Analýza vonných látek v kosmetických prostředcích metodou plynové chromatografie / Analysis of aroma compounds in cosmetics by gas chromatography

Divišová, Radka

January 2009

This thesis is focused on aroma compounds which are presented in a wide variety of products including perfume, cologne, cosmetics, toiletries, laundry products and detergens. The widespread use and exposure to aroma compounds of aforementioned products could cause a range of the adverse reactions such as contact dermatitis, asthma, eczema and breathing problems. There are a lot of aroma compounds triggering negative allergic reactions but EU regulations limit 26 the most important fragrance allergens. The presence of these substances has to be declared on the product label if a limit of 0,01 % for rinse off and 0,001 % for leave-on products is exceeded. Of these 26 substances, a methodology was elaborated for determination of 12 allergens in a experimental part of this thesis. A method by solid-phase microextraction (SPME) and gas chromatography-flame ionization detection (GC-FID) was applied for fragrance allergens identification, extraction and measurement. The optimal extraction conditions of SPME-GC method were investigated including equilibrium time, extraction time and extraction temperature to increase extraction efficiency. Another important point is the method by SPME-GC-FID was validated and following performance parameters were determined: repeatability, linearity, limit of detection (LOD) limit of quantitation (LOQ). SPME-GC-FID was tested and applied to real samples.

Stanovení lineárních syntetických vonných látek v abiotických a biotických matricích / Determination of linear synthetic aromatic compounds in abiotic and biotic matrices

Tulková, Tereza

January 2014

Synthetic musk compounds are artificial organic compounds with a smell similar to the odor of a natural musk. The most recently discovered and also the least known group of artificial musks is linear musk compounds. These substances are now often used in cosmetics, personal care products, detergents and various cleaning products. They have leaked into all the major environment components, especially into the hydrosphere. There has been great attention drawn to synthetic musk compounds in the last few years because of their environmental impact. The aim of this thesis is to identify twelve linear musk compounds (linalool, 2-cyclohexylethanol, fresco menthe, citronellol, HSA, isobornyl acetate, arocet, aroflorone, allyl cyclohexyl propionate, lilial, isoamyl salicylate and hexylcinnamic aldehyde) in waste water samples. The samples were taken at three different waste water treatment plants (WWTP) in South Moravian region (WWTP Brno-Modřice, WWTP Luhačovice and WWTP Hodonín). Each of these treatment plants has a different equivalent number of inhabitants. At first, a working method was optimized, then applied on real waste water samples. Solid-phase microextraction (SPME) technique was used for the extraction of analytes. Gas chromatography–mass spectrometry (GC/MS) was then used for identification and quantificaton of the studied compounds.

Alergenní vonné látky v potravinách a předmětech běžného užívání / Fragrance Allergens in Foods and Everyday Use Products

Divišová, Radka

January 2014

Fragrances are added to food, cosmetics and other products primarily for enhancement of their sensory quality (taste and/or aroma). However, the usage of these compounds is associated with the wide range of various adverse biological effects. Some fragrances widely used in cosmetics are proved to cause e.g. skin sensitization, rashes, dermatitis, headache, cough etc. To protect the health of consumers, European union approved the cosmetic directive (ES/1223/2009) that requires the labeling of 26 allergen fragrances on the final product label, if concentration exceeds the given level (0,01 % for rinse-off and 0,001 % for leave-on product). However, some producers hide the presence of allergens in the final product under the general term „aroma“. For this reason it is very important to monitor the content of these substances in cosmetic products. Fragrances are found not only in cosmetics, but the various types of food are also aromatized by them. Unlike cosmetics, the food producers are not obliged to label the presence of fragrance allergens on the packaging. Therefore, the monitoring of these fragrances is highly desirable because of the potential health risks they pose. The aim of this study was to develop a method for simultaneous determination of regulated fragrance allergens in food and everyday use products. The method based on extraction of analytes by solid phase microextraction coupled to gas chromatography with FID detection (HS-SPME-GC-FID) was chosen on the basis of the literature review. The fiber CAR/PDMS provided the highest extraction efficiency among the SPME fibers tested. Univariate and multivariate data analysis were used to optimize the main parameters affecting microextraction process. The final method validation was performed in terms of linearity, repeatability, reproducibility, recovery, limits of detection and quantification. The optimized and validated method was applied to a wide range of products including cosmetics, aromatized food and fragranced toys. These products were also subjected to sensory evaluation especially in terms of taste and/or aroma (i.e. flavour), which may be associated with the content of the monitored fragrances. The profile test (EN ISO 13299) and seven-point category ordinal scale (ISO 4121) were used for sensory evaluation.

