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Voltammetric Detection of Levodopa and Benserazide at Polypyrrole and Single Walled Carbon Nanotube Based Electrode

Yıl 2021, , 207 - 218, 30.06.2021
https://doi.org/10.29132/ijpas.855881

Öz

In this study, it was aimed to use pyrrole monomer and single-walled carbon nanotube (SWCNT) in the production of modified electrodes, and to examine the electrochemical properties of these electrodes. Bulk electrolysis technique was used for growing polypyrrole. The applicability of the polypyrrole and SWCNT-based electrodes was tested by electrochemically detecting active substances such as levodopa (LD) and benserazide (BS) used in the treatment of Parkinson's disease. During the design and analysis phase of the modified electrode, many electroanalytical optimization and validation parameters were examined. The developed modified electrode gave linear responses with DPV technique in concentration ranges of 10 - 50 μM for LD and 10 - 50 μM for BS. In addition, limits of detection in these wide linear ranges were obtained as very low. Limits of detection were calculated as 2.4 μM and 1.2 μM for LD and BS, respectively. In addition, the applicability of the designed electrode and method was tested in urine and drug samples. The selectivity of this electrode was carried out in placebo solutions containing the interfering species. It is advantageous that the drug active ingredients are easily, selectively and quickly determined at this modified electrode in the presence of components that affect the analysis. Eventually, very satisfactory results in terms of analytical performance and applicability have been achieved with the designed electrode.

Destekleyen Kurum

İnönü Üniversitesi Bilimsel Araştırma Projeleri Birimi

Proje Numarası

2013-54

Teşekkür

This study was derived from the doctoral thesis with the project number 2013-54 supported by Inonu University Scientific Research Projects Unit.

