chemically and physically cross-linked hydrogels were demonstrated. Moreover, the double printing approach was demonstrated to be a promising tool for the fabrication of robust hydrogel-containing constructs. It opens the possibility of printing hydrogels that were not printable yet, due to too low viscosities. / Ziel der Arbeit war die Entwicklung von Thiol-En-vernetzten Hydrogelen basierend auf funktionalisierten Poly(glyzidolen) (PG) und Hyaluronsäure (HA) für das extrusionsbasierte 3D-Biodrucken. Um die vielseitigen Anwendungsmöglichkeiten von PG-Polymeren für die Hydrogelentwicklung zu zeigen, wurde darüber hinaus, in einer Proof-of-Principle-Studie, PG mit Peptiden funktionalisiert und die Eignung dieser Polymere für die Herstellung von physikalisch vernetzten Gelen untersucht. Zunächst wurden die Vorläuferpolymere für die verschiedenen Hydrogelsysteme synthetisiert. Für die Thiol-En-vernetzten Hydrogele wurde lineares Allyl-funktionalisiertes PG (P(AGE-co-G)) und drei verschiedene Thiol-(SH )funktionalisierte Polymere, Ester haltiges PG-SH (PG-SHec), Ester freies PG SH (PG-SHef) und HA-SH synthetisiert und analysiert. Dabei war der Funktionalisierungsgrad dieser Polymere einstellbar. Für physikalisch vernetzte Hydrogele wurde Peptid-funktionalisierte PGs (P(Peptid co-G)) mittels polymeranaloger Thiol-En-Modifikation von P(AGE-co-G) synthetisiert. Anschließend wurden Thiol-En-vernetzte Hydrogele auf Basis der synthetisierten Thiol- und Allyl-funktionalisierten Polymeren hergestellt. Je nach Ursprung der verwendeten Polymere wurden zwei verschiedene Systeme erhalten: einerseits synthetische Hydrogele bestehend aus PG-SHec/ef und P(AGE-co-G) und andererseits hybride Gele, bestehend aus HA-SH und P(AGE-co-G). Bei den synthetischen Gelen wurde die Abbaubarkeit der Gele durch das verwendete PG-SH bestimmt. Die Verwendung von PG-SHec resultierte in hydrolytisch abbaubaren Hydrogelen, während die Vernetzung mit PG-SHef zu nicht abbaubaren Gelen führte. Die physikalischen Eigenschaften der verschiedenen Hydrogelsysteme wurden mittels Quell-, mechanischen und Diffusionsexperimenten bestimmt und anschließend miteinander verglichen. Die Quellungsstudien zeigten die Unterschiede von abbaubaren und nicht abbaubaren synthetischen Hydrogelen, sowie die Unterschiede von synthetischen gegenüber hybriden Hydrogelen. Als nächstes wurden die Steifigkeit und das Quellverhältnis (SR) der etablierten Hydrogelsysteme in Abhängigkeit von verschiedenen Parametern wie Inkubationszeit, Polymerkonzentration und UV-Bestrahlung untersucht. Im Allgemeinen zeigten diese Messungen für synthetische und hybride Hydrogele die gleichen Trends: eine erhöhte Polymerkonzentration sowie eine verlängerte UV-Bestrahlung führten zu einer erhöhten Netzwerkdichte. Darüber hinaus wurde gezeigt, dass das Einbringen zusätzlicher, nicht gebundener HMW HA die Hydrogelvernetzung behinderte, was zu Gelen mit verringerter Steifigkeit und erhöhtem SR führte. Dieser