DEVELOPMENT OF HPLC METHODS FOR PHARMACEUTICALLY RELEVANT MOLECULES; METHOD TRANSFER TO UPLC: COMPARING METHODS STATISTICALLY FOR EQUIVALENCE

Ganti, Satyakala

January 2011

High Pressure Liquid Chromatography (HPLC) is a well-known and widely used analytical technique which is prevalent throughout the pharmaceutical industry as a research tool. Despite its prominence HPLC possesses some disadvantages, most notably slow analysis time and large consumption of organic solvents. Ultra Pressure Liquid Chromatography (UPLC) is a relatively new technique which offers the same separation capabilities of HPLC with the added benefits of reduced run time and lower solvent consumption. One of the key developments which facilitate the new UPLC technology is sub 2-µm particles used as column packing material. These particles allow for higher operating pressures and increased flow rates while still providing strong separation. Although UPLC technology has been available since early 2000, few laboratories have embraced the new technology as an alternative to HPLC. Besides the resistance to investing in new capital, another major roadblock is converting existing HPLC methodology to UPLC without disruption. This research provides a framework for converting existing HPLC methods to UPLC. An existing HPLC method for analysis of Galantamine hydrobromide was converted to UPLC and validated according to ICH guidelines. A series of statistical evaluations on the validation data were performed to prove the equivalency between the original HPLC and the new UPLC method. This research presents this novel statistical strategy which can be applied to any two methodologies to determine parity. / Chemistry

Chemistry, Analytical

Galantamine

Method Comparison

Statistical Analysis

Desenvolvimento de metodologia para monitorização terapêutica da azatioprina por cromatografia líquida de alta eficiência-UV (HPLC-UV) em transplantados renais / Development of a methodology for therapeutic drug monitoring of azathioprine by high performance liquid chromatography-UV (HPLC-UV) in renal transplant recipients