Development of headspace solid phase microextraction gas chromatography mass spectrometry method for analysis of volatile organic compounds in board samples : Correlation study between chromatographic data and flavor properties / Utveckling av fastfas mikroextraktion gaskromatografi masspektrometisk metod för analys av flyktiga organiska föreningar i kartongprover : Korrelationsstudie av kromatografisk data och smakegenskaper

Zethelius, Thea

January 2021

The purpose of this thesis work was to develop a headspace solid phase microextraction gas chromatography mass spectrometry (HS-SPME-GC-MS) method to detect volatile organic compounds (VOCs) in board samples and to statistically investigate potential correlation between chromatographic data and flavor data obtained from a trained panel. The developed method would hopefully serve as a complement to the already established routine analyses at Stora Enso and gain an increased understanding of which VOCs in the board influence its flavor properties. The impact of incubation time and adsorption time on the area under curve (AUC) was studied with a Design of Experiment screening using the software MODDE. The screening data showed a correlation between large AUC and low repeatability measured as relative standard deviation (RSD). The data was hard to fit to a model due to the large RSD values for the replicates, AUC for identified compounds as response gave an acceptable fit. The regression coefficients for the model showed that a longer adsorption time gave larger AUC, while incubation time had no significant impact on the response.  Instead of following up the screening with an optimization, the focus was shifted to improving the repeatability of the method, i.e. lowering the RSD. The high RSD was believed to mainly be the result of leakage of analytes and unstable temperature during adsorption, preventing the system from reaching equilibrium. Different heating options and capping options for the vial was tested. Septum in crimp cap ensured a gas tight seal for the vial, giving lower RSD values and larger AUC compared to the other alternatives, showing that there was indeed a leakage. Using oil bath ensured stable temperature during the adsorption and detection of a larger number of VOCs but created a temperature gradient in the vial due to it not being fully submerged in the oil. Oil bath gave larger AUC, but still high RSD due to the temperature gradient making the method sensitive to variance in fiber depth in the vial. The final method was performed with 2 g of board sample in a 20 ml headspace vial sealed with a crimp cap with septa. The incubation and adsorption were performed with the vial immersed in a 90-degree oil bath. 20 min incubation time was chosen based on the time it took to get a stable temperature gradient in the vial, and 20 minutes adsorption time was chosen as a good compromise between large AUC and low RSD. Compared to Stora Ensos routine analysis, the developed SPME method gave chromatograms with an improved signal-to-noise ratio for the base line and several more peaks with larger AUC. For the board sample used during method development, the SPME-method identified 34 VOCs, while the routine analysis only identified 12. The developed method was applied on 11 archived board samples of the same quality that were selected based on their original flavor properties, to get a large diversity of samples. Flavor analysis was performed by letting a trained flavor panel describe the flavor based on intensity and character of the water that had individually been in indirect contact with one of the 11 board sample for 24 h. Potential correlation between chromatographic data obtained with the developed method and the flavor experience described by the flavor panelists was statistically investigated with the multivariate analysis software SIMCA. The correlation study showed that a combination of 12 VOCs with short retention time are most likely the main source of off-flavor which of 5 could only be identified with the developed SPME method. VOCs with long retention time did not contribute to an off-flavor and might have a masking effect on flavor given by other VOCS, however not confirmed in this study. Furthermore, the age of the board samples proved to be a good indicator for prediction of the flavor intensity, whereas the total AUC of the samples was not. Possible correlation between detected VOCs in the samples and flavor character given by the flavor panel were seen, however the variation in the data and the sample set were too small, preventing from making conclusions on individual VOCs impact on the flavor experience. The developed HS-SPME-GC-MS method would serve as a complement to the already established routine analyses at Stora Enso and has slightly increased the understanding of which VOCs in the board influence the flavor properties

Solid phase microextraction (SPME)

method development

volatile organic compounds (VOCs)

food contact material (FCM)

flavor experience

design of experiment (DoE)

multivariate analysis

Analytical Chemistry

Analytisk kemi

Nové metody používané při zjišťování příčin vzniku požárů / Newe methods used for the finding of fire causes

