ABSTRACT
Para que os fármacos possam ser comercializados economicamente, a sua escala de produção deve ser aumentada para atender à demanda do mercado. Atualmente, a maior parte dos fármacos são sintetizados em processos batelada que possuem limitações quanto à eficiência de mistura, temperatura e pressão. O uso de microrreatores surge como alternativa na indústria químico-farmacêutica, aumentando a eficiência dos processos de maneira segura. Ferramentas utilizadas no segmento computacional multidisciplinar teórico, como o DFT (Density Functional Theory), podem prever e compreender o comportamento das reações químicas, podendo ter grande utilidade na síntese de novos fármacos economizando tempo, investimento e reduzindo a geração de resíduos. A diabetes mellitus é uma doença de caráter epidêmico, que a cada ano vem aumentando o número de casos. O emprego de fármacos derivados das glitazonas no tratamento de diabetes mellitus tipo 2 é recomendado devido ao excelente controle glicêmico que esta classe de fármacos oferece. Neste trabalho, foi sintetizada a Rosiglitazona, um fármaco derivado das glitazonas, que auxilia no tratamento da diabetes mellitus tipo 2, sendo estudadas duas rotas de síntese distintas, que foram otimizadas com o intuito de maximizar o rendimento de seus intermediários, obtendo a Rosiglitazona com pureza de cerca de 94%. Foi realizada, para os intermediários, aqui denominados, 1R, 2R2 e 3R2 a síntese one-pot e para os intermediários 1R, 2R1 e 3R2 foi realizada a transposição do processo usual em batelada para fluxo contínuo no microrreator, com rendimentos de até 93%. Com o auxílio da química quântica computacional, a reação de síntese do intermediário 1R, foi elucidada teoricamente e determinadas as grandezas termodinâmicas (ΔH, ΔG e ΔS) no estado de transição, que foram comparadas com os valores experimentais, sendo constatada uma boa concordância, com desvio máximo de 14%
In order for drugs to be commercialized economically, their production scale must be increased to meet market demand. Currently, most drugs are synthesized in batch processes that have limitations in terms of mixing efficiency, temperature and pressure. The use of microreactors appears as an alternative in the chemical-pharmaceutical industry, increasing the efficiency of the synthesis processes in a safe way. Tools used in the theoretical multidisciplinary computational segment, such as DFT (Density Functional Theory), can predict and understand the behavior of chemical reactions, and can be very useful in the synthesis of new drugs, saving time, investment and reducing waste generation. Diabetes mellitus is an epidemic disease that has been increasing the number of cases every year. The use of drugs derived from glitazones in the treatment of type 2 diabetes mellitus is recommended due to the excellent glycemic control that this class of drugs offers. In this work, Rosiglitazone, a drug derived from glitazones, which helps in the treatment of type 2 diabetes mellitus, was synthesized. Two different synthetic routes were studied and optimized in order to maximize the yield of its intermediates, obtaining Rosiglitazone with purity of about 94%. One-pot synthesis was performed to 1R, 2R2 and 3R2 intermediates, and the transposition from the usual batch process to continuous flow in microreactor was performed to 1R, 2R1 and 3R2 intermediates, with yields of up to 93%. With the aid of computational quantum chemistry, the intermediate 1R synthesis reaction was theoretically elucidated and the thermodynamic properties were determined (ΔH, ΔG and ΔS) in the transition state, which were compared with the experimental results, obtaining good agreement, with a maximum deviation of 14%
Subject(s)
Pharmaceutical Preparations/supply & distribution , Drug Industry/organization & administration , Rosiglitazone/analysis , Biopharmaceutics/classification , Chemical Reactions , Diabetes Mellitus, Type 2/pathology , Density Functional Theory , Glycemic Control/instrumentation , Investments/classificationABSTRACT
Abstract Thiazolidinedione, often shortened to TZD or glitazone, helps lower insulin resistance, which is the underlying problem for many people with type 2 diabetes. The two most known glitazones are pioglitazone (PGZ), with the brand name medicine Actos®, and rosiglitazone (RSG), which is Avandia®. This study presented a multivariate optimization in the microextraction procedure employing Fractional Factorial Design (FFD) combined with Desirability Function (DF) to determine TZD and metabolites in biological samples. Microextraction requires several parameters to be optimized; however, most of them still use univariate optimization. Finding optimum conditions by simple response is relatively simple, but the problems, in case of microextractions, are often more complex when it has more responses. For example, changing one factor that promotes one response may suppress the effect of the others. Thus, this multivariate optimization was applied for two bioanalytical methods for determination of TZD and metabolites, one by HPLC and other by CE, both using Hollow Fiber Liquid-Phase Microextraction (HF-LPME). The results establish the optimal values and elucidate how the factors that affect HF-LPME procedure perform in extraction efficiency for TZDs. Additionally, this study demonstrates that DF can be an important tool to optimize microextraction procedures.
