Pharmaceutical and food pollutants have threatened global health. Pharmacotherapy has left a posi... more Pharmaceutical and food pollutants have threatened global health. Pharmacotherapy has left a positive impression in the field of health and life of people and animals. However, the many unresolved problems brought along with residues of pharmaceuticals in the environmental and food. Consumption of the world's freshwater resources, toxic chemicals, air pollution, plastic waste directly affects water and soil resources. Pesticides have a wide role in pollutants. Therefore, the determination of pesticides is significant to eliminate their negative effects on living things. Nowadays, there are many analytical methods available. However, new analysis methods are still being researched due to certain limitations of traditional methods. Electrochemical sensors have drawn attention because of their superior properties, such as short analysis time, affordability, high sensitivity, and selectivity. The development of new analytical strategies for assessing risks from pharmaceutical to food pollutants in water and soil sources is important for the measurement of different pollutants. Moreover, the 2D-carbon nanomaterials used in the development of electrochemical sensors are widely utilized to enlarge the surface area, increase porosity, and make easy immobilization. Graphene (graphene derivations) and carbon nanotubes integrated nanosensors are widely used for the determination of pesticides. 2D-carbon nanomaterials can be tailored according to the purpose of the study. The characterization and synthesis methods of 2D-carbon nanomaterials are widely explained. Furthermore, enzyme nanobiosensors, especially Acetylcholinesterase (AChE), are widely used to determine pesticides. The three main topics are focused on in this review: 2D-carbon nanomaterials, pesticides that threaten life, and the application of 2D-carbon nanomaterials-based electrochemical sensors. The various developed 2D-carbon nanomaterials-based electrochemical sensors were applied in pharmaceutical forms, fruits, tap/lake water, beverages, and soils sources. This work aims to indicate the recently published paper related to pesticide analysis and highlight the importance of 2D-nanomaterials on sensors.
Quantum dots (QDs) are one of the first nanotechnological materials to be integrated with sensor ... more Quantum dots (QDs) are one of the first nanotechnological materials to be integrated with sensor technologies and have been widely anticipated to eventually find application chances in several commercial pharmaceutical and clinical products. They are one of the most important developments in the rapidly growing world of material science technology. The excellent properties of QDs may allow the design of simple, precise, and inexpensive electrochemical methods for the detection of pharmaceuticals. Electrochemical techniques offer accuracy, high sensitivity, low cost, simplicity, ease of preparation of the samples in a very short time, and speed of analysis. The most commonly used voltammetric techniques are differential pulse voltammetry, cyclic voltammetry, square wave voltammetry, and stripping voltammetry. The purpose of this review is to show and communicate the advantages and uses of QD applications used in drug analysis. Besides, the present application methods of QDs to the pharmaceutical analysis and their related parameters were summarized between 2012 and 2021 years and summarized as a table.
Introduction:Schizophrenia is seizures accompanied by severe psychotic symptoms, and a steady sta... more Introduction:Schizophrenia is seizures accompanied by severe psychotic symptoms, and a steady state of continuation in the form of periods of stagnation. Antipsychotics are now the basis of treatment for schizophrenia and there is no other molecule that is antipsychotic priority in treatment. Antipsychotics can be classified into two groups; dopamine receptor antagonists such as promazine, fluphenazine etc. and serotonin-dopamine antagonists including risperidone, olanzapine, ziprasidone, aripiprazole etc.Materials and Methods:Electrochemical methods have been used for the determination of antipsychotic agent just as used in the determination of many drug agents. Nearly all of the antipsychotics are electroactive and can be analyzed by electrochemical methods. Electroanalytical methods offer generally high sensitivity, are compatible with modern techniques, have low cost, low requirements, and compact design. Among the most commonly used types, there are cyclic voltammetry, differential pulse voltammetry, square wave voltammetry and linear sweep voltammetry.Conclusion:The aim of this review is to evaluate the main line and the advantages and uses of electroanalytical methods that employed for the determination of antipsychotic medication agents used in schizophrenia. Moreover, applications of the methods to pharmaceutical analysis of Antipsychotics upto- date is also summarized in a table.
