Abstract
Introduction
Aminoglycoside, as an antimicrobial medication, also has side-effects on the inner ears, bringing about hearing disorders. Curcumin has been proven to be a strong scavenger against various reactive oxygen species (ROS), and the increase in ROS production is considered to play an important role in the process of hearing disorder.
Objective
To prove that curcumin is an effective antioxidant to prevent cochlear damage based on malondialdehyde (MDA) expression.
Methods
The present research used 32 Rattus norvegicus, of the Wistar lineage, randomly divided into 8 groups: negative control, ototoxic control (a single dose of 40 mg/ml of gentamicin via intratympanic injection), 2 groups submitted to ototoxic control + curcumin treatment (100 mg/kg, 200 mg/kg), 2 groups who iunderwent ototoxic control + curcumin treatment for 7 days, and two groups submitted to curcumin treatment as prevention for 3 days + ototoxic induction.
Results
The results showed that the lowest dosage of curcumin (100 mg/kg) could decrease MDA expression on the cochlear fibroblastic wall of the ototoxic model; however using greater doses of curcumin (200 mg/kg) for 7 days would provide a better effect. Curcumin could also significantly decrease MDA expression when it was administered during the preototoxic exposure.
Conclusion
Curcumin can be used as a therapy for ototoxic prevention based on the decrease in MDA expression.
Keywords
curcumin; malondialdehyde; cochlear fibroblast; reactive oxygen species; ototoxicity; gentamicin
Introduction
Various kinds of medicines and topical agents can cause ototoxicity.11 Rogers C, Petersen L. Aminoglycoside-induced balance deficits: a review of vestibulotoxicity. S Afr Fam Pract 2011;53(05):419-424 Toxic reactions induced by medicines often trigger the development of hearing disorders in some people. They can occur in one or both ears with different levels of damage, and their effects can be identified in the short or long terms.22 ASHA Evidence-Based Systematic Review (EBSR): Drug-Induced Hearing Loss- - Amynoglycosides American Speech-Language- Hearing Association. (Accessed March 12th, 2019) at: http://www.asha.org/uplodedFiles/EBSRAminoglycosides.pdf
http://www.asha.org/uplodedFiles/EBSRAmi...
The effect of this ototoxicity can last for a day or a few weeks after the medicine enters body circulation.33 Huth ME, Ricci AJ, Cheng AG. Mechanisms of aminoglycoside ototoxicity and targets of hair cell protection. Int J Otolaryngol 2011;2011:937861
Numerous medicines can be categorized as ototoxic because of their side effects on the inner ears. Ototoxicity can be divided into cochleotoxicity (when it affects hearing) or vestibulotoxicity (when it affects balance).44 Schacht J, Talaska AE, Rybak LP. Cisplatin and aminoglycoside antibiotics: hearing loss and its prevention. Anat Rec (Hoboken) 2012;295(11):1837-1850 Cochleotoxicity occurs in 2% to 25% of patients, while vestibulotoxicity occurs in 15% of patients who consume aminoglycosides.33 Huth ME, Ricci AJ, Cheng AG. Mechanisms of aminoglycoside ototoxicity and targets of hair cell protection. Int J Otolaryngol 2011;2011:937861 Some medicines which contain ototoxic effects are diuretic loop, cytostatic, tuberculostatic, quinine, and aminoglycoside drugs. Ototoxic agents damage the structure of the inner ear and change the mechanoelectrical transduction, which causes functional problems.55 Ciuman RR. Inner ear symptoms and disease: pathophysiological understanding and therapeutic options. Med Sci Monit 2013; 19:1195-1210