Maurilio Pacheco Neto

24 June 2010

A azatioprina (AZA) é um imunossupressor utilizado no tratamento de doenças autoimunes como lúpus eritematoso sistêmico, doença de Crohn, doença inflamatória intestinal e contra a rejeição em transplantes de órgãos sólidos. Após mais de 40 anos de uso a AZA continua exercendo um papel central nos regimes imunomoduladores, devido ao fato de combinar eficácia, segurança e baixo custo. Sabe-se que a atividade da tiopurina metiltransferase pode determinar, pelo menos em parte, a eficácia clínica da AZA. Esta enzima apresenta polimorfismo genético co-dominante e a distribuição dos alelos variantes é significativamente diferente entre as populações. A grande variabilidade farmacocinética no metabolismo AZA justifica a sua monitorização terapêutica. Neste trabalho otimizou-se uma metodologia para a quantificação dos metabólitos da AZA, 6-TGN e 6-MMP, por cromatografia líquida de alta eficiência (HPLC/UV-Vis), utilizando-se um detector de ultravioleta-visível em um único comprimento de onda, após a amostra passar por uma desproteinização ácida simples e ser aquecida para a conversão dos metabólitos em suas respectivas bases livres. Os valores destes metabólitos foram determinados em uma população de 124 pacientes transplantados renais. Para adequarmos o processo às legislações locais e internacionais, foram seguidas orientações da Anvisa, FDA e CLSI. A separação foi realizada em coluna de fase reversa, sendo a fase móvel A fosfato de potássio e a fase móvel B metanol. A detecção da 6-TGN e da 6-MMP foi realizada em 342 m (UV-Vis). O estudo da linearidade da 6-TGN variou entre 0,30 e 89,71 mol/L e da 6-MMP entre 0,30 e 93,86 mol/L. As recuperações, de 95,08 a 100,80% para 6-TGN e 95,38 a 105,06% para 6-MMP. Os CV da repetibilidade, de 0,04 a 5,06%, enquanto os CV da reprodutibilidade de 4,88 a 12,73% para 6-TGN e 6-MMP. Para ambos os metabólitos o LD e o LQ foram de 0,30 mol/L e 0,13 mol/L. Os eritrócitos lavados e as amostras tratadas, prontas para a injeção no HPLC, foram armazenadas abaixo de -5°C até a análise. Nesta temperatura estiveram estáveis durante 8 semanas e 1 dia, respectivamente. Os valores das concentrações de 6-TGN e 6-MMP encontrados nas amostras dos pacientes variaram entre não detectável a 1569 mol/8 x 108 RBC (mediana de 200,50) e não detectável a 113057 mol/8 x 108 RBC (mediana de 5166), respectivamente. As correlações entre os níveis de 6-TGN ou 6-MMP e as variáveis sexo, tempo pós-transplante, número de transplantes e dosagem de AZA (mg/kg) foram examinadas em diferentes grupos. O método proposto apresenta boa relação custo-benefício, é simples, preciso e rápido na determinação das concentrações intraeritrocitárias de 6-TGN e 6-MMP em pacientes sob terapia com AZA. O método validado permite que o laboratório forneça dados farmacocinéticos úteis e precisos para o ajuste do tratamento do paciente e pode ser facilmente adaptado para a análise rotineira destes metabólitos. Os resultados das amostras dos pacientes estão de acordo com os encontrados em outros estudos, atestando a utilidade dessa ferramenta analítica no acompanhamento dos pacientes / Azathioprine (AZA) is an immunosuppressant used in autoimmune pathologies like lupus erythematosus, Chrons disease, inflammatory bowel disease and against rejection in solid organs transplant. After more than 40 years of use, AZA continues exerting a central role in immunomodulatory regimens, due to the fact that it combines effectiveness, safety and low cost. It is well known that thiopurine methyltransferase activity may determine, at least in part, the clinical efficacy of AZA therapy. This enzyme exhibits codominant genetic polymorphism and the distribution of these variant alleles differs significantly among populations. The considerable pharmacokinetic variability in AZA metabolism justify the therapeutic drug monitoring of this drug. In this work a methodology was improved to quantify the metabolites of AZA, 6-TGN and 6-MMP, by high performance liquid chromatography (HPLC/UV-Vis) with an ultraviolet-visible detector, using a single wavelength reading, following a simple acid deproteinization and heating to convert the metabolites into their respective free bases. The values of these metabolites were determined in a population of 124 renal transplant recipients. To adequate the process to international and local legislation, Anvisa, FDA and CLSI guidelines were followed. Separation was achieved on a reversed-phase column; mobile phase A potassium phosphate and mobile phase B methanol. Detection of 6-TGN and 6-MMP was performed at 342 m (UV-Vis). Assay linearity for 6-TGN ranged from 0.30 to 89.71 mol/L and from 0.30 to 93.86 mol/L for 6-MMP. The recoveries were 95.08, 97.76 and 100.80% for 6-TGN and 104.79, 95.38 and 105.06% for 6-MMP. Repeatability CV were 3.50, 5.06, 1.09 and 0.04, 0.35, 1.58%, while reproducibility CV were 8.65, 7.18, 8.44 and 12.73, 6.40, 4.88% for 6-TGN and 6-MMP, respectively. LOQ and LOD of 6-TNG and 6-MMP were respectively 0.30 mol/L and 0.13 mol/L for both metabolites. The washed erythrocytes and the samples treated and ready for injection into the HPLC system were stored below -5 °C until analysis, at this temperature the samples were stable for 8 weeks and for 1 day, respectively. 6-TGN and 6-MMP patient analysis values ranged from non detectable to 1569 mol/8 x 108 RBC (median of 200.50) and non detectable to 113057 mol/8 x 108 RBC (median of 5166), respectively. The correlations between 6-TGN or 6-MMP levels and variables sex, time post-transplant, number of transplants and AZA dosage (mg/kg) were examined in different groups. The proposed HPLC method has a good cost-benefit ratio, is straightforward, precise, accurate and fast at the determining 6-TGN and 6-MMP concentrations in red blood cells of patients under AZA therapy. The validated method is good enough to enable the laboratory to routinely provide useful and accurate pharmacokinetic data in time to adjust patient regimens. It can be easily adopted for routine analysis of these drug metabolites. The results of patient samples are in agreement with others studies, thus certifying the usefulness of this analytical tool in monitoring of patients