An electrochemical dsDNA nanobiosensor was fabricated using amino‐functionalized multi walled car... more An electrochemical dsDNA nanobiosensor was fabricated using amino‐functionalized multi walled carbon nanotubes modified glassy carbon electrode (NH2fMWCNTs/GCE) for the sensitive detection of DNA bases and electrochemical monitoring of drug‐DNA interaction. The influence of functional groups on MWCNT was studied by MWCNT functionalized with NH2 (NH2fMWCNTs) and COOH (COOHfMWCNT) groups based on the signal of DNA bases. The modified electrodes were characterized by scanning electron microscopy. One layer of calf thymus double stranded deoxyribonucleic acid (ct‐dsDNA) was immobilized onto the NH2fMWCNTs/GCE (dsDNA/NH2fMWCNTs/GCE). The dsDNA/NH2fMWCNTs/GCE were used to investigate the interaction between the dsDNA and the anticancer drug gemcitabine by differential pulse voltammetry in acetate buffer of pH 4.70. For the confirmation of interaction, the lowering in intensity of the current signals of guanine and adenine was considered as an indicator. Electrochemical impedance spectroscopy studies were performed for the comparison of the modified surfaces. In order to define and visualize the interaction mechanism between gemcitabine and dsDNA/NH2fMWCNTs/GCE at the molecular level, in silico methods including docking and molecular dynamics simulations were employed.
Critical Reviews in Analytical Chemistry, Oct 3, 2021
Chirality is an academically exciting and interesting topic, as most active ingredients have chir... more Chirality is an academically exciting and interesting topic, as most active ingredients have chirality. Chiral enantiomers with the same molecular shape show different effects from each other in terms of pharmacological, pharmacokinetic, and toxicology. There are many examples of these differences that have caused dramatic, even fatal damage. For these reasons, it is of great importance to developing an effective method to achieve chiral identification and separation, and chiral separation methods are becoming increasingly important in both the pharmaceutical industry and clinical studies. Electrochemical techniques, which can provide many advantages over other classical methods, have attracted great interest in chiral recognition in recent years. In this review, extensive and critical research of the trends in chiral recognition in recent studies is explained. Especially the role of cyclodextrins derivatives in chiral analysis has been investigated and the studies related to this are explained and given in the tables. In addition, some remarks and future perspectives in the field of chiral recognition are also discussed in the concluding part.
: Antibiotics are an important class among drugs because they are a significant agent to deal wit... more : Antibiotics are an important class among drugs because they are a significant agent to deal with infections. Cephalosporins are a very important group of antibiotics in the β-lactam class. The cephalosporins are semisynthetic antibiotics derived from products of the fungus Cephalosporium. Cephalosporins are classified as first, second, third, fourth, and advanced generation, based largely on their antibacterial spectrum and stability to β-lactamases. Electrochemical methods have been used for the determination of cephalosporin just as used in the determination of many antibiotic drugs. Electroanalytical methods present generally high sensitivity, low cost, low requirements, ease of preparation of the samples in a very short time, and a short analysis time. The most commonly used types are cyclic voltammetry, differential pulse voltammetry, square wave voltammetry and linear sweep voltammetry. The aim of this review is to evaluate the advantages and uses of electroanalytical methods used in the determination of cephalosporins. In addition, current applications of the methods to the pharmaceutical analysis of cephalosporins will also be summarized in a table.