As wide-spectrum antibiotics, aminoglycosides have been reported to have strong bactericidal activity against Gramnegative bacteria. Their potency to kill bacteria is preferred over that of other medicines which only possess bacteriostatic capabilities.66 Xie J, Talaska AE, Schacht J. New developments in aminoglycoside therapy and ototoxicity. Hear Res 2011;281(1-2):28-37 The popularity and universal use of aminoglycosides have made its ototoxicity side effect as the main cause of hearing disorder. Even though aminoglycoside ototoxicity is usually associated with accumulated dosage and the administration process, cochlear dysfunction could still occur in some patients within or below the indicated therapeutic dosages.77 Lin CD, Kao MC, Tsai MH, et al. Transient ischemia/hypoxia enhances gentamicin ototoxicity via caspase-dependent cell death pathway. Lab Invest 2011;91(07):1092-1106
The molecular mechanism of ototoxicity can cause an elevated production of reactive oxygen species (ROS), depletion of the natural antioxidant glutathione and its enzymes, and the average increase in fat oxidation, oxidative modification of proteins, nucleic acid damage through caspase activation, and modification of important cochlear proteins.88 Chirtes F, Albu S. Prevention and restoration of hearing loss associated with the use of cisplatin. BioMed Res Int 2014;2014:925485 Reactive oxygem species can also cause cell dysfunction, necrosis or apoptosis in the tissues, as well as induce posttranslational changes that can affect the function of protein cells and signal pathways.99 Ho E, Karimi Galougahi K, Liu CC, Bhindi R, Figtree GA. Biological markers of oxidative stress: Applications to cardiovascular research and practice. Redox Biol 2013;1:483-491 Increasing ROS can damage deoxyribonucleic acid (DNA), disintegrate endothelial and generate apoptosis.1010 Moghimian M, Abtahi-Evari SH, Shokoohi M, et al. Effect of Syzygium aromaticum (clove) extract on seminiferous tubules and oxidative stress after testicular torsion in adult rats. Physiol Pharmacol 2017;21:343-350 Increasing the levels of ROS in the testicles, which are linked to membrane lipids, proteins and DNA, can affect sperm production and quality. This peroxidation damage to the tissues indicates a biochemical basis for reperfusion injury.1111 Moghimian M, Soltani M, Abtahi H, Shokoohi M. Effect of vitamin C on tissue damage and oxidative stress following tunica vaginalis flap coverage after testicular torsion. J Pediatr Surg 2017;52(10): 1651-1655
Oxidative stress markers have been the focus of various studies as important tools to assess the biological redox status, the condition and course of the disease, as well as the effects of antioxidants on human health1212 Marrocco I, Altieri F, Peluso I. Measurement and Clinical Significance of Biomarkers of Oxidative Stress in Humans. Oxid Med Cell Longev 2017;2017:6501046 Soltani et al.1313 Soltani M, Moghimian M, Abtahi-Eivari SH, Shoorei H, Khaki A, Shokoohi M. Protective Effects of Matricaria chamomilla Extract on Torsion/ Detorsion-Induced Tissue Damage and Oxidative Stress in Adult Rat Testis. Int J Fertil Steril 2018;12(03):242-248 (2018) conducted a study on oxidative stress and malondial-dehyde (MDA), superoxide dismutase (SOD) and glutathione peroxidase (GPx) levels. It is known that the last product of lipid oxidation is MDA, which has been widely regarded as a reliable biomarker of oxidative stress.1414 Ayala A, Muñoz MF, Argüelles S. Lipid peroxidation: production, metabolism, and signaling mechanisms of malondialdehyde and 4-hydroxy-2-nonenal. Oxid Med Cell Longev 2014;2014:360438