Přichystal, Lukáš

January 2011

Master’s thesis deals with a determination problem of ignitable liquids from fire debris. The aim of this work is to introduce the properties of used fire accelerants and to give an overview and evaluation of the various techniques which can be conducive to the fire investigator. Determination of fire accelerants from fire debris was made by the technique of solid phase microextraction (SPME) with subsequent chemical analysis by GC/MS. Based on the chromatographic results were established the target compounds and reconstructed ion chromatograms which are typical for some kinds of flammable liquids. There were used gasoline, diesel, kerosene and technical gasoline (white spirit) as the fire accelerants. This work also deals with the influence of interfering products in fire debris analysis, including their identification and characterization. Different kinds of substrates were burned, extracted and analyzed in order to identify all the interfering products that they may release.

Gas Chromatography: Mass Spectrometry of Chemical Agents and Related Interferents

Zhai, Lailiang

26 March 2006

One of the main problems encountered in chemical analysis operations in the field is collecting sufficient sample from the source and transferring that sample to the measurement instrument for fast separation and identification. I have been involved in developing a field-portable gas chromatography-mass spectrometry (GC-MS) system with solid phase microextraction (SPME) sampling for point detection of chemical agents. The objective is to minimize the analysis time between sampling and detection of a potential chemical threat. SPME offers a convenient means for sampling gaseous and liquid samples, concentrating the analytes, and transferring the analytes to the injection port of a GC system for separation and identification. GC-MS has advantages of high efficiency, speed, and applicability for field analysis. Work was done to optimize the SPME fiber coating, capillary column dimensions, and GC operating conditions to provide complete analysis within 3 minutes. Since isothermal operation of the GC was a prior requirement, many components in the chromatograms were unresolved. Therefore, a peak de-convolution algorithm was applied to allow for identification and quantitation of poorly resolved and often completely obscured trace components. Details of the instrumentation and optimization of operating conditions are described in this thesis.

gas chromatography-mass spectrometry

solid phase microextraction

chemical agents and related interferents

field portable GC-MS

fast GC

Box-Behnken design

Plankett-Burman design

Biochemistry

Chemistry

Effects of UV Irradiation on the Reduction of Bacterial Pathogens and Chemical Indicators of Milk

Matak, Kristen E.

03 December 2004

Consumer demand for fresher and minimally processed foods has brought about a movement to find effective, non-thermal processing technologies for the treatment of milk. The influence of temperature on bacterial reduction in UV irradiated milk was tested. Commercially processed skim, reduced fat (2%), and whole milk samples were inoculated with a naladixic acid resistant E. coli O157:H7 surrogate (ATCC 25922), maintained at or brought to 4oC and 20oC, respectively, and then exposed to a UV light dose between 5.3-6.3 mJ/cm2 for approximately 1.5 sec using the CiderSure 3500 apparatus (FPE Inc., Macedon, NY). Bacterial concentrations before and after UV exposure were enumerated and the results indicated that processing temperature was not significantly related to bacterial reduction (p > 0.05). The results did indicate that skim milk samples had a greater bacterial reduction, regardless of processing temperature compared to reduced fat milk and whole milk samples (p < 0.05). Solids such as milk fat, protein, lactose and minerals, in the milk have a greater effect over bacterial reductions than processing temperatures. Traditional goat cheeses are produced using unpasteurized milk, which increases the food safety concerns for these types of products. Fresh goat's milk was inoculated to 107 cfu/ml with Listeria monocytogenes (L-2289) and exposed to UV light using the CiderSure 3500 apparatus. Inoculated milk was exposed to an ultraviolet dose range between 0 and 20 mJ/cm2 to determine the optimal UV dose. A greater than 5-log reduction was achieved (p < 0.0001) when the milk was processed 12 times for a cumulative exposure time of roughly 18 sec and a cumulative UV dose of 15.8 +/- 1.6 mJ/cm2. The results of this study indicate that UV irradiation could be used for the reduction of L. monocytogenes in goat's milk. Organoleptic consequences of goat's milk treated with UV technology were assessed. Olfactory studies were conducted and a highly significant difference was determined between the odor of fresh goat's milk and UV processed milk (p < 0.05). The extent of lipid oxidation and hydrolytic rancidity was measured by thiobarbituric acid reactive substances (TBARS) and acid degree values (ADVs). Results indicated that as the UV dose increased, there was a significant increase in TBARS values and ADVs of the milk samples (p < 0.05). Milk samples were processed using the UV processor under the same conditions as previously described without exposure to the UV source to determine if the agitation from pumping was causing off-flavors by way of hydrolytic rancidity. The ADVs from these samples increased at the same rate as the UV irradiated samples; however, sensory studies indicated that the increase of free fatty acids (FFA) was not enough to cause detectable off-odors in the milk. Solid phase microextraction and gas chromatography (SPME-GC) was utilized to quantify the production of volatile compounds that were formed due to UV processing. The formation of pentanal, hexanal and heptanal was identified after as little as 1.3 mJ/cm2 UV dose. Peak areas were measured and analyzed after 7.8 mJ/cm2 and 15.6 mJ/cm2 and were determined to increase significantly as UV dose increased (p < 0.05). The chemical analyses supported the findings from the olfactory studies. The outcome of this research showed that UV irradiation at the wavelength 254 nm, was detrimental to certain chemical properties of fluid milk. The properties that were perceived as negative in fluid milk may be considered an attribute in certain types of cheese and future studies in the cheese production sector should be considered. Other applications for this technology could be for use in developing countries where milk is not typically processed because of the high costs of thermal pasteurization. On-farm applications for the treatment of replacement milk should also be considered. / Ph. D.