Effekt war stark abhängig von der Menge an zusätzlich eingebrachter HMW HA. Die Diffusion von Fluorescein-Isothiocyanat-Dextran (FITC-Dextran) mit unterschiedlichem Molekulargewichten durch hybride Hydrogele (mit/ohne HMW HA) lieferte Informationen über die Maschengröße dieser Gele. Das kleinste FITC-Dextran (4 kDa) diffundierte innerhalb der ersten Woche vollständig durch beide Hydrogelsysteme, während nur 55 % der 40 kDa und 5-10 % HMW FITC-Dextrane (500 kDa und 2 MDa) durch die Netzwerke diffundieren konnten. Die Anwendbarkeit von synthetischen und hybriden Hydrogelen für Knorpelregenerationszwecke wurde durch biologische Experimente untersucht. Es wurde bewiesen, dass beide Gele das Überleben von eingebetteten humanen mesenchymalen Stromazellen (hMSCs) unterstützen (21/28 d in vitro Kultur), jedoch war die chondrogene Differenzierung in hybriden Hydrogelen im Vergleich zu synthetischen Gelen signifikant verbessert. Die Zugabe von nicht gebundenem HMW HA führte zu einer etwas weniger ausgeprägten Chondrogenese. Zuletzt wurde die Druckbarkeit der etablierten Hydrogelsysteme untersucht. Dafür wurden die viskoelastischen Eigenschaften der Hydrogellösungen durch das Einbringen von nicht gebundener HMW HA eingestellt. Beide Systeme konnten erfolgreich mit hoher Auflösung und hoher Formgenauigkeit gedruckt werden. Die Einführung des Doppeldruck-Konzeptes mit verstärkendem PCL ermöglichte das Drucken von Hydrogellösungen mit niedrigeren Viskositäten. Infolgedessen konnte die für den Druck notwendige Menge an HMW HA reduziert und hybride Hydrogellösungen mit eingebetteten Zellen erfolgreich gedruckt werden. Es wurde gezeigt, dass die integrierten Zellen den Druckprozess mit hoher Vitalität überlebten (gemessen nach 21 d). Darüber hinaus wurden mit dieser Verstärkungstechnik robuste Hydrogel-enthaltende Konstrukte hergestellt. Zusätzlich zu den Thiol-En-vernetzten Hydrogelen wurde die Hydrogelvernetzung mittels elektrostatischen Wechselwirkungen mit einem hybriden Gel auf der Basis von HMW HA und Peptid-funktionalisiertem PG untersucht. Rheologische Messungen ergaben eine Erhöhung der Viskosität einer 2 wt.% HMW HA Lösungen durch die Zugabe von Peptid-funktionalisiertem PG. Der Viskositätsanstieg konnte auf die elektrostatischen Wechselwirkungen zwischen dem positiv geladenen PG und der negativ geladenen HMW HA zurückgeführt werden. Zusammenfassend wurde in dieser Arbeit die Thiol-En-Chemie und PG als vielversprechende Vernetzungsreaktion bzw. Polymervorstufe für die Biofabrikation eingeführt. Des Weiteren wurden die Unterschiede von hybriden und synthetischen Hydrogelen sowie von chemisch und physikalisch vernetzten Hydrogelen aufgezeigt. Darüber hinaus wurde gezeigt, dass das Doppeldruck-Konzept eine vielversprechende Methode für die Herstellung von robusten Hydrogel-enthaltenden Konstrukten ist. Es eröffnet die Möglichkeit, Hydrogele zu drucken, die aufgrund zu geringer Viskositäten bis jetzt nicht druckbar waren.