Curcumin, a well-known bioactive phytochemical extracted from turmeric (Curcuma longa), has been used for centuries in Chinese and Indian traditional medicines.1515 Bertazza L, Barollo S, Mari ME, et al. Biological Effects of EF24, a Curcumin Derivative, Alone or Combined with Mitotane in Adrenocortical Tumor Cell Lines. Molecules 2019;24(12):1-12 Curcumin is also used throughout Asia as a spice and seasoning to give food a certain taste and yellowish color.1616 Girdhani S, Ahmed MM, Mishra KP. Enhancement of Gamma Radiation-induced Cytotoxicity of Breast Cancer Cells by Curcumin. Mol Cell Pharmacol 2009;1:208-217 Numerous studies have reported that curcumin has many healing properties, such as an antioxidant, anti-inflammatory agent, it acts in the prevention and treatment of cancer,1717 Yeung AWK, Horbańczuk M, Tzvetkov NT, et al. Curcumin: Total- Scale Analysis of the Scientific Literature. Molecules 2019;24(07): 1-14,1818 Elseweidy MM, Younis NN, Elswefy SE, et al. Atheroprotective potentials of curcuminoids against ginger extract in hypercholesterolaemic rabbits. Nat Prod Res 2015;29(10):961-965 and is an anti-angiogenic,1717 Yeung AWK, Horbańczuk M, Tzvetkov NT, et al. Curcumin: Total- Scale Analysis of the Scientific Literature. Molecules 2019;24(07): 1-14 anti-thrombotic, and hepatoprotective agent.1818 Elseweidy MM, Younis NN, Elswefy SE, et al. Atheroprotective potentials of curcuminoids against ginger extract in hypercholesterolaemic rabbits. Nat Prod Res 2015;29(10):961-965 Curcumin has long been known as a safe ingredient. However, there are some side effects that have been reported in several studies, which are diarrhea, headache, rash, yellow stool, nausea, and an increase in the serum levels of alkaline phosphatase and lactate dehydrogenase.1919 Hewlings SJ, Kalman DS. Curcumin: A Review of Its Effects on Human Health. Foods 2017;6(10):1-11
The present research aims to assess whether curcumin can work as an effective and safe antioxidant to prevent and slow the development of damage to the cochlea fibroblasts based on the decrease in MDA expression in an ototoxic model of rats.
Methods
The present experimental study employed a randomized post-test only control group design. All procedures were approved by the Health Research Ethical Committee, Faculty of Medicine of Universitas Sumatera Utara/H. Adam Malik General Hospital, under number 777/TGL/KEPK FK USU- RSUP HAM/2016, in accordance with the Code of Practice for the Housing and Care of Animals Bred, Supplied or Used for Scientific Purposes. In total, 32 adult male white rats (Rattus norvegicus of the Wistar lineage) were obtained from the Animal Experimental Unit of the Biochemistry Laboratory, Faculty of Medicine, Universitas Airlangga, Indonesia. Before observation, the rats were subjected to a 12-day clinical evaluation in a preconditioned environment (20°C to 25°C, 12 hours of light) and ad libitum feeding to control body weight between 150 g and 250 g.
The curcumin used in the research was extracted directly from C. longa (The Testing Service Unit, Faculty of Pharmacy, Universitas Airlangga, Surabaya, number 0632/SA/V/2016) with levels of 16.62 ± 0.14% w/w compared with Standard using Thin Layer Chromatography and Densitometry, provided by professor doctor Suprapto Ma’at, MS (Faculty of Medicine, Universitas Airlangga, Surabaya, Indonesia). Curcumin was administered to the rats at dosages of 100 mg/kg and 200 mg/kg, and it was suspended in 0.5% carboxymethyl cellulose (CMC) and delivered through a nasogastric tube (NGT).
The 32 rats were randomly divided into /8 groups (with 4 rats in each group), as seen on ►Table 1.