acid degree values (ADVs)

goat's milk

Listeria monocytogenes

Oxidation

UV irradiation

solid-phase microextraction (SPME-GC)

Desenvolvimento da fase extratora SPME de poli(pirrol) e avaliação das técnicas SPME/LC e SBSE/LC para análises de antidepressivos em amostras de plasma / Developmento of polypyrrole SPME extraction phase and evaluation of the SPME/LC and SBSE/LC techniques to antidepressants plasma samples analyses

Chaves, Andréa Rodrigues

27 June 2008

A depressão em idosos é uma desordem persistente e recorrente, resultado do stress psicossocial ou efeito de doenças fisiológicas, que podem acarretar a desabilidade do indivíduo, aumento dos sintomas das doenças clínicas, na maior utilização dos serviços de saúde e altas taxas de suicídios.A monitorização terapêutica permite a ndividualização do regime de dosagem, assegurando a eficácia clínica e minimizando os efeitos adversos dos fármacos, prescritos na clínica. Os antidepressivos têm sido monitorados, pois, apresentam intervalos terapêuticos bem estabelecidos, ou seja, a maioria dos pacientes, que apresentam concentrações plasmáticas dentro deste intervalo fixo, tem as desordens psiquiátricas mantidas sob controle e efeitos adversos aceitáveis. Os antidepressivos tricíclicos (ADTs): imipramina, amitriptilina, nortriptilina e desipramina, embora eficazes e ainda muito utilizados, apresentam efeitos adversos, não desejáveis. Os antidepressivos, inibidores seletivos da recaptação de serotonina (SSRIs): citalopram, fluoxetina, paroxetina e sertralina, apresentam eficácia clínica comparável aos clássicos ADTs, mas destituídos dos efeitos adversos associados aos mesmos. Os métodos convencionais, empregados no tratamento de amostras biológicas, para análises de antidepressivos por técnicas cromatográficas, têm sido a extração líquido-líquido e extração em fase sólida. A microextração em fase sólida tem sido empregada em diferentes análises em fluidos biológicos, porém essa técnica apresenta certas limitações como, o número limitado de fases extratoras disponíveis no comércio que sejam adequadas para a análise de compostos não iônicos. A avaliação de novas fases extratoras, mais seletivas, estáveis e de baixo custo tem sido requerida para a análise de fármacos. O interesse no uso de poli(pirrol) (PPY), como fase extratora para SPME, está relacionado às diferentes interações dos fármacos (hidrofóbicas, -, com o grupo funcional polar, troca iônica, ácido-base) aos grupos multifuncionais deste polímero. Sua polimerização pode ser alcançada tanto por oxidação química, quanto por eletrodeposição em meio aquoso ou orgânico. O método eletroquímico apresenta algumas vantagens, tais como: o polímero ou mistura de polimeros podem ser revestidos diretamente em um metal, incorporação de diferentes grupos funcionais, entre outras, a polimerização pode ser eletroquimicamente controlada através da voltametria cíclica. Neste trabalho o poli(pirrol) (PPY) foi eletrodepositado em eletrodo de aço inox e empregado para a microextração em fase sólida dos antidepressivos: paroxetina, fluoxetina, mirtazapina, duloxetina, sertralina e citalopram. As variáveis da eletrodeposição, número de ciclos e contra-íon empregado no processo de eletrodeposição foram otimizadas. Assim como as variáveis SPME: tempo, temperatura, pH e volume de amostra, e tempo e solvente de dessorção; almejando maior sensibilidade para o método SPME-PPY/LC UV proposto. A extração sortiva em barra de agitação (SBSE), técnica recente de preparo de amostras, para a pré-concentração de compostos orgânicos presentes em amostras biológicas, baseia-se na extração estática, através do polímero polidimetilsiloxano (PDMS), no qual ocorre a dissolução (sorção) do analito. Neste trabalho, as técnicas SBSE e cromatografia líquida de alta eficiência com detecção UV (SBSE/LC UV) foram avaliadas para a análise simultânea de antidepressivos em amostras de plasma para fins de monitorização terapêutica. As condições cromatográficas de análise, assim como as variáveis SBSE de extração (tempo, temperatura, força iônica, pH da matriz) e tempo de dessorção, foram otimizadas, visando adequada sensibilidade analítica. A validação analítica foi realizada segundo normas da ANVISA, para ambos os métodos propostos, em diferentes