Azatioprina

Cromatografia liquida de alta pressão

Monitoramento de medicamentos

Tioguanina

Azathioprine

Drug monitoring

High pressure liquid chromatography

Thioguanine

Comparação da bioequivalência de duas formulações da risperidona / Comparison of bioequivalence between two formulations of risperidone

Belotto, Karisa Cristina Rodrigues

10 May 2010

Desde 1964, o Brasil tem lançado programas de políticas públicas para melhorar o acesso da população aos medicamentos considerados essenciais. Em 1999, com a criação da Agência Nacional de Vigilância Sanitária e a introdução dos medicamentos genéricos no mercado brasileiro, o Brasil passou a ter três classes de medicamentos disponíveis no mercado farmacêutico: referência, similar e genérico. O objetivo deste estudo foi avaliar a bioequivalência e intercambialidade entre dois antipsicóticos (referência e similar) utilizados pelo Instituto de Psiquiatria do Hospital das Clínicas da Universidade de São Paulo, contendo 2 mg de risperidona. Foi desenvolvido e validado um método analítico que emprega a cromatografia líquida de alta eficiência acoplada à espectrometria de massas para a determinação da risperidona (RSP) e seu principal metabólito a 9-hidroxirisperidona (9OH-RSP) em plasma. Para se avaliar a bioequivalência entre os medicamentos foram recrutados 22 voluntários sadios, os quais participaram do estudo clínico conduzido de forma cruzada e aleatória. As coletas sanguíneas para o ensaio de bioequivalência foram realizadas em tubos heparinizados (5 mL) e os tempos de coleta foram 0 (antes da medicação); 0,25; 0,5; 1; 1,5; 3; 5; 8; 12; 24; 48; 72; 96 e 120 horas após a administração da medicação. A determinação da bioequivalência entre os dois medicamentos deu-se através da comparação dos parâmetros farmacocinéticos: concentração plasmática máxima (Cmax), tempo para atingir a concentração plasmática máxima (Tmax) e área sobre a curva de decaimento plasmático (ASCT). Os resultados obtidos foram submetidos à análise de variância (ANOVA) e foi adotado o intervalo de confiança de 90% (IC 90%). Os valores médios para Cmax, Tmax e ASCT para RSP para os medicamentos referência e teste foram 16,02 ng/mL; 1,5 h e 348,94 ng.h/mL e 12,65 ng/mL; 1,5 h e 286,03 ng.h/mL, respectivamente. Já os valores médios para Cmax, Tmax e ASCT para 9OH-RSP para os medicamentos referência e teste foram 21,00 ng/mL; 5,0 h e 821,40 ng.h/mL e 17,85 ng/mL; 5,0 h e 632,92 ng.h/mL. Os valores de IC 90% para Cmax e ASCT para RSP para os medicamentos referência e teste foram 74 a 82% e 76 a 85%, respectivamente, e os valores de IC 90% para os mesmos parâmetros para 9OH-RSP foram 83 a 87% e 75 a 78%, respectivamente. Os resultados demonstraram diferenças significativas entre os medicamentos testados, o que permite concluir que os mesmos não são bioequivalentes e, portanto, não podem ser intercambiáveis / Brazil has launched programmes of public policies aiming to improve essential medicines access for the population since 1964. It was created in 1999 the National Agency for Sanitary Vigilance, which introduced the generic medicines in the Brazilian market, which already had the reference and the pharmaceutical equivalent ones. The objective of this study was to evaluate the bioequivalence and interchangeability between two antipsychotics (reference and pharmaceutical equivalent) used by the Institute of Psychiatry, Hospital of the Universidade de São Paulo, containing 2 mg of risperidone. It was developed and validated a high-performance liquid chromatography coupled to mass spectrometry method for the determination in plasma of risperidone (RSP) and its main metabolite, 9- hydroxy-risperidone (9OH-RSP). To assess bioequivalence between the medicines it was recruited 22 healthy volunteers, which took part in a clinical cross and random studies. The blood collections were performed on heparinizades tubes (5 ml) and runtimes collections were 0 (before medication); 0.25; 0.5; 1; 1.5; 3; 5; 8; 12; 24; 48; 72; 96 and 120 hours after the administration of medication. The determination of bioequivalence between the two drugs was achieved by a comparison of the following pharmacokinetic parameters: plasma concentration (Cmax), time to achieve Cmax (Tmax), and area under the plasma concentration-time curve (AUCT). Results were subjected to analysis of variance (ANOVA), adopting a confidence interval CI 90%. The average values for Cmax, Tmax and AUCT for RSP were 16.02 ng/ml, 1.5 h and 348.94 ng.h/ml for reference medicines and 12.65 ng/ml, 1.5 h and 286.03 ng.h/ml for testing ones. The average values for Cmax, Tmax and AUCT for 9OH-RSP were 21.00 ng/ml, 5.0 h and 821.40 ng.h/ml for reference medicines and 17.85 ng/ml, 5.0 h and 632.92 ng.h/ml for testing ones. CI 90% for Cmax and AUC (RSP) were 74-82% and 76-85%, respectively. The CI 90% for the same parameters for 9OH-RSP was 83-87% for reference medicines and 75-78% for testing ones. There was significant difference between the products tested, thus one can conclude they are not bioequivalents, therefore cannot be interchanged