Kaynakça

  • Adamiak-Giera, U., Gawronska-Szklarz, B., 2018. Simultaneous Determination of Levodopa and 3-O-Methyldopa in Patients with Parkinson’s Disease by High-Performance Liquid Chromatography with Electrochemical Detection. Journal of Liquid Chromatography and Related Technologies, 41(19–20):1047–51.
  • Adamiak-Giera, U., Gawronska-Szklarz, B., 2018. Simultaneous Determination of Levodopa and 3-O-Methyldopa in Patients with Parkinson’s Disease by High-Performance Liquid Chromatography with Electrochemical Detection. Journal of Liquid Chromatography and Related Technologies, 41(19–20):1047–51.
  • Aviles-Olmos, I., Martinez-Fernandez, R., Foltynie, T., 2010. L-dopa-Induced Dyskinesias in Parkinson’s Disease. European Neurological Journal, 2:2.
  • Chen, C., Hutchison, J.E., Postlethwaite, T.A., Richardson, J.N., Murray, R.W., 1994. Chemically Modified Electrodes by Nucleophilic Substitution of Chlorosilylated Platinum Oxide Surfaces. Langmuir, 10(9):3332–37.
  • Fabbrini, G., Brotchie, J.M., Grandas, F., Nomoto, M., Goetz, C.G., 2007. Levodopa-Induced Dyskinesias. Movement Disorders, 22(10):1379–89.
  • He, W.W., Zhou, X.W., Lu, J.Q., 2006. Simultaneous Determination of Benserazide and Levodopa by Capillary Electrophoresis-Chemiluminescence Using an Improved Interface. Journal of Chromatography A, 1131(1–2):289–92.
  • Jalalvand, A.R., 2020. Four-Dimensional Voltammetry: An Efficient Strategy for Simultaneous Determination of Ascorbic Acid and Uric Acid in the Presence of Dopamine as Uncalibrated Interference. Sensing and Bio-Sensing Research, 28:100330.
  • Kobayashi, K., 2001. Role of Catecholamine Signaling in Brain and Nervous System Functions: New Insights from Mouse Molecular Genetic Study. Journal of Investigative Dermatology Symposium Proceedings, 6(1):115–21.
  • Kuyumcu Savan, E. 2019a. Electrochemical Determination of N-Acetyl Cysteine in the Presence of Acetaminophen at Multi-Walled Carbon Nanotubes and Nafion Modified Sensor. Sensors and Actuators, B: Chemical, 282:500–506.
  • Kuyumcu Savan, E., 2019b. Square Wave Voltammetric (SWV) Determination of Quercetin in Tea Samples at a Single-Walled Carbon Nanotube (SWCNT) Modified Glassy Carbon Electrode (GCE). Analytical Letters, 0(0):1–15.
  • Kuyumcu Savan, E., Erdoğdu, G., 2020. Pirol ve Çok Duvarlı Karbon Nanotüp Modi̇fi̇ye Sensör ile Levodopa ve Benserazi̇di̇n Elektroki̇myasal Olarak Eşzamanlı Tayi̇ni̇. İnönü Üniversitesi Sağlık Hizmetleri Meslek Yüksek Okulu Dergisi, 8(2):336–55.
  • Lechin, F., Van Der Dijs, B., Lechin, A.E., 2005. Circulating Serotonin, Catecholamines, and Central Nervous System Circuitry Related to Some Cardiorespiratory, Vascular, and Hematological Disorders. Journal of Applied Research, 5(4):605–21.
  • Lou, B.S., Rajaji, U., Chen, S.M., Chen, T.W., 2020. A Simple Sonochemical Assisted Synthesis of NiMoO4/Chitosan Nanocomposite for Electrochemical Sensing of Amlodipine in Pharmaceutical and Serum Samples. Ultrasonics Sonochemistry, 64:104827.
  • Loutelier-Bourhis, C., Legros, H., Bonnet, J.J., Costentin, J., Lange, C.M., 2004. Gas Chromatography/Mass Spectrometric Identification of Dopaminergic Metabolites in Striata of Rats Treated with L-DOPA. Rapid Communications in Mass Spectrometry, 18(5):571–76.
  • Martins, H.F., Pinto, D.P., De A. Nascimento, V., Marques, M.A.S., Amendoeira, F., 2013. Determination of Levodopa in Human Plasma by High Performance Liquid Chromatography-Tandem Mass Spectrometry (HPLC-MS/MS): Application to a Bioequivalence Study. Quimica Nova, 36(1):171–76.
  • Mazloum-Ardakani, M., Abolhasani-Soorki, M., Khoshroo, A., Sabaghian, F., Mirjalili, B.F., 2018. “Simultaneous Determination of Ascorbic Acid, Uric Acid and Tryptophan by Novel Carbon Nanotube Paste Electrode.” Iranian Journal of Pharmaceutical Research 17(3):851–63.