Hyaluronsäure

Hydrogel

Glycidol

3D-Druck

ddc:547

The C₄-saccharinic acids. Further attempts to prepare 2, 2-́dihydroxyisobutyric acid. 2, 3-dihydroxybutyric acid lactone from glycidol. The preparation of the two iodohydrins of glycerol ...

Klaas, Rosalind Amelia,

January 1933

Part of Thesis (PH. D.)--University of Chicago, 1932. / "Private edition, distributed by the University of Chicago libraries, Chicago, Illinois." eContent provider-neutral record in process. Description based on print version record.

The C₄-saccharinic acids. Further attempts to prepare 2, 2-́dihydroxyisobutyric acid. 2, 3-dihydroxybutyric acid lactone from glycidol. The preparation of the two iodohydrins of glycerol ...

Klaas, Rosalind Amelia,

January 1933

Part of Thesis (PH. D.)--University of Chicago, 1932. / "Private edition, distributed by the University of Chicago libraries, Chicago, Illinois." eContent provider-neutral record in process. Description based on print version record.

Synthèse et applications de structures hyperramifiées biocompatibles / Synthesis and applications of biocompatibles hyperbranched structures

Winninger, Jérémy

19 December 2014

L’objectif de ce travail a été de procéder au design de nouvelles structures hyperramifiées en procédant à la synthèse de polymères à base de glycidol utilisables dans l’élaboration de copolymères biodégradables, de macromonomères fonctionnels et de nanocomposites magnétiques biocompatibles. Une première partie de ces travaux s’est intéressée, à la synthèse de macromonomères hyperramifiés amorcés par l’hydroxyéthyle méthacrylate (HEMA), l’hydroxyéthyle acrylate (HEA) et le polyéthylène glycol méthacrylate (PEGMA), par polymérisation anionique, anionique coordinée ou cationique du glycidol. La synthèse de macromonomères poly(ε-caprolactone) en présence de différents systèmes catalytiques et amorceurs a également été investiguée. Cette partie se termine par la synthèse de dendrigrafts issus de la polymérisation de ces macromonomères, par voie radicalaire classique ou contrôlée (RAFT/ATRP). La seconde partie de ce travail a été consacrée à la synthèse de copolymères hyperramifiés biocompatibles obtenus par copolymérisation statistique du glycidol en présence d’ε-caprolactone, en vu de l’obtention de copolymères hydrolysables. L’impact de la structure sur les propriétés physico-chimiques des copolymères obtenus a été étudié. Enfin, le caractère biodégradable de ces polymères a été investigué à travers différents tests de dégradation enzymatique. Enfin, ce travail s’est focalisé sur l’élaboration de nanocomposites magnétiques biocompatibles par la synthèse de nanoparticules magnétiques, puis l’immobilisation de polymères linéaires ou hyperramifiés à leur surface selon différentes méthodes de greffage chimique. / The aim of this work was to proceed to the design of new hyperbranched structures through the synthesis of glycidol-based polymers which can be used in the development of biodegradable copolymers, functional macromonomers and biocompatible magnetic nanocomposites. The first part of this work was the synthesis of hyperbranched macromonomer initiated by hydroxyethyl methacrylate (HEMA), hydroxyethyl acrylate (HEA) and polyethylene glycol methacrylate (PEGMA), through the study of the synthesis of polyglycerol (PG) by anionic, anionic coordinated and cationic polymerization of glycidol. Synthesis of poly (ε-caprolactone) macromonomers in the presence of various catalyst systems and initiators was also investigated. This part ends by the synthesis of dendrigrafts derived from the copolymerization of the macromonomers, by free radical polymerization or by controlled radical polymerization. The 2nd part of this work has been devoted to the synthesis of hyperbranched biocompatible copolymers obtained by random copolymerization of glycidol with ε-caprolactone in order to obtain hydrolyzable copolymers. The impact of the structure of the copolymers on their physico-chemical properties was then investigated. The biodegradable behavior of these polymers was then investigated through different enzymatic degradation tests. Finally, this work was focused on the development of biocompatible magnetic nanocomposites by the synthesis of magnetic nanoparticles and the immobilization of linear or hyperbranched polymers on their surface by different chemical grafting methods.

Glycidol

Polyglycérol

Hyperramifié

Poly(ε-caprolactone)

Nanocomposite

Maghémite

Macromonomères

Dendrigrafts

Glycidol

Polyglycerol

Hyperbranched

Nanocomposite

Maghemite

Macromonomers

Dendrigraft

668.9

Polymérisation anionique d’éthers cycliques par activation du monomère : vers des (co)polymères aux propriétés modulables