Cromatografia líquida de alta pressão

Equivalência terapêutica

Farmacocinética

High pressure liquid chromatography

Pharmacokinetic

Risperidona

Risperidone

Therapeutic equivalency

Active encapsulation of diclofenac sodium into liposomes for ophthalmic preparations

Alonjang, Evelyne Nguelweh

January 2018

>Magister Scientiae - MSc / Liposomes as a drug carrier in the pharmaceutical industry has gained currency since its discovery in 1965 by Bangham A. D. Liposomes have been shown to improve bioavailability as they can be delivered to target sites and possess sustained release properties which could be used to mitigate certain weaknesses associated with current diclofenac sodium eye drops. Diclofenac sodium (DNa) eye drop is a sterile Nonsteroidal Anti-inflammatory Drug (NSAID) with diclofenac sodium as its active ingredient. It is indicated for the lessening of ocular pain, prevention of miosis in eye operations, easing of postoperative inflammation and cystoids macular edema. The residence time of eye drops after application has been found to be 1-2 minutes as a result of continuous production of tears diluting the active ingredient, draining the eye drops into the nasolacrimal path, and eliminating it during blinking. As a result of the active ingredient not residing at the target site for the required duration, more frequent administration and medication is required and the risk of non-compliance is increased. Given the aforementioned potential of liposomes to redress the above weaknesses of current eye drops (dosage form) available for diclofenac sodium ophthalmic application, this study sought to encapsulate diclofenac sodium into liposomes for ophthalmic application. The main components of liposomes (cholesterol and phosphotidylcholine) and incubation time were set as the independent variables while percentage encapsulation, polydispersity index (PDI) and drug release profile constituted the dependent variable. Using analysis of variance (ANOVA) and t-test statistics, the interaction between the independent variables and their effect on the dependent variables were tested.

Active encapsulation

Central composite design

Diclofenac sodium

High pressure liquid chromatography

Liposomes

In situ gels

Desenvolvimento de metodologia para monitorização terapêutica da azatioprina por cromatografia líquida de alta eficiência-UV (HPLC-UV) em transplantados renais / Development of a methodology for therapeutic drug monitoring of azathioprine by high performance liquid chromatography-UV (HPLC-UV) in renal transplant recipients