Cancer is one of the leading causes of death worldwide. It is very important to regulate drug dos... more Cancer is one of the leading causes of death worldwide. It is very important to regulate drug doses for cancer patients in the treatment of cancer with drugs. Determination of drugs used as anticancer at low concentrations and determination of them with high sensitivity is of great importance for the follow-up of these drugs. Electrochemical techniques offer a wide variety of detection techniques that provide user-friendly, low-cost, and real-time monitoring compared to other conventional methods and provide low sensitivity and detection limits. By modifying the electrode surfaces with various materials, their sensitivity and detection limits can be increased. This review focuses on new electrocatalytic approaches and current developments for the electrochemical determination of anticancer drugs. In addition, anticancer drugs are classified in detail. Electrochemical sensors used in studies in recent years and verification parameters such as detection limit, linear dynamic range, sensitivity are given in tables.
Migraine is a chronic, painful, neurological disorder that affects approximately 15% of the popul... more Migraine is a chronic, painful, neurological disorder that affects approximately 15% of the population worldwide. It is a form of neurovascular headache: a disorder in which neural events result in the dilation of blood vessels that, in turn, results in pain and further nerve activation. The pathogenesis of migraine is not completely understood, but it is thought that both central and peripheral stimulations can play a role in migraine. Experimental pharmacological evidence suggests that some drugs can have actions in migraine treatment and oral drug delivery is the first choice for these drugs. However, the oral absorption of many drugs is delayed during migraine attacks. Therefore, there may be an advantage to other drug delivery routes, such as parenteral and intranasal. Moreover, nanoparticles can be used for improved drug delivery of anti-migraine agents as they can protect the encapsulated drug from biological and/or chemical degradation, and extracellular transport by P-gp efflux proteins. Various analytical studies have been performed to sensitive and selective assays of antimigraine drugs from commercial and real samples. Anti-migraines, either single or combined with other drugs, can be easily detected by several analytical methods, such as ultraviolet spectrometry, visible spectrometry, high-performance liquid chromatography, liquid chromatography-mass spectrometry, and high-performance thin layer chromatography. This review focuses on the status of antimigraine drug delivery technologies and possible routes for drug delivery. Moreover, it will present their analytical assays with different methods.
Journal of Food Measurement and Characterization, Jun 26, 2021
Many enzymatic electrochemical biosensors have been developed as user-friendly and time-saving an... more Many enzymatic electrochemical biosensors have been developed as user-friendly and time-saving analytical methods to detect many analytes for food and environmental analysis in recent years. In recent years, many biosensing methods have been developed for the detection of pesticides using integrated enzymatic biosensors. Based on enzymatic biosensors, various electrochemical signal converters, different enzyme immobilization methods, and various measurement methodologies have improved. Enzymatic detection of pesticides is mostly based on the inhibition of selected enzymes such as organophosphate hydrolase, cholinesterases, ascorbate oxidase, alkaline and acid phosphatase, aldehyde dehydrogenase, and acetolactate synthase. This review, focused on enzymatic electrochemical biosensors, aims to focus on the latest advances in the development of innovative electrochemical mediators and new enzymatic immobilization strategies to realize highly sensitive, selective, and stable biosensors for food and environmental applications. In this review, the latest studies on enzyme-based biosensors for pesticide detection in food samples between 2016 and 2021 were summarized.
Electrochemical methods have been used for the determination of nonsteroidal antiinflammatory dru... more Electrochemical methods have been used for the determination of nonsteroidal antiinflammatory drugs (NSAID) just as used in the determination of various drugs. Among voltammetric methods; differential pulse voltammetric method, square wave voltammetric method and linear sweep voltammetric method are the most commonly used ones. NSAIDs are widely used in the treatment of inflammatory conditions such as musculoskeletal disorders (rheumatoid arthritis, osteoarthritis, acute gouty arthritis) and dental pain, menstrual pain, postoperative pain and migraine. In this review, some selected recent electrochemical studies were selected related to the nonsteroidal antiinflammatory drug analyzes. The aim of this review is to evaluate and discuss the advantages, details and usages of electroanalytical methods in the determination of nonsteroidal anti-inflammatory drug.