Gervais, Matthieu

04 December 2008

La polymérisation anionique d’éthers cycliques par activation du monomère amorcée par des systèmes à base de sels d’ammonium associés à un trialkylaluminium a été étudiée. L’oxétane, le glycidol, l’oxyde de butène ainsi que des époxydes possédant une chaîne latérale aliphatique ou fluorée ont été (co)polymérisés de façon contrôlée permettant ainsi l’obtention de polyéthers de masses molaires élevées (>10 000 g/mol). La diversité des monomères polymérisables par cette voie a permis de synthétiser des polymères présentant des propriétés d’hydrophilie, d’hydrophobie ou encore de cristallinité. Des copolymères, à blocs ou statistiques, de type amphiphile ont ainsi pu être obtenus. En particulier, en jouant sur la réactivité relative de l’oxétane et de l’oxyde d’éthylène, des copolymères à blocs ont été préparés en une étape. Enfin, l’utilisation d’amorceurs fonctionnels a permis d’accéder à des polyéthers a,?-hétérodifonctionnels de type a-azido, ?-hydroxy, utilisables en tant que précurseurs de nouveaux matériaux polymères. / The anionic polymerization of cyclic ethers by monomer activation using initiating systems based on ammonium salts combined with a trialkylaluminum has been studied. Oxetane, glycidol, butene oxide and epoxides containing aliphatic or fluorinated side chains have been (co)polymerized in a controlled manner, leading to the synthesis of polyethers of high molar masses (>10 000 g/mol). The diversity of monomers that can be polymerized in this way allowed the control of several polymer properties such as hydrophily, hydrophoby or cristallinity. Various amphiphilic block and statistical copolymers have also been synthesized. Especially, based on the reactivity difference between oxetane and ethylene oxide, the synthesis of a block copolymer in one step has been achieved. Finally the use of functional initiators allowed us to prepare a-azido, ?-hydroxypolyethers useful as precursors for new polymeric materials.

Polymérisation anionique

Polyéthers

Activation du monomère

Copolymères amphiphiles

Glycidol

Oxétane

Fonctionnalisation azoture

Carbon Nanofiber-Polymer Composites for Electronic Applications

Higgins, Bernadette Ann

17 May 2006

No description available.

Chemistry, Polymer

carbon nanofiber

polymer

styrene

carbonate cyclic oligomers

epoxy

glycidol

hyperbranched

cationic polymerization

electrical properties

Synthèse et formulation de résines photopolymérisables issues de la biomasse : application pour l'impression Braille / Synthesis and formulation of photopolymerisable monomers derived from biomass : application for Braille printing

Mhanna, Ali

26 September 2014

Le travail de thèse porte sur la synthèse de nouveaux monomères photopolymérisables issus de la biomasse, l’étude de leur photopolymérisation et la caractérisation des matériaux qui en résultent. Les monomères formulés ont été testés dans un procédé d’impression de caractères Braille.Les monomères ont été élaborés en deux étapes en utilisant un chemin réactionnel simple, économique et respectueux de l’environnement. La première étape a consisté à faire réagir des dérivés du glycérol (carbonate de glycérol ou glycidol) avec des acides gras. Dans un deuxième temps, les [alpha]-monoglycérides obtenus ont été fonctionnalisés en vue de les rendre photopolymérisables. Les différents monomères obtenus porteurs de fonctions (méth)acrylate et/ou époxy ont été photopolymérisés en quelques secondes en présence d’un photoamorceur. Les cinétiques de photopolymérisation ont été suivies par spectrométrie IR-TF en mode ATR et différents paramètres tels que la quantité et la nature du photoamorceur, l’intensité d’irradiation et la température ont été optimisés. Les différents matériaux obtenus après photoréticulation ont été caractérisés afin de mettre en évidence leurs principales physico-chimiques. Des relations structure – propriétés ont ainsi été établies.Enfin, une formulation photopolymérisable présentant une viscosité compatible avec le procédé d’impression Braille a été élaborée par ajout de silice nanométrique. Les points Braille obtenus présentent des caractéristiques proches de ceux réalisés par le partenaire industriel. / The work of the PhD deals with the synthesis of polymerizable monomers derived from biomass, the study of their photopolymerization and the characterization of the resulting materials. The formulated monomers were tested in a printing method of Braille characters.The monomers were prepared in a two-steps reaction that is simple, economic and environmentally friendly. The first step comprised a reaction between glycerol derivatives (glycerol carbonate or glycidol) and fatty acids. In the second step, the obtained [alpha]-monoglycerides were functionalized to obtain photopolymerizable monomers. The different obtained monomers that bear (meth)acrylate and/or epoxy groups were photopolymerized in a few seconds in the presence of photoinitiator.The photopolymerization kinetics were followed by FT-IR spectroscopy in ATR mode, and various parameters such as the amount and the nature of the photoinitiator, the irradiation intensity and the temperature were optimized. The different photocured materials were characterized to highlight their main physicochemical properties. Structure-properties relations were then established.Finally, a photopolymerizable formulation having a viscosity compatible with the printing process of Braille characters was developed by adding nanometric silice. The obtained Braille characters exhibited features close those carried out by the industrial partner.