Pacheco Neto, Maurilio

24 June 2010

A azatioprina (AZA) é um imunossupressor utilizado no tratamento de doenças autoimunes como lúpus eritematoso sistêmico, doença de Crohn, doença inflamatória intestinal e contra a rejeição em transplantes de órgãos sólidos. Após mais de 40 anos de uso a AZA continua exercendo um papel central nos regimes imunomoduladores, devido ao fato de combinar eficácia, segurança e baixo custo. Sabe-se que a atividade da tiopurina metiltransferase pode determinar, pelo menos em parte, a eficácia clínica da AZA. Esta enzima apresenta polimorfismo genético co-dominante e a distribuição dos alelos variantes é significativamente diferente entre as populações. A grande variabilidade farmacocinética no metabolismo AZA justifica a sua monitorização terapêutica. Neste trabalho otimizou-se uma metodologia para a quantificação dos metabólitos da AZA, 6-TGN e 6-MMP, por cromatografia líquida de alta eficiência (HPLC/UV-Vis), utilizando-se um detector de ultravioleta-visível em um único comprimento de onda, após a amostra passar por uma desproteinização ácida simples e ser aquecida para a conversão dos metabólitos em suas respectivas bases livres. Os valores destes metabólitos foram determinados em uma população de 124 pacientes transplantados renais. Para adequarmos o processo às legislações locais e internacionais, foram seguidas orientações da Anvisa, FDA e CLSI. A separação foi realizada em coluna de fase reversa, sendo a fase móvel A fosfato de potássio e a fase móvel B metanol. A detecção da 6-TGN e da 6-MMP foi realizada em 342 m (UV-Vis). O estudo da linearidade da 6-TGN variou entre 0,30 e 89,71 mol/L e da 6-MMP entre 0,30 e 93,86 mol/L. As recuperações, de 95,08 a 100,80% para 6-TGN e 95,38 a 105,06% para 6-MMP. Os CV da repetibilidade, de 0,04 a 5,06%, enquanto os CV da reprodutibilidade de 4,88 a 12,73% para 6-TGN e 6-MMP. Para ambos os metabólitos o LD e o LQ foram de 0,30 mol/L e 0,13 mol/L. Os eritrócitos lavados e as amostras tratadas, prontas para a injeção no HPLC, foram armazenadas abaixo de -5°C até a análise. Nesta temperatura estiveram estáveis durante 8 semanas e 1 dia, respectivamente. Os valores das concentrações de 6-TGN e 6-MMP encontrados nas amostras dos pacientes variaram entre não detectável a 1569 mol/8 x 108 RBC (mediana de 200,50) e não detectável a 113057 mol/8 x 108 RBC (mediana de 5166), respectivamente. As correlações entre os níveis de 6-TGN ou 6-MMP e as variáveis sexo, tempo pós-transplante, número de transplantes e dosagem de AZA (mg/kg) foram examinadas em diferentes grupos. O método proposto apresenta boa relação custo-benefício, é simples, preciso e rápido na determinação das concentrações intraeritrocitárias de 6-TGN e 6-MMP em pacientes sob terapia com AZA. O método validado permite que o laboratório forneça dados farmacocinéticos úteis e precisos para o ajuste do tratamento do paciente e pode ser facilmente adaptado para a análise rotineira destes metabólitos. Os resultados das amostras dos pacientes estão de acordo com os encontrados em outros estudos, atestando a utilidade dessa ferramenta analítica no acompanhamento dos pacientes / Azathioprine (AZA) is an immunosuppressant used in autoimmune pathologies like lupus erythematosus, Chrons disease, inflammatory bowel disease and against rejection in solid organs transplant. After more than 40 years of use, AZA continues exerting a central role in immunomodulatory regimens, due to the fact that it combines effectiveness, safety and low cost. It is well known that thiopurine methyltransferase activity may determine, at least in part, the clinical efficacy of AZA therapy. This enzyme exhibits codominant genetic polymorphism and the distribution of these variant alleles differs significantly among populations. The considerable pharmacokinetic variability in AZA metabolism justify the therapeutic drug monitoring of this drug. In this work a methodology was improved to quantify the metabolites of AZA, 6-TGN and 6-MMP, by high performance liquid chromatography (HPLC/UV-Vis) with an ultraviolet-visible detector, using a single wavelength reading, following a simple acid deproteinization and heating to convert the metabolites into their respective free bases. The values of these metabolites were determined in a population of 124 renal transplant recipients. To adequate the process to international and local legislation, Anvisa, FDA and CLSI guidelines were followed. Separation was achieved on a reversed-phase column; mobile phase A potassium phosphate and mobile phase B methanol. Detection of 6-TGN and 6-MMP was performed at 342 m (UV-Vis). Assay linearity for 6-TGN ranged from 0.30 to 89.71 mol/L and from 0.30 to 93.86 mol/L for 6-MMP. The recoveries were 95.08, 97.76 and 100.80% for 6-TGN and 104.79, 95.38 and 105.06% for 6-MMP. Repeatability CV were 3.50, 5.06, 1.09 and 0.04, 0.35, 1.58%, while reproducibility CV were 8.65, 7.18, 8.44 and 12.73, 6.40, 4.88% for 6-TGN and 6-MMP, respectively. LOQ and LOD of 6-TNG and 6-MMP were respectively 0.30 mol/L and 0.13 mol/L for both metabolites. The washed erythrocytes and the samples treated and ready for injection into the HPLC system were stored below -5 °C until analysis, at this temperature the samples were stable for 8 weeks and for 1 day, respectively. 6-TGN and 6-MMP patient analysis values ranged from non detectable to 1569 mol/8 x 108 RBC (median of 200.50) and non detectable to 113057 mol/8 x 108 RBC (median of 5166), respectively. The correlations between 6-TGN or 6-MMP levels and variables sex, time post-transplant, number of transplants and AZA dosage (mg/kg) were examined in different groups. The proposed HPLC method has a good cost-benefit ratio, is straightforward, precise, accurate and fast at the determining 6-TGN and 6-MMP concentrations in red blood cells of patients under AZA therapy. The validated method is good enough to enable the laboratory to routinely provide useful and accurate pharmacokinetic data in time to adjust patient regimens. It can be easily adopted for routine analysis of these drug metabolites. The results of patient samples are in agreement with others studies, thus certifying the usefulness of this analytical tool in monitoring of patients