concentrações plasmáticas, as quais contemplam o intervalo terapêutico. Segundo os parâmetros de validação avaliados, os métodos SBSE/LCUV e SPMEPPY/LCUV padronizados poderão ser empregados nas análises dos antidepressivos, para fins de monitorização terapêutica. / Depression in the elderly is a persistent and recurrent disorder resulting from psychosocial stress or physiological effect or disease. This condition can lead to disability, cognitive impairment, enhanced symptoms of medical illnesses, increased use of health care services and, increased of suicide rates. Therapeutic monitoring allows individualization of the dose regimen, ensuring clinical effectiveness and minimizing the adverse effects of drugs, prescribed at the clinic. Antidepressants have been monitored because they present well - established therapeutic intervals; in other words, most of the patients present plasmatic concentrations within this fixed range, so that their psychiatric disorders are kept under control and the adverse effects are acceptable. The tricyclic antidepressants (ADTs) imipramine, amitriptyline, nortryptiline, and desipramine, have adverse effects. The selective serotonin reuptake inhibitors (SSRIs) antidepressants citalopram, fluoxetine, paroxetine, and sertraline, are clinically effectiveness as the classic ADTs, but they do not lead to the adverse effects associated to the latter. The conventional methods employed in the treatment of biological samples for analysis of antidepressants by chromatographic techniques have been the liquid-liquid extraction (LLE) and solid phase extraction (SPE) techniques. Solid-phase microextraction (SPME) has been used in various analyses of biological fluids. However, this technique has limitations such as the small number of comemercially available extracting phases that are appropriate for the analysis of non-ionic compounds. Investigation of new extraction phases that are more selective and stable, as well as inexpensive, has been requested for drug analysis. The interest in the use of poly(pirrole) (PPY) as an extraction phase for SPME is related to the different interactions of the drugs (hydrophobic, - , with the polar functional group, ionic exchange and acid-base) with the multifunctional groups on this polymer. The PPY polymerization can be achieved by chemical oxidation or electropolymerization in aqueous solution or organic solvents. The electrochemical method has advantages such as, the polymer or a mixes of polymers can be directly deposited on a metal wire, different functional groups can be incorporated, polymerization can be electrochemically controlled by cyclic voltammetry. In this work poly(pyrrole) was electropolymerized on stainless steel electrodes and employed for the solid phase microextraction of the antidepressants paroxetine, fluoxetine, mirtazapine, duloxetine, sertraline, and citalopram. The electropolymerization variables, the number of cycles and counterion employed in the process were optimized, as well as the SPME variables, time, temperature, pH, sample volume, and desorption solvent; aiming at a better sensibility for the proposed method SPME-PPY/LC-UV. The stir bar sorptive extraction (SBSE), recently established technique for samples preparation, that targets the pre concentration of organic compounds present in biological samples. It is based on static extraction, through the polymeric polydimethylsiloxane (PDMS), where there is analyte dissolution (sorption). In this work, the SBSE technique and liquid chromatography with UV detector (SBSE/LC-UV) were evaluated for the simultaneous determination of antidepressants in plasma samples for therapeutic monitoring purposes. The cromatographic conditions, the SBSE extraction variables (time, temperature, ionic strength and matrix pH), and the dessorption time were optimized for appropriate analytical sensibility. The analytical validation was accomplished according to the norms of ANVISA for both of the proposed methods, in different plasmatic concentrations, which contemplate the therapeutic interval. According to the evaluated validation parameters, the standardized methods SBSE/LC-UV and SPME-PPY/LC-UV can be used in the analyses of antidepressants for therapeutic drug monitoring purposes.