Biomasse

[alpha]-monoglycérides

Glycérol

Carbonate de glycérol

Glycidol

Acides gras

(méth)acrylate

Époxy

Photopolymérisation

Braille

Biomass

[alpha]-monoglycerides

Glycerol

Glycerol carbonate

Glycidol

Fatty acids

(meth)acrylate

Epoxy

Photopolymerization

Braille

541.35

540

530

Avaliação da presença do 3-monocloro-1,2-propanediol e glicidol em óleos vegetais comestíveis utilizando GC/MS/MS e seu risco toxicológico / Evaluation of the presence of 3-monochloro-1,2-propanediol and glycidol in edible vegetable oils using GC/MS/MS and its toxicological risk

Renata Aparecida Cerqueira Tonelotto

06 February 2019

Cloropropanóis são um grupo conhecido de contaminantes relacionados ao processamento de alimentos. Eles são formados na reação entre lipídeos e cloretos quando submetidos ao tratamento térmico, e podem ser encontrados na forma livre ou ligada. O 3-monocloro-1,2-propanediol (3-MCPD), é classificado pela IARC como possível carcinógeno humano (grupo 2B). O glicidol (e seus ésteres), é classificado também pela IARC como uma substância provavelmente carcinogênica para seres humanos (grupo 2A), e, recentemente, vem sendo encontrado em alimentos. O objetivo deste trabalho foi avaliar a presença do 3-MCPD e do glicidol em óleos vegetais comestíveis utilizando a cromatografia gasosa com detector de massa triplo quadrupolo MS/MS. A técnica utilizada foi a preconizada pela AOCS Cd 29c-13, sendo uma análise indireta, e foi possível adaptá-la visando as determinações do 3-MCPD e glicidol através da construção de curvas de calibração e análises de amostras de referência. O método foi validado e os resultados indicaram o limite de detecção do composto 3-MCPD, de 42,4 µg/kg e o limite de quantificação de 50 µg/kg, e para o Glicidol indicaram o limite de detecção de 43,5 µg/kg e limite de quantificação de 50 µg/kg. Os resultados para 3-MCPD obtidos nos ensaios da curva de calibração e linearidade demonstraram que o método foi capaz de expressar resultados com boa linearidade (0 - 10 mg/kg , r2, = 0.9991). Os resultados obtidos nos ensaios de exatidão obedeceram aos critérios de 70 a 120% de recuperação, e ±20% de variação entre os resultados de acordo com SANTE (2017). O método em questão demonstrou ser seletivo, uma vez que não foram observados picos interferentes nos tempos de retenção dos compostos estudados. Os ensaios de precisão nos níveis baixos, médio e alto e robustez demonstraram que o método é robusto e preciso, portanto a validação foi considerada adequada ao uso pretendido. Foram analisadas 368 amostras de óleos vegetais (76 amostras de óleo de canola, 48 amostras de óleo de milho, 69 amostras de óleo de algodão, 33 amostras de óleo de palma, 10 amostras de óleo de palmiste, 50 amostras de oleína de palma, 30 amostras de óleo de soja e 51 amostras de óleo de girassol). As concentrações das amostras analisadas apresentaram resultados para 3-MCPD com valores médios entre 203 a 1205 µg/kg. Para o Glicidol os valores foram de 2 a 1198 µg/kg, com elevado o desvio padrão entre os resultados analíticos, onde o óleo de palma apresentou a maior variação de 1600 a 5260 µg/kg. Através da avaliação do risco realizada para o composto 3-MCPD foi possível detectar, utilizando o critério do pior cenário de exposição e resultados analíticos, os valores diários de consumo de óleo de algodão de 0,044 µg/kg p.c., de óleo de girassol 0,045 µg/kg p.c., óleo de canola 0,18 µg/kg p.c., óleo de palma de 0,28 µg/p.c, óleo de milho de 0,0462 µg/kg p.c., e o óleo de soja, de maior consumo no Brasil (72%) apresentou o valor de 0,27 µg/kg p.c. O consumo de todos estes óleos, pela a população brasileira, pode ser considerado seguro ao comparar com o valor de TDI Ingestão Diária Tolerável - de 2µg/kg p.c.. Através da