To induce ototoxicity on the test subjects, 0.1 ml of gentamicin (40 mg/ml) was injected (intratympanic) at the anterosuperior part within 60 to 80 minutes of the anesthesia (7.5 mg/kg of xylazine and 100 mg/kg of ketamine intraperitonially).2020 Sagit M, Somdas MA, Korkmaz F, Akcadag A. The ototoxic effect of intratympanic terbinafine applied in the middle ear of rats. J Otolaryngol Head Neck Surg 2013;42:13 The functional and morphological changes in the cochlea were observed in terminated test subjects 18 hours after the administration of gentamicin.2121 Suzuki M, Ushio M, Yamasoba T. Time course of apoptotic cell death in guinea pig cochlea following intratympanic gentamicin application. Acta Otolaryngol 2008;128(07):724-731
It is known that the administration of 100 mg/kg of curcumin once a day for 7 days to posthepatectomy rats could decrease MDA significantly.2222 Toydemir T, Kanter M, Erboga M, et al. Antioxidative, antiapoptotic, and proliverative effect of curcumin on liver regeneration after partial hepatectomy in rats. Toxicol Ind Health 2012; •••:1-11 Another research2323 Walvekar MV, Potphode ND, Desai SS, et al. Histological Studies on Islets of Langerhans of Pancreas in Diabetic Mice after Curcumin Administration. IJPCR 2016;8:1314-1318 showed that curcumin was able to induce the proliferation of Langerhans cells and protect against oxidative stress in damaged cell tissues related to diabetic cognitive disorder. In the present research, we also tested a double dose to see if we could achieve a better result.
We used the MDA NB 100-62737 antibody (Novusbio, Novus Biologicals, Centennial, CO, US), the biotinylated secondary antibody (anti-rabbit), and peroxidase-labeled streptavidin. After the administration, the test subjects were euthanized by cervical dislocation, and a necropsy of temporal bone tissues was conducted to obtain tissue samples, which were fixed with 10% formalin buffer and subjected to ethylenediaminetetraacetic acid (EDTA) decalcification for 4 weeks. The laboratory examination was performed through fixation by deparaffinized tissue blocks dyed with haematoxylin eosin (HE). The MDA expression was assessed using a immunohistochemical (IHC) grading technique,2424 Fedchenko N, Reifenrath J. Different approaches for interpretation and reporting of immunohistochemistry analysis results in the bone tissue - a review. Diagn Pathol 2014;9:221 by multiplying 0% of the cells labeled in the IHC (it was said 0 when it was 0%, 1 when it was < 30%, 2 when it was between 30% and 60%, and 3 when it was > 60%) with the intensity of the IHC reaction (it was called 0 when there was no reaction, 1 when the reaction was week, 2 when it was moderate, and 3 when it was strong), so that the final value was between 0 and 9.
The results were submitted to analysis of variance (ANOVA; p ≥ 0.05) using the Statistical Package for the Social Sciences (IBM Corp., Armonk, NY, US) software, version 22.0. Data comparison was performed using the Mann-Whitney test followed by the Kruskal-Wallis test to determine the statistical differences between each group.
Results
MDA as the Marker of Oxidative Stress
After the desired cochlea areas were identified through HE pigmentation, we performed the IHC grading to measure MDA expression in the fibroblast of the lateral walls of the cochlea (►Fig. 1).
Supporting tissues and cochlea lateral walls with immunohistochemical (IHC) pigmentation (magnification: 10x). The directional arrow indicates the lateral walls.
The administration of gentamicin triggered the incidence of the oxidative process indicated by the increase in MDA expression in the cochlear fibroblast, marked by the browning of cytoplasm. This was also clearly observed with the increase in the brownish intensity of the cells in the fibroblast area within the group without curcumin administration (group 2). Curcumin could decrease MDA expression in the cochlear fibroblast of ototoxic model of rats (groups 3 to 8) compared with those in group 2. Group 8 had the lowest MDA expression. The change in MDA expression could be seen in the IHC description, as it was shown in ►Fig. 2.
Malondialdehyde (MDA) expression in each group (magnification: 40x): (A) group 1; (B) group 2; (C) group 3; (D) group 4; (E) group 5; (F) group 6; (G) group 7; and (H) group 8. The directional arrow indicates the brownish color that characterizes MDA expression in the cochlear fibroblast.
Analysis of the Data
Based on the statistical assessment of the measurement result, group 2 had the highest mean value of MDA expression, while the lowest mean value was found in group 8, as shown in ►Fig. 3.
The mean value of MDA expression in the fibroblast of cochlear lateral walls in an ototoxic rat model during the IHC examination.