  • Oyama, N., Anson, F.C., 1980. Catalysis of Electrode Processes by Multiply-Charged Metal Complexes Electrostatically Bound to Polyelectrolyte Coatings on Graphite Electrodes, and the Use of Polymer-Coated Rotating Disk Electrodes in Diagnosing Kinetic and Conduction Mechanisms. Analytical Chemistry, 52(8):1192–98.
  • Özdokur, K.V., 2020. Voltammetric Determination of Isoniazid Drug in Various Matrix by Using CuOx Decorated MW-CNT Modified Glassy Carbon Electrode. Electroanalysis, 32(3):489–95.
  • Palisoc, S., De Leon, P.G., Alzona, A., Racines, L., Natividad, M., 2019. Highly Sensitive Determination of Tetracycline in Chicken Meat and Eggs Using AuNP/ MWCNT-Modified Glassy Carbon Electrodes. Heliyon, 5(7):e02147.
  • Palomar, Q., Xu, X.X., Gondran, C., Holzinger, M., Cosnier, S., Zhang, Z., 2020. Voltammetric Sensing of Recombinant Viral Dengue Virus 2 NS1 Based on Au Nanoparticle–Decorated Multiwalled Carbon Nanotube Composites. Microchimica Acta, 187(6):1–10.
  • Saleh, G.A., Askal, H.F., Refaat, I.H., Naggar, A.H., Abdel-aal, F.A.M., 2016. Adsorptive Square Wave Voltammetric Determination of the Antiviral Drug Valacyclovir on a Novel Sensor of Copper Microparticles-Modified Pencil Graphite Electrode. Arabian Journal of Chemistry, 9(1):143–51.
  • Sarabi, A., Hoffer, B.J., Olson, L., Morales, M., 2001. Catecholamine-Containing Cells in the Central Nervous System and Periphery of Aplysia Californica. Journal of Comparative Neurology, 441(2):91–105.
  • Kuyumcu Savan, E., Erdoğdu, G., 2017. Simultaneous Determination of Levodopa and Benserazide Using Poly(3-Methylthiophene) and a Multi-Walled Carbon Nanotube Sensor. Journal of Solid State Electrochemistry, 21(8):2209–17.
  • Kuyumcu Savan, E., Erdoğdu, G., 2019. Poly(3-Methylthiophene) Modified Gold Sensor for Determination of 3,4-Dihydroxyphenylacetic Acid, Ascorbic Acid and Uric Acid in Biological Fluids Using Voltammetric Techniques. Marmara Pharmaceutical Journal, 23(1):25–33.
  • Shahrokhian, S., Asadian, E., 2009. Electrochemical Determination of L-Dopa in the Presence of Ascorbic Acid on the Surface of the Glassy Carbon Electrode Modified by a Bilayer of Multi-Walled Carbon Nanotube and Poly-Pyrrole Doped with Tiron. Journal of Electroanalytical Chemistry, 636(1–2):40–46.
  • Tanrıkut, E., Özcan, İ., Sel, E., Köytepe, S., Kuyumcu Savan, E., 2020. Simultaneous Electrochemical Detection of Estradiol and Testosterone Using Nickel Ferrite Oxide Doped Mesoporous Carbon Nanocomposite Modified Sensor. Journal of The Electrochemical Society, 167(8):087509.
  • Uslu, B., Özkan. S.A., 2002. Determination of Binary Mixtures of Levodopa and Benserazide in Pharmaceuticals by Ratio-Spectra Derivative Spectrophotometry. Analytical Letters, 35(2):303–14.
  • Viskin, S., Belhassen, B., 1998. Polymorphic Ventricular Tachyarrhythmias in the Absence of Organic Heart Disease: Classification, Differential Diagnosis, and Implications for Therapy. Progress in Cardiovascular Diseases, 41(1):17–34.
  • Wang, L., Huang, P., Bai, J., Wang, H., Wu, X., Zhao, Y., 2006. Voltammetric Sensing of Uric Acid and Ascorbic Acid with Poly (p-Toluene Sulfonic Acid) Modified Electrode. International Journal of Electrochemical Science, 1(6):334–42.
  • Wolf, J.P., Bouhaddi, M., Louisy, F., Mikehiev, A., Mourot, L., Cappelle, S., Vuillier, F., Andre, P., Rumbach, L., Regnard, J., 2006. Side-Effects of L-Dopa on Venous Tone in Parkinson’s Disease: A Leg-Weighing Assessment. Clinical Science, 110(3):369–77.
  • Zhang, K., Zhang, N., Zhang, L., Wang, H., Shi, H., Liu, Q., 2018. Simultaneous Voltammetric Detection of Dopamine, Ascorbic Acid and Uric Acid Using a Poly(2-(N-Morpholine)Ethane Sulfonic Acid)/RGO Modified Electrode. RSC Advances, 8(10):5280–85.
Yıl 2021, , 207 - 218, 30.06.2021
https://doi.org/10.29132/ijpas.855881