Pharmaceutical and food pollutants have threatened global health. Pharmacotherapy has left a posi... more Pharmaceutical and food pollutants have threatened global health. Pharmacotherapy has left a positive impression in the field of health and life of people and animals. However, the many unresolved problems brought along with residues of pharmaceuticals in the environmental and food. Consumption of the world's freshwater resources, toxic chemicals, air pollution, plastic waste directly affects water and soil resources. Pesticides have a wide role in pollutants. Therefore, the determination of pesticides is significant to eliminate their negative effects on living things. Nowadays, there are many analytical methods available. However, new analysis methods are still being researched due to certain limitations of traditional methods. Electrochemical sensors have drawn attention because of their superior properties, such as short analysis time, affordability, high sensitivity, and selectivity. The development of new analytical strategies for assessing risks from pharmaceutical to food pollutants in water and soil sources is important for the measurement of different pollutants. Moreover, the 2D-carbon nanomaterials used in the development of electrochemical sensors are widely utilized to enlarge the surface area, increase porosity, and make easy immobilization. Graphene (graphene derivations) and carbon nanotubes integrated nanosensors are widely used for the determination of pesticides. 2D-carbon nanomaterials can be tailored according to the purpose of the study. The characterization and synthesis methods of 2D-carbon nanomaterials are widely explained. Furthermore, enzyme nanobiosensors, especially Acetylcholinesterase (AChE), are widely used to determine pesticides. The three main topics are focused on in this review: 2D-carbon nanomaterials, pesticides that threaten life, and the application of 2D-carbon nanomaterials-based electrochemical sensors. The various developed 2D-carbon nanomaterials-based electrochemical sensors were applied in pharmaceutical forms, fruits, tap/lake water, beverages, and soils sources. This work aims to indicate the recently published paper related to pesticide analysis and highlight the importance of 2D-nanomaterials on sensors.
Quantum dots (QDs) are one of the first nanotechnological materials to be integrated with sensor ... more Quantum dots (QDs) are one of the first nanotechnological materials to be integrated with sensor technologies and have been widely anticipated to eventually find application chances in several commercial pharmaceutical and clinical products. They are one of the most important developments in the rapidly growing world of material science technology. The excellent properties of QDs may allow the design of simple, precise, and inexpensive electrochemical methods for the detection of pharmaceuticals. Electrochemical techniques offer accuracy, high sensitivity, low cost, simplicity, ease of preparation of the samples in a very short time, and speed of analysis. The most commonly used voltammetric techniques are differential pulse voltammetry, cyclic voltammetry, square wave voltammetry, and stripping voltammetry. The purpose of this review is to show and communicate the advantages and uses of QD applications used in drug analysis. Besides, the present application methods of QDs to the pharmaceutical analysis and their related parameters were summarized between 2012 and 2021 years and summarized as a table.
Introduction:Schizophrenia is seizures accompanied by severe psychotic symptoms, and a steady sta... more Introduction:Schizophrenia is seizures accompanied by severe psychotic symptoms, and a steady state of continuation in the form of periods of stagnation. Antipsychotics are now the basis of treatment for schizophrenia and there is no other molecule that is antipsychotic priority in treatment. Antipsychotics can be classified into two groups; dopamine receptor antagonists such as promazine, fluphenazine etc. and serotonin-dopamine antagonists including risperidone, olanzapine, ziprasidone, aripiprazole etc.Materials and Methods:Electrochemical methods have been used for the determination of antipsychotic agent just as used in the determination of many drug agents. Nearly all of the antipsychotics are electroactive and can be analyzed by electrochemical methods. Electroanalytical methods offer generally high sensitivity, are compatible with modern techniques, have low cost, low requirements, and compact design. Among the most commonly used types, there are cyclic voltammetry, differential pulse voltammetry, square wave voltammetry and linear sweep voltammetry.Conclusion:The aim of this review is to evaluate the main line and the advantages and uses of electroanalytical methods that employed for the determination of antipsychotic medication agents used in schizophrenia. Moreover, applications of the methods to pharmaceutical analysis of Antipsychotics upto- date is also summarized in a table.