In ►Table 2, a significant difference (p ≥ 0.05) in fibroblast MDA expression is observed between the induced-ototoxicity group (group 2) and the control group (group 1), but there was no significant difference between the induced-ototoxicity group and the groups who only received one dose of curcumin (groups 3 and 4). There was a significant difference (p ≥ 0.05) in the ototoxic model groups who received only 1 dose of curcumin (groups 3 and 4) compared with the ototoxic model groups who underwent 7 days of curcumin treatment (groups 5 and 6). No significant differences were observed between groups 7 and 8; but, overall, there was a significant difference between the groups who underwent the curcumin treatment and those who did not.
Discussion
The present research assessed MDA expression in the cochlear fibroblast of white rats, R. norvegicus of the Wistar lineage. Rodents (especially Mus musculus and R. norvegicus) have been widely used as guinea pigs in biomedical research for years.2525 Ellenbroek B, Youn J. Rodent models in neuroscience research: is it a rat race? Dis Model Mech 2016;9(10):1079-1087 Fluorescent imaging shows that gentamicin attaches to the stria vascularis, especially to its marginal cells. Huth et al.33 Huth ME, Ricci AJ, Cheng AG. Mechanisms of aminoglycoside ototoxicity and targets of hair cell protection. Int J Otolaryngol 2011;2011:937861 point out that, after aminoglycoside enters the systemic current, it enters cochlea in only a few minutes through capillary blood vessels. Aminoglycosides can also be seen in the basal and fibrotic cells. Schacht et al.44 Schacht J, Talaska AE, Rybak LP. Cisplatin and aminoglycoside antibiotics: hearing loss and its prevention. Anat Rec (Hoboken) 2012;295(11):1837-1850 point out that the outer hairs of corti cells are easily damaged, which gradually affects the lower apex regions. The damage usually occurs from the first up to the third layers, and inner hair cells gradually disappear. Aminoglycoside is also found in the stria vascularis, where degradation of tissue and marginal cells occur. Damage to the ganglion spiral cells usually follows the loss of hair cells, which can persist long after the therapy has finished. It is also pointed out that anomalies in the stria vascularis can occur without damage to the hair cells.
The significant MDA expression among the gentamycininduced ototoxic model groups compared with the control group supports the statement of Ayala et al.,1414 Ayala A, Muñoz MF, Argüelles S. Lipid peroxidation: production, metabolism, and signaling mechanisms of malondialdehyde and 4-hydroxy-2-nonenal. Oxid Med Cell Longev 2014;2014:360438 which point out that MDA constitutes a reliable marker to pinpoint oxidative stress in clinical studies; therefore, MDA reactivity and toxicity are often correlated in biomedical research. Dierckx et al.2626 Dierckx N, Horvath G, van Gils C, et al. Oxidative stress status in patients with diabetes mellitus: relationship to diet. Eur J Clin Nutr 2003;57(08):999-1008 found high levels of MDA in the lipid autoxidation pathway in diabetic patients compared with healthy groups.