Öz

Proje Numarası

2013-54

Kaynakça

  • Adamiak-Giera, U., Gawronska-Szklarz, B., 2018. Simultaneous Determination of Levodopa and 3-O-Methyldopa in Patients with Parkinson’s Disease by High-Performance Liquid Chromatography with Electrochemical Detection. Journal of Liquid Chromatography and Related Technologies, 41(19–20):1047–51.
  • Adamiak-Giera, U., Gawronska-Szklarz, B., 2018. Simultaneous Determination of Levodopa and 3-O-Methyldopa in Patients with Parkinson’s Disease by High-Performance Liquid Chromatography with Electrochemical Detection. Journal of Liquid Chromatography and Related Technologies, 41(19–20):1047–51.
  • Aviles-Olmos, I., Martinez-Fernandez, R., Foltynie, T., 2010. L-dopa-Induced Dyskinesias in Parkinson’s Disease. European Neurological Journal, 2:2.
  • Chen, C., Hutchison, J.E., Postlethwaite, T.A., Richardson, J.N., Murray, R.W., 1994. Chemically Modified Electrodes by Nucleophilic Substitution of Chlorosilylated Platinum Oxide Surfaces. Langmuir, 10(9):3332–37.
  • Fabbrini, G., Brotchie, J.M., Grandas, F., Nomoto, M., Goetz, C.G., 2007. Levodopa-Induced Dyskinesias. Movement Disorders, 22(10):1379–89.
  • He, W.W., Zhou, X.W., Lu, J.Q., 2006. Simultaneous Determination of Benserazide and Levodopa by Capillary Electrophoresis-Chemiluminescence Using an Improved Interface. Journal of Chromatography A, 1131(1–2):289–92.
  • Jalalvand, A.R., 2020. Four-Dimensional Voltammetry: An Efficient Strategy for Simultaneous Determination of Ascorbic Acid and Uric Acid in the Presence of Dopamine as Uncalibrated Interference. Sensing and Bio-Sensing Research, 28:100330.
  • Kobayashi, K., 2001. Role of Catecholamine Signaling in Brain and Nervous System Functions: New Insights from Mouse Molecular Genetic Study. Journal of Investigative Dermatology Symposium Proceedings, 6(1):115–21.
  • Kuyumcu Savan, E. 2019a. Electrochemical Determination of N-Acetyl Cysteine in the Presence of Acetaminophen at Multi-Walled Carbon Nanotubes and Nafion Modified Sensor. Sensors and Actuators, B: Chemical, 282:500–506.
  • Kuyumcu Savan, E., 2019b. Square Wave Voltammetric (SWV) Determination of Quercetin in Tea Samples at a Single-Walled Carbon Nanotube (SWCNT) Modified Glassy Carbon Electrode (GCE). Analytical Letters, 0(0):1–15.
  • Kuyumcu Savan, E., Erdoğdu, G., 2020. Pirol ve Çok Duvarlı Karbon Nanotüp Modi̇fi̇ye Sensör ile Levodopa ve Benserazi̇di̇n Elektroki̇myasal Olarak Eşzamanlı Tayi̇ni̇. İnönü Üniversitesi Sağlık Hizmetleri Meslek Yüksek Okulu Dergisi, 8(2):336–55.
  • Lechin, F., Van Der Dijs, B., Lechin, A.E., 2005. Circulating Serotonin, Catecholamines, and Central Nervous System Circuitry Related to Some Cardiorespiratory, Vascular, and Hematological Disorders. Journal of Applied Research, 5(4):605–21.
  • Lou, B.S., Rajaji, U., Chen, S.M., Chen, T.W., 2020. A Simple Sonochemical Assisted Synthesis of NiMoO4/Chitosan Nanocomposite for Electrochemical Sensing of Amlodipine in Pharmaceutical and Serum Samples. Ultrasonics Sonochemistry, 64:104827.
  • Loutelier-Bourhis, C., Legros, H., Bonnet, J.J., Costentin, J., Lange, C.M., 2004. Gas Chromatography/Mass Spectrometric Identification of Dopaminergic Metabolites in Striata of Rats Treated with L-DOPA. Rapid Communications in Mass Spectrometry, 18(5):571–76.
  • Martins, H.F., Pinto, D.P., De A. Nascimento, V., Marques, M.A.S., Amendoeira, F., 2013. Determination of Levodopa in Human Plasma by High Performance Liquid Chromatography-Tandem Mass Spectrometry (HPLC-MS/MS): Application to a Bioequivalence Study. Quimica Nova, 36(1):171–76.
  • Mazloum-Ardakani, M., Abolhasani-Soorki, M., Khoshroo, A., Sabaghian, F., Mirjalili, B.F., 2018. “Simultaneous Determination of Ascorbic Acid, Uric Acid and Tryptophan by Novel Carbon Nanotube Paste Electrode.” Iranian Journal of Pharmaceutical Research 17(3):851–63.