Azathioprine

Azatioprina

Cromatografia liquida de alta pressão

Drug monitoring

High pressure liquid chromatography

Monitoramento de medicamentos

Thioguanine

Tioguanina

Comparação da bioequivalência de duas formulações da risperidona / Comparison of bioequivalence between two formulations of risperidone

Karisa Cristina Rodrigues Belotto

10 May 2010

Desde 1964, o Brasil tem lançado programas de políticas públicas para melhorar o acesso da população aos medicamentos considerados essenciais. Em 1999, com a criação da Agência Nacional de Vigilância Sanitária e a introdução dos medicamentos genéricos no mercado brasileiro, o Brasil passou a ter três classes de medicamentos disponíveis no mercado farmacêutico: referência, similar e genérico. O objetivo deste estudo foi avaliar a bioequivalência e intercambialidade entre dois antipsicóticos (referência e similar) utilizados pelo Instituto de Psiquiatria do Hospital das Clínicas da Universidade de São Paulo, contendo 2 mg de risperidona. Foi desenvolvido e validado um método analítico que emprega a cromatografia líquida de alta eficiência acoplada à espectrometria de massas para a determinação da risperidona (RSP) e seu principal metabólito a 9-hidroxirisperidona (9OH-RSP) em plasma. Para se avaliar a bioequivalência entre os medicamentos foram recrutados 22 voluntários sadios, os quais participaram do estudo clínico conduzido de forma cruzada e aleatória. As coletas sanguíneas para o ensaio de bioequivalência foram realizadas em tubos heparinizados (5 mL) e os tempos de coleta foram 0 (antes da medicação); 0,25; 0,5; 1; 1,5; 3; 5; 8; 12; 24; 48; 72; 96 e 120 horas após a administração da medicação. A determinação da bioequivalência entre os dois medicamentos deu-se através da comparação dos parâmetros farmacocinéticos: concentração plasmática máxima (Cmax), tempo para atingir a concentração plasmática máxima (Tmax) e área sobre a curva de decaimento plasmático (ASCT). Os resultados obtidos foram submetidos à análise de variância (ANOVA) e foi adotado o intervalo de confiança de 90% (IC 90%). Os valores médios para Cmax, Tmax e ASCT para RSP para os medicamentos referência e teste foram 16,02 ng/mL; 1,5 h e 348,94 ng.h/mL e 12,65 ng/mL; 1,5 h e 286,03 ng.h/mL, respectivamente. Já os valores médios para Cmax, Tmax e ASCT para 9OH-RSP para os medicamentos referência e teste foram 21,00 ng/mL; 5,0 h e 821,40 ng.h/mL e 17,85 ng/mL; 5,0 h e 632,92 ng.h/mL. Os valores de IC 90% para Cmax e ASCT para RSP para os medicamentos referência e teste foram 74 a 82% e 76 a 85%, respectivamente, e os valores de IC 90% para os mesmos parâmetros para 9OH-RSP foram 83 a 87% e 75 a 78%, respectivamente. Os resultados demonstraram diferenças significativas entre os medicamentos testados, o que permite concluir que os mesmos não são bioequivalentes e, portanto, não podem ser intercambiáveis / Brazil has launched programmes of public policies aiming to improve essential medicines access for the population since 1964. It was created in 1999 the National Agency for Sanitary Vigilance, which introduced the generic medicines in the Brazilian market, which already had the reference and the pharmaceutical equivalent ones. The objective of this study was to evaluate the bioequivalence and interchangeability between two antipsychotics (reference and pharmaceutical equivalent) used by the Institute of