avaliação do risco realizada também utilizando o critério de pior cenário de exposição e e resultados analíticos para o composto glicidol foi possível verificar que os valores diários de consumo de óleo de algodão de 0,061 µg/kg p.c., de óleo de girassol 0,03 µg/kg p.c., óleo de canola 0,13 µg/kg p.c. e de óleo de palma de 0,57 µg/p.c, de óleo de milho de 0,11 µg/kg p.c, e o óleo de soja de maior consumo no Brasil (72%) não ultrapassam o valor de 0,288 µg/kg p.c indicando consumo seguro destes óleos para a população brasileira baseado na TDI de 1000µg/kg p.c. / Chloropropanols are a known group of contaminants related to food processing. They are formed during the reaction process between lipids and chlorides when submitted to heat treatment and can be found in free or bound form. The 3-monochloro-1,2-propanediol (3-MCPD), is classified by IARC as a possible human carcinogen (group 2B). Glycidol (and its esters), also classified by IARC as a substance likely to be carcinogenic to humans (group 2A), has recently been found in food. The present study aims to evaluate the presence of 3-MCPD and glycidol in edible vegetable oils using gas chromatography with triple quadrupole MS/MS mass detector. The technique applied is recommended by AOCS, guide Cd 29c-13, an indirect analysis, and allows quantification of 3-MCPD and glycidol by building the calibration curves and analysis of reference samples. The method was validated and the detection limit of the contaminant 3-MCPD of 42,4 µg/kg and the quantification limit of 50 µg/kg was established. For Glycidol the detection limit of was 43,5 µg/kg and quantification limit was 50 µg/kg. The results obtained in the calibration and linearity curves demonstrated that the method could express results with good linearity (0 10 mg/kg, r2, = 0.9991). The results obtained in the trueness trials agreed to the criteria of 70 to 120% of recovery, and ± 20% of variation between the results according to what is preconized by SANTE (2017). The method showed to be selective, since no interfering peaks were observed in the retention times of the studied compounds. The tests performed on low, medium and high values demonstrated the robustness and precision of the method, so the validation was considered completed and suitable for the purpose. A total of 368 vegetable oil samples were analyzed (76 samples of canola oil, 48 samples of corn oil, 69 samples of cottonseed oil, 33 samples of palm oil, 10 samples of kern palm oil, 50 samples of palm olein, 30 samples of soybean oil and 51 samples of sunflower oil). The results found in samples for 3-MCPD were within mean values between 203 and 1205 µg/kg. The results found in samples for glycidol were within mean values between 2 to 1198 µg/kg where palm oil presented the highest variation for glycidol from 1600 to 5260 µg/kg. Through the risk assessment for the contaminant 3-MCPD it was possible to detect the values based on exposed worst case scenario and analytical results. The results for cottom oil were 0,044 µg/kg bw, sunflower 0,045 µg/kg bw, canola 0,18 µg/kg bw and palm oil 0,28 µg/kg bw, corn oil 0,0462 µg/kg bw, and for soybean, which is the most consumed oil in Brazil (72%) the value of 0,27 µg/kg bw. These results indicates safe consumption for these oils based in the Theoretical Daily Ingestion - TDI of 2µg/kg bw. The risk assessment for the glycidol based on exposure worst case scenario and analytical results presented for cottom oil the value of 0,061 µg/kg bw, sunflower 0,03 µg/kg bw, canola oil 0,13 µg/kg bw , palm oil 0,57 µg/kg bw, corn oil 0,11 µg/kg bw and for soybean, which is the most consumed in Brazil - 72% the value of 0,27 µg/kg bw. These results indicates safe consumption for these oils based in the TDI of 1000µg/kg bw.