  • Oyama, N., Anson, F.C., 1980. Catalysis of Electrode Processes by Multiply-Charged Metal Complexes Electrostatically Bound to Polyelectrolyte Coatings on Graphite Electrodes, and the Use of Polymer-Coated Rotating Disk Electrodes in Diagnosing Kinetic and Conduction Mechanisms. Analytical Chemistry, 52(8):1192–98.
  • Özdokur, K.V., 2020. Voltammetric Determination of Isoniazid Drug in Various Matrix by Using CuOx Decorated MW-CNT Modified Glassy Carbon Electrode. Electroanalysis, 32(3):489–95.
  • Palisoc, S., De Leon, P.G., Alzona, A., Racines, L., Natividad, M., 2019. Highly Sensitive Determination of Tetracycline in Chicken Meat and Eggs Using AuNP/ MWCNT-Modified Glassy Carbon Electrodes. Heliyon, 5(7):e02147.
  • Palomar, Q., Xu, X.X., Gondran, C., Holzinger, M., Cosnier, S., Zhang, Z., 2020. Voltammetric Sensing of Recombinant Viral Dengue Virus 2 NS1 Based on Au Nanoparticle–Decorated Multiwalled Carbon Nanotube Composites. Microchimica Acta, 187(6):1–10.
  • Saleh, G.A., Askal, H.F., Refaat, I.H., Naggar, A.H., Abdel-aal, F.A.M., 2016. Adsorptive Square Wave Voltammetric Determination of the Antiviral Drug Valacyclovir on a Novel Sensor of Copper Microparticles-Modified Pencil Graphite Electrode. Arabian Journal of Chemistry, 9(1):143–51.
  • Sarabi, A., Hoffer, B.J., Olson, L., Morales, M., 2001. Catecholamine-Containing Cells in the Central Nervous System and Periphery of Aplysia Californica. Journal of Comparative Neurology, 441(2):91–105.
  • Kuyumcu Savan, E., Erdoğdu, G., 2017. Simultaneous Determination of Levodopa and Benserazide Using Poly(3-Methylthiophene) and a Multi-Walled Carbon Nanotube Sensor. Journal of Solid State Electrochemistry, 21(8):2209–17.
  • Kuyumcu Savan, E., Erdoğdu, G., 2019. Poly(3-Methylthiophene) Modified Gold Sensor for Determination of 3,4-Dihydroxyphenylacetic Acid, Ascorbic Acid and Uric Acid in Biological Fluids Using Voltammetric Techniques. Marmara Pharmaceutical Journal, 23(1):25–33.
  • Shahrokhian, S., Asadian, E., 2009. Electrochemical Determination of L-Dopa in the Presence of Ascorbic Acid on the Surface of the Glassy Carbon Electrode Modified by a Bilayer of Multi-Walled Carbon Nanotube and Poly-Pyrrole Doped with Tiron. Journal of Electroanalytical Chemistry, 636(1–2):40–46.
  • Tanrıkut, E., Özcan, İ., Sel, E., Köytepe, S., Kuyumcu Savan, E., 2020. Simultaneous Electrochemical Detection of Estradiol and Testosterone Using Nickel Ferrite Oxide Doped Mesoporous Carbon Nanocomposite Modified Sensor. Journal of The Electrochemical Society, 167(8):087509.
  • Uslu, B., Özkan. S.A., 2002. Determination of Binary Mixtures of Levodopa and Benserazide in Pharmaceuticals by Ratio-Spectra Derivative Spectrophotometry. Analytical Letters, 35(2):303–14.
  • Viskin, S., Belhassen, B., 1998. Polymorphic Ventricular Tachyarrhythmias in the Absence of Organic Heart Disease: Classification, Differential Diagnosis, and Implications for Therapy. Progress in Cardiovascular Diseases, 41(1):17–34.
  • Wang, L., Huang, P., Bai, J., Wang, H., Wu, X., Zhao, Y., 2006. Voltammetric Sensing of Uric Acid and Ascorbic Acid with Poly (p-Toluene Sulfonic Acid) Modified Electrode. International Journal of Electrochemical Science, 1(6):334–42.
  • Wolf, J.P., Bouhaddi, M., Louisy, F., Mikehiev, A., Mourot, L., Cappelle, S., Vuillier, F., Andre, P., Rumbach, L., Regnard, J., 2006. Side-Effects of L-Dopa on Venous Tone in Parkinson’s Disease: A Leg-Weighing Assessment. Clinical Science, 110(3):369–77.
  • Zhang, K., Zhang, N., Zhang, L., Wang, H., Shi, H., Liu, Q., 2018. Simultaneous Voltammetric Detection of Dopamine, Ascorbic Acid and Uric Acid Using a Poly(2-(N-Morpholine)Ethane Sulfonic Acid)/RGO Modified Electrode. RSC Advances, 8(10):5280–85.
Toplam 31 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Ebru Kuyumcu Savan 0000-0002-8851-0907