Psychiatry, Hospital of the Universidade de São Paulo, containing 2 mg of risperidone. It was developed and validated a high-performance liquid chromatography coupled to mass spectrometry method for the determination in plasma of risperidone (RSP) and its main metabolite, 9- hydroxy-risperidone (9OH-RSP). To assess bioequivalence between the medicines it was recruited 22 healthy volunteers, which took part in a clinical cross and random studies. The blood collections were performed on heparinizades tubes (5 ml) and runtimes collections were 0 (before medication); 0.25; 0.5; 1; 1.5; 3; 5; 8; 12; 24; 48; 72; 96 and 120 hours after the administration of medication. The determination of bioequivalence between the two drugs was achieved by a comparison of the following pharmacokinetic parameters: plasma concentration (Cmax), time to achieve Cmax (Tmax), and area under the plasma concentration-time curve (AUCT). Results were subjected to analysis of variance (ANOVA), adopting a confidence interval CI 90%. The average values for Cmax, Tmax and AUCT for RSP were 16.02 ng/ml, 1.5 h and 348.94 ng.h/ml for reference medicines and 12.65 ng/ml, 1.5 h and 286.03 ng.h/ml for testing ones. The average values for Cmax, Tmax and AUCT for 9OH-RSP were 21.00 ng/ml, 5.0 h and 821.40 ng.h/ml for reference medicines and 17.85 ng/ml, 5.0 h and 632.92 ng.h/ml for testing ones. CI 90% for Cmax and AUC (RSP) were 74-82% and 76-85%, respectively. The CI 90% for the same parameters for 9OH-RSP was 83-87% for reference medicines and 75-78% for testing ones. There was significant difference between the products tested, thus one can conclude they are not bioequivalents, therefore cannot be interchanged

Cromatografia líquida de alta pressão

Equivalência terapêutica

Farmacocinética

Risperidona

High pressure liquid chromatography

Pharmacokinetic

Risperidone

Therapeutic equivalency

Stanovení tryptofanu, serotoninu a melatoninu v rostlinném materiálu pomocí HPLC / Determination of tryptophan, serotonine and melatonin in plants by using HPLC

Pavlů, Věra

January 2021

This thesis deals with the development and optimization of a method for the determination of tryptophan and its metabolites - serotonin and melatonin - in plant material, in grapevine, during one analysis. It uses a high-pressure liquid chromatography. The theoretical part is about tryptophan, its metabolism and basic properties of its metabolites - serotonin and melatonin. Their occurrence in wine is also discussed. Analytical techniques by which these analytes can be determined are also provided. Then information about modern stationary phases, that are suitable for this species, is included. The experimental part consists of optimization of the method, measurement of calibration dependences and measurement of real samples. It is measured by the method of reverse phase chromatography. As first stationary phase it is used a C18 column with core-shell packing, second is a BEH Phenyl column. The mixture of 10 mM acetate buffer (pH = 4.5) and methanol is used as the mobile phase. For detection UV at wavelength 254 nm is used, then for greater sensitivity mass detectionis is used. The basic conditions for the experiment have been set. At the beginning of the analysis, the mobile phase contains 95 % (v/v) buffer and 5 % (v/v) methanol. Then the methanol content is linearly increased to 80 % (v/v) from...

