Effect of Inhaling of Perfume on the Blood of Human Healthy Male Using Electrochemical Method by Cyclic Voltammetry

Hind Jaber Hassoon

Department of Medical Laboratory Techniques, Health and Medical Techniques College-Baghdad, Middle Technical University (MTU), Iraq.

Muhammed Mizher Radhi *

Department of Radiological Techniques, Health and Medical Techniques College-Baghdad, Middle Technical University (MTU), Iraq.

Asmaa Abdulsattar Obaid

Department of Physiotherapy Techniques, College of Health and Medical Techniques-Baghdad, Middle Technical University (MTU), Baghdad, Iraq.

*Author to whom correspondence should be addressed.


All people in the world were used perfume in different manufactures and marker, in this study, we wanted to be found the effect of continues using of perfume and still inhaling these compound on the human healthy by electrochemical analysis using cyclic voltammetry. In the scientific knowledge, the inhaling of perfume by breathed and then reach to the blood stream through lungs and pulmonary alveoli passing to the blood vessels. The study focused on the   oxidation – reduction peaks current of the cyclic voltammogram which can be found from the perfume in healthy blood of male samples. It was found from the results that many oxidation peaks current appeared in the cyclic voltammogram in the blood medium with presence of the perfume, also, in different concentration, and different temperatures were studied, so all perfume compound were effected on the blood components of the male. The oxidative effect of the perfume on blood medium which may be caused the damage of blood components through the continuance of using it and appeared a risk cases of different diseases. the advices for correct using of the perfume in a little amount and in limited using every day, also avoid using the perfume to the patients with high fever.

Keywords: Cyclic voltammetry, perfume, blood of male, oxidation – reduction, temperature, concentration

How to Cite

Hassoon , Hind Jaber, Muhammed Mizher Radhi, and Asmaa Abdulsattar Obaid. 2023. “Effect of Inhaling of Perfume on the Blood of Human Healthy Male Using Electrochemical Method by Cyclic Voltammetry”. International Journal of TROPICAL DISEASE & Health 44 (21):16-24. https://doi.org/10.9734/ijtdh/2023/v44i211491.


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Muhammed R, Hanaa NA, Sura AA, Emad AA. Electrochemical oxidation effect of ascorbic acid on mercury ions in blood sample using cyclic voltammetry, Int J Ind Chem. 2015;6:311–316

Muhammed R, Hanaa NA, Majid SJ, Emad AA, Electrochemical effect of ascorbic acid on redox current peaks of cocl2 in blood medium, Nano Biomed. Eng. 2017;9(2):103-106.

Muhammed R, Emad AJ. Use of a grafted polymer electrode to study mercury ions by cyclic voltammetry, Research on Chemical Intermediates. 2015;41(3):1413-1420

Muhammed R, Firas KM, Noor JR. Voltammetric characterization of grafted polymer modified with zno nanoparticles on glassy carbon electrode, Russian Journal of Electrochemistry. 2018;54(1):27–32

Muhammed R, Tan WT, Rahman MZ, Kassim AB. Electrochemical characterization of the redox couple of [Fe (CN) 6] 3−/[Fe (CN) 6] 4− mediated by a grafted polymer modified glassy carbon electrode, Journal of chemical engineering of Japan. 2010;43(11):927-931

Hsiang W, Cameron B, Anthony JR, John AW, Paul AK, Anthony RJ. Cyclic voltammetry in biological samples: A Systematic Review of Methods and Techniques Applicable to Clinical Settings, Signals. 2021;2:138–158

Olaoluwa R, Abolanle SA, John AO, Oyekunle TS, Thabo TI, Bhekie BM. Development of electrochemical nanosensor for the detection of malaria parasite in clinical samples, Front. Chem. 2019;7:89

Zelalem B, Meareg A. Electrochemical determination of ascorbic acid in pharmaceutical tablets using carbon paste electrode, Organic and Medicinal Chemistry. 2019;8(5):2019

Guilherme N. Rodrigues WP, Silva DP, Rocha EM, Richter RA, Munoz AD. Batista, electrochemical determination of 2-naphthylamine in perfume samples using boron doped diamond electrode, Artigo Quím. Nova. 2020;43(3)

László K, Sándor KM. Voltammetric oxidation of acetophenone derivatives and benzophenone in acetonitrile on a platinum and glassy carbon electrode, Comptes Rendus Chimie. 2019;22(4):316-320.

Farhana H, Rahman MS, Etmina A. A cyclic voltammetric study of the redox reaction of Cu(II) in presence of Ascorbic acid in different pH media. Dhaka Univ J Sci. 2013;61(2):161-166.

Alaa L, Muhammed MR, Intesar NKh, Eman NN, Nano-ceftriaxone as Antibiofilm Agent, International Journal of Psychosocial Rehabilitation. 2022;24(02): 1475-7192.

Radhi M, Mulla EA, Voltammetric characterization of grafted polymer electrode self- modification with carbon nanotubes (GPESMCNT). Portugaliae Electrochimica Acta. 2016; 34(2):97-103.

Amidi S, Ardakani YH, Amiri AM. Sensitive electrochemical determination of rifampicin using gold nanoparticles/poly-melamine nanocomposite. RSC Adv.2017; 7:40111.

Sura A, Muhammed MR, Wisam HH, Thermodynamic properties of rifampicin redox current peaks in human blood samples using nano-sensor (Carbon Nanotubes / Glassy Carbon Electrode), J.Chem.Soc.Pak. 2021;43:01.

Tan W, Goh J. Electrochemical oxidation of methionine mediated by a fullerene-C60 modified gold electrode, Electroanalysis. 2008;20:2447.

Muhammed M, Anfal II, Majid SJ, Emad AJ, Wisam HH. Nano Cinnamon: A study in human blood medium using cyclic voltammetry on Glassy Carbon Electrode (GCE), Nano Biomed. Eng.2022;14(2): 167.