Gamze Erdoğdu 0000-0002-8114-6946

Proje Numarası 2013-54
Yayımlanma Tarihi 30 Haziran 2021
Gönderilme Tarihi 7 Ocak 2021
Kabul Tarihi 7 Haziran 2021
Yayımlandığı Sayı Yıl 2021

Kaynak Göster

APA Kuyumcu Savan, E., & Erdoğdu, G. (2021). Voltammetric Detection of Levodopa and Benserazide at Polypyrrole and Single Walled Carbon Nanotube Based Electrode. International Journal of Pure and Applied Sciences, 7(1), 207-218. https://doi.org/10.29132/ijpas.855881
AMA Kuyumcu Savan E, Erdoğdu G. Voltammetric Detection of Levodopa and Benserazide at Polypyrrole and Single Walled Carbon Nanotube Based Electrode. International Journal of Pure and Applied Sciences. Haziran 2021;7(1):207-218. doi:10.29132/ijpas.855881
Chicago Kuyumcu Savan, Ebru, ve Gamze Erdoğdu. “Voltammetric Detection of Levodopa and Benserazide at Polypyrrole and Single Walled Carbon Nanotube Based Electrode”. International Journal of Pure and Applied Sciences 7, sy. 1 (Haziran 2021): 207-18. https://doi.org/10.29132/ijpas.855881.
EndNote Kuyumcu Savan E, Erdoğdu G (01 Haziran 2021) Voltammetric Detection of Levodopa and Benserazide at Polypyrrole and Single Walled Carbon Nanotube Based Electrode. International Journal of Pure and Applied Sciences 7 1 207–218.
IEEE E. Kuyumcu Savan ve G. Erdoğdu, “Voltammetric Detection of Levodopa and Benserazide at Polypyrrole and Single Walled Carbon Nanotube Based Electrode”, International Journal of Pure and Applied Sciences, c. 7, sy. 1, ss. 207–218, 2021, doi: 10.29132/ijpas.855881.
ISNAD Kuyumcu Savan, Ebru - Erdoğdu, Gamze. “Voltammetric Detection of Levodopa and Benserazide at Polypyrrole and Single Walled Carbon Nanotube Based Electrode”. International Journal of Pure and Applied Sciences 7/1 (Haziran 2021), 207-218. https://doi.org/10.29132/ijpas.855881.
JAMA Kuyumcu Savan E, Erdoğdu G. Voltammetric Detection of Levodopa and Benserazide at Polypyrrole and Single Walled Carbon Nanotube Based Electrode. International Journal of Pure and Applied Sciences. 2021;7:207–218.
MLA Kuyumcu Savan, Ebru ve Gamze Erdoğdu. “Voltammetric Detection of Levodopa and Benserazide at Polypyrrole and Single Walled Carbon Nanotube Based Electrode”. International Journal of Pure and Applied Sciences, c. 7, sy. 1, 2021, ss. 207-18, doi:10.29132/ijpas.855881.
Vancouver Kuyumcu Savan E, Erdoğdu G. Voltammetric Detection of Levodopa and Benserazide at Polypyrrole and Single Walled Carbon Nanotube Based Electrode. International Journal of Pure and Applied Sciences. 2021;7(1):207-18.

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