Pharmacokinetic Profiles of Oxytetracycline in Yellow Perch (Perca flavescens) as Determined by Plasma Concentration Following Different Routes of Administration

Bowden, Brent

29 April 2001

Oxytetracycline (OTC) is one of two antibiotics currently available and approved by the U.S. Food and Drug Administration for use as a chemotherapeutic agent in food fish and is widely used in the aquaculture industry. Previous pharmacokinetic studies of OTC have been conducted in cold water and warm water species of fish. However, no pharmacokinetic studies have been conducted on a cool water species such as yellow perch (Perca flavescens). The yellow perch is a cool water game and commercial species with high aquaculture potential. The pharmacokinetic profiles of oxytetracycline (OTC) was determined by measuring plasma concentrations in yellow perch following intraperitoneal (i.p.), intramuscular (i.m.), per os (p.o.), and intracardiac (i.c.) administration at a single dose of 50 mg/kg body weight. Using a modification of a high-performance-liquid-chromatographic (HPLC) technique, the plasma OTC concentrations were determined for each of the four routes of administration. Plasma concentrations were also evaluated in yellow perch exposed to a static 48-hour OTC water bath (100 mg/l). The terminal half-lives (t1/2) of OTC in yellow perch for i.p., i.m., p.o., and i.c. administrations were 112, 124, 50, and 28 h, respectively. The t1/2 for the i.m. route of administration was significantly longer than in any of the published i.m. OTC fish studies to date. However, the times of maximum OTC concentration (tmax) for the i.p., i.m. and p.o. administrations (2, 4, and 15 h, respectively) occurred relatively early in the plasma concentration-time curves. This suggests, that in yellow perch, OTC is initially absorbed very rapidly. The area under the plasma concentration-time curves (AUC) for the i.p., i.m., p.o., and i.c. routes of administration were 1718, 2659, 383, and 134 mcg·h/ml, respectively. No OTC was detected in the plasma of yellow perch following the water bath route of exposure. Finally, in yellow perch, effective therapy (plasma OTC concentrations above MIC values for most bacteria pathogenic to fish — 4 mcg/ml) would be achieved for up to 168 hours following a single i.p. or i.m. injection of 50 mg/kg and for up to 15 hours following a single p.o dose of 50 mg/kg. / Master of Science

oxytetracycline (OTC)

pharmacokinetic profiles

Fish

yellow perch

Leaching of active ingredients from blueberries and cranberries using supercritical carbon dioxide and ethanol as an entrainer and analyzing using GC/MS

Elsayed, Nada H.

January 2009

Thesis (M.S.B.E.)--University of South Florida, 2009. / Title from PDF of title page. Document formatted into pages; contains 108 pages. Includes bibliographical references.

Stanovení adenosintrifosfátu a adenosindifosfátu v reálných vzorcích / Determination of adenosine triphosphate and adenosine diphosphate in real samples

Černá, Martina

January 2013

The aim of the diploma thesis was to find optimal conditions of high pressure liquid chromatography for the detection and quantification of two common nucleotides, namely adenosine diphosphate and adenosine triphosphate, as well as to perform an analysis of these in real life samples of citrus fruits and plant extracts. Further aim of the project was to determine the limits of detection and quantification of adenosine diphosphate and adenosine triphosphate under the optimized conditions and using these to compare the sensitivity of given detectors. To achieve this HPLC-UV, capillary HPLC-DAD and HPLC-MS apparatus were used. With the help of HPLC with UV detection and capillary HPLC with diode array detector, the calibration curves of the mixture of analytes were measured and the limits of detection as well as quantification of adenosine diphosphate and adenosine triphosphate were determined. Separation of the analytes up to the base line using HPLC-UV and capillary HPLC-DAD was achieved under the conditions of ion pairing chromatography. Column C18 was chosen as an appropriate column. The mobile phase included phosphate buffer, acetonitrile and tetrabutylammonium bisulphate as an ion pairing reagent. The separation was performed with gradient elution. Conditions for analysis using LC-MS were...