antidepressants

Cromatografia Liquida

liquid chromatography

microextração em fase sólida

plasma

plasma sample.

poli(pirrol) e antidepressivos

poly(pyrrole)

Solid-phase microextraction

stir bar sorptive extraction

Fettsäureethylester als Marker exzessiven Alkoholkonsums

Auwärter, Volker

27 February 2006

In der vorliegenden Arbeit wurde ein analytisches Verfahren zur quantitativen Bestimmung von Fettsäureethylestern (FSEE) im Haar und in Hautoberflächenlipiden mittels Headspace-Festphasenmikroextraktion (HS-SPME) und Gaschromatographie-Massenspektrometrie (GC-MS) sowie eine auf Hochleistungs-Flüssigchromatographie mit Photodiodenarray-Detektion (HPLC-DAD) basierende Methode zur Bestimmung der Squalenkonzentrationen in Lipidextrakten entwickelt. Die bei Untersuchung von Proben verschiedener Konsumentengruppen erhaltenen Konzentrationswerte wurden hinsichtlich ihrer Eignung als Marker für chronisch exzessiven Alkoholkonsum untersucht. Aus den Ergebnissen lässt sich schließen, dass Fettsäureethylester im Haar als Alkoholmarker den bisher üblicherweise genutzten Markern wie GGT, CDT oder MCV bezüglich Sensitivität und Spezifität mindestens ebenbürtig sind. Es wurden die folgenden vorläufige Cut-off-Werte festgelegt: wenn sich im Haar für die Summenkonzentration der vier in der höchsten Konzentration vorkommenden FSEE (Ethylmyristat, Ethylpalmitat, Ethyloleat und Ethylstearat) ein Wert > 1 ng/mg ergibt, kann mit hoher Sicherheit von chronisch exzessivem Alkoholkonsum ausgegangen werden, für Abstinenzler werden typischerweise Werte < 0,4 ng/mg gefunden. Durch Bildung des Quotienten der FSEE-Konzentrationen und der Squalenkonzentrationen wurden relative FSEE-Konzentrationen erhalten, die im Falle der Haaranalyse zu einer Verbesserung der Zuordnungssicherheit zu den entsprechenden Konsumentengruppen führten bzw. bei der Analyse von Hautoberflächenlipiden einen sinnvollen Vergleich der Werte erst ermöglichten. Als vorläufiger Cut-off-Wert für die relativen FSEE-Konzentrationen wurde ein Wert von 2 ng/µg vorgeschlagen. Als weiteres wichtiges Ergebnis der Arbeit wurde der Einlagerungsmechanismus der FSEE ins Haar aufgeklärt. Es konnte gezeigt werden, dass Fettsäureethylester in erster Linie über das Sebum ins Haar gelangen. / The current doctoral thesis presents the development of an analytical procedure for the quantitative analysis of fatty acid ethyl esters (FAEE) in hair and in skin surface lipids using headspace solid phase microextraction (HS-SPME) and gas chromatography-mass spectrometry (GC-MS) as well as a method based on high-performance liquid chromatography with photodiode array detection (HPLC-DAD) to determine squalene concentrations in lipid extracts. The results obtained from analysis of samples from different alcohol consuming groups showed that FAEE are suitable markers for long-term alcohol misuse. Concerning sensitivity and specifity they are at least as good as other commonly used markers like GGT, CDT or MCV. The following provisional cut-off values were established: for chronically excessive alcohol consumption, the sum of the four FAEE (ethyl myristate, ethyl palmitate, ethyl oleate and ethyl stearate) found in the highest mean concentrations should be > 1 ng/mg in hair; for non-drinkers, concentrations < 0,4 ng/mg are typical. The quotient obtained by dividing the FAEE concentration by the squalene concentration was defined as the relative FAEE concentration, which provides a better classification of the samples regarding the consumer groups through hair analysis. Relative FAEE values also allow a reasonable comparison in the case of skin surface lipid concentrations for the first time. 2 ng/µg is suggested as a preliminary cut-off value. As a further important result of the current work, the mechanism of incorporation of FAEE into hair was clarified. It was shown that fatty acid ethyl esters are incorporated into hair mainly through sebum.