3-MCPD

Avaliação do risco

Contaminantes em óleo

Espectrometria de massas

GC/MS/MS

Glicidol

3-MCPD

Contaminants in oil

GC / MS / MS

Glycidol

Mass spectrometry

Risk assessment

Avaliação da presença do 3-monocloro-1,2-propanediol e glicidol em óleos vegetais comestíveis utilizando GC/MS/MS e seu risco toxicológico / Evaluation of the presence of 3-monochloro-1,2-propanediol and glycidol in edible vegetable oils using GC/MS/MS and its toxicological risk

Tonelotto, Renata Aparecida Cerqueira

06 February 2019

Cloropropanóis são um grupo conhecido de contaminantes relacionados ao processamento de alimentos. Eles são formados na reação entre lipídeos e cloretos quando submetidos ao tratamento térmico, e podem ser encontrados na forma livre ou ligada. O 3-monocloro-1,2-propanediol (3-MCPD), é classificado pela IARC como possível carcinógeno humano (grupo 2B). O glicidol (e seus ésteres), é classificado também pela IARC como uma substância provavelmente carcinogênica para seres humanos (grupo 2A), e, recentemente, vem sendo encontrado em alimentos. O objetivo deste trabalho foi avaliar a presença do 3-MCPD e do glicidol em óleos vegetais comestíveis utilizando a cromatografia gasosa com detector de massa triplo quadrupolo MS/MS. A técnica utilizada foi a preconizada pela AOCS Cd 29c-13, sendo uma análise indireta, e foi possível adaptá-la visando as determinações do 3-MCPD e glicidol através da construção de curvas de calibração e análises de amostras de referência. O método foi validado e os resultados indicaram o limite de detecção do composto 3-MCPD, de 42,4 µg/kg e o limite de quantificação de 50 µg/kg, e para o Glicidol indicaram o limite de detecção de 43,5 µg/kg e limite de quantificação de 50 µg/kg. Os resultados para 3-MCPD obtidos nos ensaios da curva de calibração e linearidade demonstraram que o método foi capaz de expressar resultados com boa linearidade (0 - 10 mg/kg , r2, = 0.9991). Os resultados obtidos nos ensaios de exatidão obedeceram aos critérios de 70 a 120% de recuperação, e ±20% de variação entre os resultados de acordo com SANTE (2017). O método em questão demonstrou ser seletivo, uma vez que não foram observados picos interferentes nos tempos de retenção dos compostos estudados. Os ensaios de precisão nos níveis baixos, médio e alto e robustez demonstraram que o método é robusto e preciso, portanto a validação foi considerada adequada ao uso pretendido. Foram analisadas 368 amostras de óleos vegetais (76 amostras de óleo de canola, 48 amostras de óleo de milho, 69 amostras de óleo de algodão, 33 amostras de óleo de palma, 10 amostras de óleo de palmiste, 50 amostras de oleína de palma, 30 amostras de óleo de soja e 51 amostras de óleo de girassol). As concentrações das amostras analisadas apresentaram resultados para 3-MCPD com valores médios entre 203 a 1205 µg/kg. Para o Glicidol os valores foram de 2 a 1198 µg/kg, com elevado o desvio padrão entre os resultados analíticos, onde o óleo de palma apresentou a maior variação de 1600 a 5260 µg/kg. Através da avaliação do risco realizada para o composto 3-MCPD foi possível detectar, utilizando o critério do pior cenário de exposição e resultados analíticos, os valores diários de consumo de óleo de algodão de 0,044 µg/kg p.c., de óleo de girassol 0,045 µg/kg p.c., óleo de canola 0,18 µg/kg p.c., óleo de palma de 0,28 µg/p.c, óleo de milho de 0,0462 µg/kg p.c., e o óleo de soja, de maior consumo no Brasil (72%) apresentou o valor de 0,27 µg/kg p.c. O consumo de todos estes óleos, pela a população brasileira, pode ser considerado seguro ao comparar com o valor de TDI Ingestão Diária Tolerável - de 2µg/kg p.c.. Através da avaliação do risco realizada também utilizando o critério de pior cenário de exposição e e resultados analíticos para o composto glicidol foi possível