An electrochemical dsDNA nanobiosensor was fabricated using amino‐functionalized multi walled car... more An electrochemical dsDNA nanobiosensor was fabricated using amino‐functionalized multi walled carbon nanotubes modified glassy carbon electrode (NH2fMWCNTs/GCE) for the sensitive detection of DNA bases and electrochemical monitoring of drug‐DNA interaction. The influence of functional groups on MWCNT was studied by MWCNT functionalized with NH2 (NH2fMWCNTs) and COOH (COOHfMWCNT) groups based on the signal of DNA bases. The modified electrodes were characterized by scanning electron microscopy. One layer of calf thymus double stranded deoxyribonucleic acid (ct‐dsDNA) was immobilized onto the NH2fMWCNTs/GCE (dsDNA/NH2fMWCNTs/GCE). The dsDNA/NH2fMWCNTs/GCE were used to investigate the interaction between the dsDNA and the anticancer drug gemcitabine by differential pulse voltammetry in acetate buffer of pH 4.70. For the confirmation of interaction, the lowering in intensity of the current signals of guanine and adenine was considered as an indicator. Electrochemical impedance spectroscopy studies were performed for the comparison of the modified surfaces. In order to define and visualize the interaction mechanism between gemcitabine and dsDNA/NH2fMWCNTs/GCE at the molecular level, in silico methods including docking and molecular dynamics simulations were employed.
Critical Reviews in Analytical Chemistry, Oct 3, 2021
Chirality is an academically exciting and interesting topic, as most active ingredients have chir... more Chirality is an academically exciting and interesting topic, as most active ingredients have chirality. Chiral enantiomers with the same molecular shape show different effects from each other in terms of pharmacological, pharmacokinetic, and toxicology. There are many examples of these differences that have caused dramatic, even fatal damage. For these reasons, it is of great importance to developing an effective method to achieve chiral identification and separation, and chiral separation methods are becoming increasingly important in both the pharmaceutical industry and clinical studies. Electrochemical techniques, which can provide many advantages over other classical methods, have attracted great interest in chiral recognition in recent years. In this review, extensive and critical research of the trends in chiral recognition in recent studies is explained. Especially the role of cyclodextrins derivatives in chiral analysis has been investigated and the studies related to this are explained and given in the tables. In addition, some remarks and future perspectives in the field of chiral recognition are also discussed in the concluding part.
: Antibiotics are an important class among drugs because they are a significant agent to deal wit... more : Antibiotics are an important class among drugs because they are a significant agent to deal with infections. Cephalosporins are a very important group of antibiotics in the β-lactam class. The cephalosporins are semisynthetic antibiotics derived from products of the fungus Cephalosporium. Cephalosporins are classified as first, second, third, fourth, and advanced generation, based largely on their antibacterial spectrum and stability to β-lactamases. Electrochemical methods have been used for the determination of cephalosporin just as used in the determination of many antibiotic drugs. Electroanalytical methods present generally high sensitivity, low cost, low requirements, ease of preparation of the samples in a very short time, and a short analysis time. The most commonly used types are cyclic voltammetry, differential pulse voltammetry, square wave voltammetry and linear sweep voltammetry. The aim of this review is to evaluate the advantages and uses of electroanalytical methods used in the determination of cephalosporins. In addition, current applications of the methods to the pharmaceutical analysis of cephalosporins will also be summarized in a table.