Subject(s)
Chromatography, High Pressure Liquid/methods , Thiazolidinediones/adverse effects , Pioglitazone/analogs & derivatives , Methods , Insulin Resistance , Diabetes Mellitus, Type 2/pathology , Rosiglitazone/analogs & derivativesABSTRACT
Para que os fármacos possam ser comercializados economicamente, a sua escala de produção deve ser aumentada para atender à demanda do mercado. Atualmente, a maior parte dos fármacos são sintetizados em processos batelada que possuem limitações quanto à eficiência de mistura, temperatura e pressão. O uso de microrreatores surge como alternativa na indústria químico-farmacêutica, aumentando a eficiência dos processos de maneira segura. Ferramentas utilizadas no segmento computacional multidisciplinar teórico, como o DFT (Density Functional Theory), podem prever e compreender o comportamento das reações químicas, podendo ter grande utilidade na síntese de novos fármacos economizando tempo, investimento e reduzindo a geração de resíduos. A diabetes mellitus é uma doença de caráter epidêmico, que a cada ano vem aumentando o número de casos. O emprego de fármacos derivados das glitazonas no tratamento de diabetes mellitus tipo 2 é recomendado devido ao excelente controle glicêmico que esta classe de fármacos oferece. Neste trabalho, foi sintetizada a Rosiglitazona, um fármaco derivado das glitazonas, que auxilia no tratamento da diabetes mellitus tipo 2, sendo estudadas duas rotas de síntese distintas, que foram otimizadas com o intuito de maximizar o rendimento de seus intermediários, obtendo a Rosiglitazona com pureza de cerca de 94%. Foi realizada, para os intermediários, aqui denominados, 1R, 2R2 e 3R2 a síntese one-pot e para os intermediários 1R, 2R1 e 3R2 foi realizada a transposição do processo usual em batelada para fluxo contínuo no microrreator, com rendimentos de até 93%. Com o auxílio da química quântica computacional, a reação de síntese do intermediário 1R, foi elucidada teoricamente e determinadas as grandezas termodinâmicas (ΔH, ΔG e ΔS) no estado de transição, que foram comparadas com os valores experimentais, sendo constatada uma boa concordância, com desvio máximo de 14%
In order for drugs to be commercialized economically, their production scale must be increased to meet market demand. Currently, most drugs are synthesized in batch processes that have limitations in terms of mixing efficiency, temperature and pressure. The use of microreactors appears as an alternative in the chemical-pharmaceutical industry, increasing the efficiency of the synthesis processes in a safe way. Tools used in the theoretical multidisciplinary computational segment, such as DFT (Density Functional Theory), can predict and understand the behavior of chemical reactions, and can be very useful in the synthesis of new drugs, saving time, investment and reducing waste generation. Diabetes mellitus is an epidemic disease that has been increasing the number of cases every year. The use of drugs derived from glitazones in the treatment of type 2 diabetes mellitus is recommended due to the excellent glycemic control that this class of drugs offers. In this work, Rosiglitazone, a drug derived from glitazones, which helps in the treatment of type 2 diabetes mellitus, was synthesized. Two different synthetic routes were studied and optimized in order to maximize the yield of its intermediates, obtaining Rosiglitazone with purity of about 94%. One-pot synthesis was performed to 1R, 2R2 and 3R2 intermediates, and the transposition from the usual batch process to continuous flow in microreactor was performed to 1R, 2R1 and 3R2 intermediates, with yields of up to 93%. With the aid of computational quantum chemistry, the intermediate 1R synthesis reaction was theoretically elucidated and the thermodynamic properties were determined (ΔH, ΔG and ΔS) in the transition state, which were compared with the experimental results, obtaining good agreement, with a maximum deviation of 14%.