Fettsäureethylester

FSEE

Headspace-Festphasenmikroextraktion

HS-SPME

Haaranalytik

Alkoholismusmarker

Alkoholmarker

Einlagerungsmechanismus

fatty acid ethyl ester

FAEE

headspace solid phase microextraction

HS-SPME

hair analysis

marker for alcohlism

alcohol marker

incorporation route

540 Chemie

30 Chemie

ddc:540

Avaliação da exposição de crianças a substâncias psicoativas durante a lactação através da análise toxicológica em leite materno / Evaluation of infant exposure to psychoactive substances during lactation by toxicological analysis in breast milk.

Silveira, Gabriela de Oliveira

13 June 2016

O aleitamento materno está associado a benefícios de ordem nutricional, imunológica, afetiva, econômica e social. Grande parte das drogas lícitas e ilícitas consumidas pela lactante pode ser transferida para o leite, o que pode representar potenciais efeitos nocivos para a criança em curto e longo prazos. Embora o conhecimento a respeito de substâncias psicoativas durante a lactação venha sendo ampliado, ainda há poucas informações sobre as concentrações de substâncias excretadas por essa via e muitas dúvidas sobre os efeitos delas em crianças durante o período de amamentação. O leite materno é uma matriz não convencional que pode ser usada para avaliar a exposição de crianças a substâncias durante o aleitamento e sua principal vantagem é a coleta simples e não-invasiva. Contudo, a extração destas a partir do leite materno é um desafio analítico devido ao seu alto conteúdo lipídico e proteico, bem como a alteração na sua composição durante o período pós-parto. No presente trabalho, técnicas analíticas miniaturizadas foram desenvolvidas visando a detecção das substâncias psicoativas cocaína, cocaetileno, norcocaína, tetraidrocanabinol, canabinol, canabidiol em amostras de leite materno, utilizando cromatografia gasosa acoplada à espectrometria de massas (GC-MS). A microextração em fase líquida (LPME) foi aplicada para analitos de cocaína e a microextração em fase sólida (SPME) para canabinoides. Após o desenvolvimento e validação dos métodos, as análises foram aplicadas em amostras de leite coletadas no hospital municipal Dr. Arthur Ribeiro de Saboya (n=109). Além das técnicas terem se mostrado adequadas à extração e detecção dos analitos, confirmou-se a excreção de cocaína no leite materno em quantidades moderadas com resultado positivo para uma amostra (138 ng/mL). Bem como foi detectado tetraidrocanabinol nas concentrações de 20 ng/mL e 31 ng/mL em amostras de leite humano. / Maternal breastfeeding is related with nutritional, immunological, affective, economic, and social benefits. Most licit and illicit substances consumed by the nursing mother might be excreted in breast milk, which may cause potential harmful effects to the breastfed infant at short and long terms. Although the knowledge about the psychoactive substances during lactation is increasing, there is still few information on the levels in which these substances are excreted in breast milk and many questions about the possible effects of these substances in the infant during the nursing period still remain unanswered. Breast milk is an unconventional matrix that can be used to assess infant exposure to drugs, and its main advantage is its easy and non-invasive collection. However, the extraction of substances from breast milk is an analytical challenge because of its high protein and fat content and changing composition during the postpartum period. In this study, miniaturized analytical techniques will be carried out to determine psychoactive substances such as cocaine, cocaethylene, norcocaine, tetrahydrocannabinol, cannabinol, and cannabidiol in milk samples by using gas chromatography-mass spectrometry (GC-MS). Liquid-phase microextraction (LPME) was applied to cocaine analytes and solid-phase microextraction (SPME) was applied to cannabinoids. After the development and validation, the methods were applied in milk samples collected from municipal hospital Dr. Arthur Ribeiro de Saboya (n=109). These techniques have proved to be suitable for analyte extraction and detection. Cocaine excretion in breast milk has been confirmed given that one sample was positive to cocaine in moderate amounts (138 ng/mL), as well as, two samples could be confirmed positive to tetrahydrocannabinol at 20 ng/mL and 31 ng/mL.

Breast milk

Canabinoides

Cannabinoids

Cocaína

Cocaine

Gas chromatography-mass spectrometry

Leite materno

Liquid-phase microextraction

Microextração em fase líquida

Microextração em fase sólida

Solid-phase microextraction