Cancer is one of the leading causes of death worldwide. It is very important to regulate drug dos... more Cancer is one of the leading causes of death worldwide. It is very important to regulate drug doses for cancer patients in the treatment of cancer with drugs. Determination of drugs used as anticancer at low concentrations and determination of them with high sensitivity is of great importance for the follow-up of these drugs. Electrochemical techniques offer a wide variety of detection techniques that provide user-friendly, low-cost, and real-time monitoring compared to other conventional methods and provide low sensitivity and detection limits. By modifying the electrode surfaces with various materials, their sensitivity and detection limits can be increased. This review focuses on new electrocatalytic approaches and current developments for the electrochemical determination of anticancer drugs. In addition, anticancer drugs are classified in detail. Electrochemical sensors used in studies in recent years and verification parameters such as detection limit, linear dynamic range, sensitivity are given in tables.
Migraine is a chronic, painful, neurological disorder that affects approximately 15% of the popul... more Migraine is a chronic, painful, neurological disorder that affects approximately 15% of the population worldwide. It is a form of neurovascular headache: a disorder in which neural events result in the dilation of blood vessels that, in turn, results in pain and further nerve activation. The pathogenesis of migraine is not completely understood, but it is thought that both central and peripheral stimulations can play a role in migraine. Experimental pharmacological evidence suggests that some drugs can have actions in migraine treatment and oral drug delivery is the first choice for these drugs. However, the oral absorption of many drugs is delayed during migraine attacks. Therefore, there may be an advantage to other drug delivery routes, such as parenteral and intranasal. Moreover, nanoparticles can be used for improved drug delivery of anti-migraine agents as they can protect the encapsulated drug from biological and/or chemical degradation, and extracellular transport by P-gp efflux proteins. Various analytical studies have been performed to sensitive and selective assays of antimigraine drugs from commercial and real samples. Anti-migraines, either single or combined with other drugs, can be easily detected by several analytical methods, such as ultraviolet spectrometry, visible spectrometry, high-performance liquid chromatography, liquid chromatography-mass spectrometry, and high-performance thin layer chromatography. This review focuses on the status of antimigraine drug delivery technologies and possible routes for drug delivery. Moreover, it will present their analytical assays with different methods.
Journal of Food Measurement and Characterization, Jun 26, 2021
Many enzymatic electrochemical biosensors have been developed as user-friendly and time-saving an... more Many enzymatic electrochemical biosensors have been developed as user-friendly and time-saving analytical methods to detect many analytes for food and environmental analysis in recent years. In recent years, many biosensing methods have been developed for the detection of pesticides using integrated enzymatic biosensors. Based on enzymatic biosensors, various electrochemical signal converters, different enzyme immobilization methods, and various measurement methodologies have improved. Enzymatic detection of pesticides is mostly based on the inhibition of selected enzymes such as organophosphate hydrolase, cholinesterases, ascorbate oxidase, alkaline and acid phosphatase, aldehyde dehydrogenase, and acetolactate synthase. This review, focused on enzymatic electrochemical biosensors, aims to focus on the latest advances in the development of innovative electrochemical mediators and new enzymatic immobilization strategies to realize highly sensitive, selective, and stable biosensors for food and environmental applications. In this review, the latest studies on enzyme-based biosensors for pesticide detection in food samples between 2016 and 2021 were summarized.
Electrochemical methods have been used for the determination of nonsteroidal antiinflammatory dru... more Electrochemical methods have been used for the determination of nonsteroidal antiinflammatory drugs (NSAID) just as used in the determination of various drugs. Among voltammetric methods; differential pulse voltammetric method, square wave voltammetric method and linear sweep voltammetric method are the most commonly used ones. NSAIDs are widely used in the treatment of inflammatory conditions such as musculoskeletal disorders (rheumatoid arthritis, osteoarthritis, acute gouty arthritis) and dental pain, menstrual pain, postoperative pain and migraine. In this review, some selected recent electrochemical studies were selected related to the nonsteroidal antiinflammatory drug analyzes. The aim of this review is to evaluate and discuss the advantages, details and usages of electroanalytical methods in the determination of nonsteroidal anti-inflammatory drug.
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