Subject(s)
Capillaries/metabolism , Growth and Development , Rosiglitazone/analysis , Density Functional Theory , Diabetes Mellitus/pathology , Drug Industry/classification , Reference Drugs , Glycemic Control/classificationABSTRACT
Type II diabetes mellitus (T2DM) and obesity are two common pathophysiological conditions of metabolic syndrome(MetS), a collection of similar metabolic dysfunctions due to sedentary lifestyle and overnutrition. Obesity arises fromimproper adipogenesis which otherwise has a crucial role in maintaining proper metabolic functions. Downstream eventsarising from obesity have been linked to T2DM. The nuclear receptor peroxisome proliferator activator gamma (PPAR-c),responsible for maintaining lipid and glucose homeostasis, is down-regulated under obesity leading to a weakened insulinsensitivity of the human body. In course of our review we will outline details of the down-regulation mechanism, provide anoverview of the current clinical therapeutics and their shortcomings. Toxicity studies on the seminal drug troglitazone,belonging to the most effective glitazone anti-diabetic category, is also discussed. This will lead to an overview aboutstructural adaptations on the existing glitazones to alleviate their side effects and toxicity. Finally, we forward a concept ofnovel therapeutics mimicking the glitazone framework, based on some design concepts and preliminary in silico studies.These could be later developed into dual acting drugs towards alleviating the deleterious effects of obesity on normalglucose metabolism, and address obesity in itself.
ABSTRACT
Background: Type 2 diabetes (T2DM) is often associated with liver function abnormalities, covering the entire spectrum from asymptomatic transamnitis to cirrhosis. The oral drugs used in diabetes are also associated with hepatic insult. Aims: Here we have tried to assess the prevalence the liver function test abnormality in type 2 diabetes mellitus patients with special reference to intake of oral hypoglycemic agents (OHA) and statins. Methods: We selected 101 patients of Type 2 Diabetes mellitus (T2DM). Among those diabetic patients 50 were on oral hypoglycemic drugs (OHA) and statins for at least last 6 months. Another 51 age and sex matched patients were diabetic but not on these drugs. The patients were screened for any existing liver disease by biochemical tests. Results and analysis: Our results showed that the prevalence of elevated liver enzymes and bilirubin is more in Diabetic patient than normal values but the oral hypoglycemic drugs and statins had no added effect. Altogether 70 patients (69.3%) had at least one liver function test abnormality. In our study, 4.95% of the patients had elevated bilirubin (>2.5 mg/dL). 24.75% of the study patients had ALT levels above normal (40 U/L) although high values (>100 U/L) were present only in 5 (4.95%). High AST levels (>40) was found in 34.65% cases. Mean alkaline phosphatase levels in 2 groups were similar (213.96 ± 46.2 vs. 222.75 ± 42.52 U/ L). Serum proteins, INR and alkaline phosphatase did not also show any association with drug intake in our study. Conclusion: Thus screening for liver function abnormalities can be a useful test in diabetic population to prevent future complications.
Subject(s)
Administration, Oral , Diabetes Mellitus, Type 2/drug therapy , Diabetes Mellitus, Type 2/physiology , Female , Humans , Hydroxymethylglutaryl-CoA Reductase Inhibitors/administration & dosage , Hydroxymethylglutaryl-CoA Reductase Inhibitors/adverse effects , Hypoglycemic Agents/administration & dosage , Hypoglycemic Agents/adverse effects , Liver/abnormalities , Liver/enzymology , Liver/physiology , Liver/toxicity , Liver Function Tests , Male , Middle AgedABSTRACT
Chemically Glitazones belong to Thi-azolidinediones. Glitazones enhance the sensitivity of target tissues to insulin and reduce insulin resistance. They, celled insulin sensitizers, are a new class of oral hypoglycemics. These agents can't reduce the blood glucose values either in normal animal or I type diabetic animal, but do have good effects on spontaneous diabetic animal and artificial insulin resistance animal. The research on insulin resistance needs euglycemic clamp for determination and the main index of assessing euglycemicclamp is glucose infusion rate in stable state. So far, the hypoglycemic mechanism of glitazones has been believed to be associated with PPARs(Peroxi-some Proliferator-Activated Receptors ). Gli-taziones act on PPAR Y, play an indirect part in insulin signal transduction and enhance the action of insulin. However, the precise mechanism still remains unknown.