This is also in accordance with the theory that states that aminoglycoside induces the establishment of ROS, which are central in the molecular path to ototoxicity. Aminoglycosides are known to directly modulate the enzymatic activity related to ROS metabolism by interfering with other antioxidants.2727 Poirrier AL, Pincemail J, Van Den Ackerveken P, Lefebvre PP, Malgrange B. Oxidative stress in the cochlea: an update. Curr Med Chem 2010;17(30):3591-3604 Reactive oxygen species can be produced in several sources, including the mitochondria, xanthine oxidase, and unoccupied nitric oxide synthase.99 Ho E, Karimi Galougahi K, Liu CC, Bhindi R, Figtree GA. Biological markers of oxidative stress: Applications to cardiovascular research and practice. Redox Biol 2013;1:483-491 The excessive production of ROS promotes oxidative stress that causes many molecular changes such as nucleic acid mutations and protein misfolding that leads to diseases.1515 Bertazza L, Barollo S, Mari ME, et al. Biological Effects of EF24, a Curcumin Derivative, Alone or Combined with Mitotane in Adrenocortical Tumor Cell Lines. Molecules 2019;24(12):1-12 An increase in ROS levels can produce oxidative stress, activated apoptosis, and cause damage to DNA in the tissues.2828 Shokoohi M, Shoorei H, Soltani M, Abtahi-Eivari SH, Salimnejad R, Moghimian M. Protective effects of the hydroalcoholic extract of Fumaria parviflora on testicular injury induced by torsion/detorsion in adult rats. Andrologia 2018;50(07):e13047 A study reported that excess ROS decrease sperm motility and morphology, resulting in DNA damage and apoptosis.2929 Shookoohi M, Madarek EOS, Khaki A, et al. Investigating the Effects of Onion Juice on Male Fertility Factors and Pregnancy Rate After Testicular Torsion/ Detorsion by Intrauterine Insemination Methode. Int J Women’s Health Reprod Sci 2018;6(04):499-505 These factors play their role in initiating cell death as the result of the oxidative response.3030 Deavall DG, Martin EA, Horner JM, Roberts R. Drug-induced oxidative stress and toxicity. J Toxicol 2012;2012:645460 Numerous pathways are believed to trigger the apoptosis of cochlear cells through ROS activity, such as the caspase-dependent pathway, caspaseindependent pathway, lipid autoxidation, and induction of Ca2+ influx.3131 Üstün Bezgin S, Uygur KK, Gökdoğan Ç, Elmas Ç, Göktaş G The Effects of Riluzole on Cisplatin-induced Ototoxicity. Int Arch Otorhinolaryngol 2019;23(03):e267-e275 Lipid peroxidation (autoxidation) is a chain reaction which continuously provides the supply of peroxide-free radicals and initiates the next peroxidation in the lipoprotein membrane by ROS; among which MDA belongs.3232 Nagamani M, Prahaladu P, Vijayababu VPSS, et al. Lipid Peroxidation Product As A Marker Of Oxidative Stress In Psoriasis -A Case Control Study In North Coastal Andhra Pradesh. IOSR-JDMS 2015; 14:18-20
Oxidative damage can occur as the result of overproduction of ROS and/or the lack of antioxidant scavenging ability to neutralize free radicals. There are at least three strategies to avoid the development of oxidative stress within the inner ears: ROS detoxification with antioxidants, ROS inhibition by oxidant scavengers, or cutting off the associated downstream ROS signal pathway.2727 Poirrier AL, Pincemail J, Van Den Ackerveken P, Lefebvre PP, Malgrange B. Oxidative stress in the cochlea: an update. Curr Med Chem 2010;17(30):3591-3604 Curcumin shows a strong scavenging activity regarding various ROS, including anionic superoxide, hydroxyl radicals, and nitrogen dioxide radicals.3333 Molina-Jijón E, Tapia E, Zazueta C, et al. Curcumin prevents Cr(VI)- induced renal oxidant damage by a mitochondrial pathway. Free Radic Biol Med 2011;51(08):1543-1557
A significant difference in MDA expression in both ototoxic models was observed between the groups in whom the duration of the curcumin treatment varied (18 hours and 7 days). The results could mean that the longer curcumin treatment with either dose (100 mg/kg or 200 mg/kg) might yield better results.
The decrease in MDA expression caused by curcumin activity within the cochlea fibroblast could be inferred from previous medical observations. Correa et al.3434 Correa F, Buelna-Chontal M, Hernández-Reséndiz S, et al. Curcumin maintains cardiac and mitochondrial function in chronic kidney disease. Free Radic Biol Med 2013;61:119-129 pointed out that oxidative stress constituted the basis of the risk factor for mortality in senior hemodialysis patients. It was also found that curcumin could decrease cardiac complications in some patients.