verificar que os valores diários de consumo de óleo de algodão de 0,061 µg/kg p.c., de óleo de girassol 0,03 µg/kg p.c., óleo de canola 0,13 µg/kg p.c. e de óleo de palma de 0,57 µg/p.c, de óleo de milho de 0,11 µg/kg p.c, e o óleo de soja de maior consumo no Brasil (72%) não ultrapassam o valor de 0,288 µg/kg p.c indicando consumo seguro destes óleos para a população brasileira baseado na TDI de 1000µg/kg p.c. / Chloropropanols are a known group of contaminants related to food processing. They are formed during the reaction process between lipids and chlorides when submitted to heat treatment and can be found in free or bound form. The 3-monochloro-1,2-propanediol (3-MCPD), is classified by IARC as a possible human carcinogen (group 2B). Glycidol (and its esters), also classified by IARC as a substance likely to be carcinogenic to humans (group 2A), has recently been found in food. The present study aims to evaluate the presence of 3-MCPD and glycidol in edible vegetable oils using gas chromatography with triple quadrupole MS/MS mass detector. The technique applied is recommended by AOCS, guide Cd 29c-13, an indirect analysis, and allows quantification of 3-MCPD and glycidol by building the calibration curves and analysis of reference samples. The method was validated and the detection limit of the contaminant 3-MCPD of 42,4 µg/kg and the quantification limit of 50 µg/kg was established. For Glycidol the detection limit of was 43,5 µg/kg and quantification limit was 50 µg/kg. The results obtained in the calibration and linearity curves demonstrated that the method could express results with good linearity (0 10 mg/kg, r2, = 0.9991). The results obtained in the trueness trials agreed to the criteria of 70 to 120% of recovery, and ± 20% of variation between the results according to what is preconized by SANTE (2017). The method showed to be selective, since no interfering peaks were observed in the retention times of the studied compounds. The tests performed on low, medium and high values demonstrated the robustness and precision of the method, so the validation was considered completed and suitable for the purpose. A total of 368 vegetable oil samples were analyzed (76 samples of canola oil, 48 samples of corn oil, 69 samples of cottonseed oil, 33 samples of palm oil, 10 samples of kern palm oil, 50 samples of palm olein, 30 samples of soybean oil and 51 samples of sunflower oil). The results found in samples for 3-MCPD were within mean values between 203 and 1205 µg/kg. The results found in samples for glycidol were within mean values between 2 to 1198 µg/kg where palm oil presented the highest variation for glycidol from 1600 to 5260 µg/kg. Through the risk assessment for the contaminant 3-MCPD it was possible to detect the values based on exposed worst case scenario and analytical results. The results for cottom oil were 0,044 µg/kg bw, sunflower 0,045 µg/kg bw, canola 0,18 µg/kg bw and palm oil 0,28 µg/kg bw, corn oil 0,0462 µg/kg bw, and for soybean, which is the most consumed oil in Brazil (72%) the value of 0,27 µg/kg bw. These results indicates safe consumption for these oils based in the Theoretical Daily Ingestion - TDI of 2µg/kg bw. The risk assessment for the glycidol based on exposure worst case scenario and analytical results presented for cottom oil the value of 0,061 µg/kg bw, sunflower 0,03 µg/kg bw, canola oil 0,13 µg/kg bw , palm oil 0,57 µg/kg bw, corn oil 0,11 µg/kg bw and for soybean, which is the most consumed in Brazil - 72% the value of 0,27 µg/kg bw. These results indicates safe consumption for these oils based in the TDI of 1000µg/kg bw.

3-MCPD

3-MCPD

Avaliação do risco

Contaminantes em óleo

Contaminants in oil

Espectrometria de massas

GC / MS / MS

GC/MS/MS

Glicidol

Glycidol

Mass spectrometry

Risk assessment