A significant difference was observed between model groups with curcumin administration as therapy (curcumin was administered after gentamycin) and the groups with curcumin supplement as prevention measures (curcumin was administered before gentamycin). Kuhad et al.3535 Kuhad A, Pilkhwal S, Sharma S, Tirkey N, Chopra K. Effect of curcumin on inflammation and oxidative stress in cisplatininduced experimental nephrotoxicity. J Agric Food Chem 2007; 55(25):10150-10155 point out that curcumin has protective effects in cases of cisplatininduced nephrotoxicity, hinting its function as a strong antiinflammatory and antioxidant. It is believed that curcumin would also be suitable to prevent the hearing impairment associated with oxidative stress.
Considering that aminoglycosides cannot be metabolized and persist in hair cells for several months, it is necessary to find a potential compound which can suppress the development of ototoxicity during the long-term therapy.33 Huth ME, Ricci AJ, Cheng AG. Mechanisms of aminoglycoside ototoxicity and targets of hair cell protection. Int J Otolaryngol 2011;2011:937861 Alrawaiq and Abdullah3636 Alrawaiq NS, Abdullah A. A Review of Antioxidant Polyphenol Curcumin and its Role in Detoxification. Int J Pharm Tech Res 2014;6:280-289 noted that curcumin was considered a strong phytochemical to prevent and alleviate various diseases, and could be used as potential therapeutic agent. The importance of MDA as an important marker of oxidative stress and its role in causing health disorders should be further explored, including the development of better and more reliable testing methods to be applied in nutritional and medical studies.3737 Del Rio D, Stewart AJ, Pellegrini N. A review of recent studies on malondialdehyde as toxic molecule and biological marker of oxidative stress. Nutr Metab Cardiovasc Dis 2005;15(04): 316-328
From the results obtained, it is expected that curcumin can become an effective and safe plant-based medication to prevent and treat hearing loss due to ototoxicity in a biomolecular level. Despite this, animals are not representive of human beings. Therefore, it is necessary to do further research on human beings.The present research is expected to be the basis for further research to assess cochlear function using tools such as otoacoustic emissions (OAEs).
Conclusion
The results show that curcumin could effectively prevent and decrease gentamycin-induced oxidative stress by limiting MDA expression in the cochlea fibroblast. It is implied that the antioxidative properties of curcumin could slow and prevent the development of ototoxicity. We encourage further exploration of this research and turning it into proper clinical research.
References
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1Rogers C, Petersen L. Aminoglycoside-induced balance deficits: a review of vestibulotoxicity. S Afr Fam Pract 2011;53(05):419-424
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2ASHA Evidence-Based Systematic Review (EBSR): Drug-Induced Hearing Loss- - Amynoglycosides American Speech-Language- Hearing Association. (Accessed March 12th, 2019) at: http://www.asha.org/uplodedFiles/EBSRAminoglycosides.pdf
» http://www.asha.org/uplodedFiles/EBSRAminoglycosides.pdf -
3Huth ME, Ricci AJ, Cheng AG. Mechanisms of aminoglycoside ototoxicity and targets of hair cell protection. Int J Otolaryngol 2011;2011:937861
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4Schacht J, Talaska AE, Rybak LP. Cisplatin and aminoglycoside antibiotics: hearing loss and its prevention. Anat Rec (Hoboken) 2012;295(11):1837-1850
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5Ciuman RR. Inner ear symptoms and disease: pathophysiological understanding and therapeutic options. Med Sci Monit 2013; 19:1195-1210
-
6Xie J, Talaska AE, Schacht J. New developments in aminoglycoside therapy and ototoxicity. Hear Res 2011;281(1-2):28-37
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7Lin CD, Kao MC, Tsai MH, et al. Transient ischemia/hypoxia enhances gentamicin ototoxicity via caspase-dependent cell death pathway. Lab Invest 2011;91(07):1092-1106
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8Chirtes F, Albu S. Prevention and restoration of hearing loss associated with the use of cisplatin. BioMed Res Int 2014;2014:925485
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9Ho E, Karimi Galougahi K, Liu CC, Bhindi R, Figtree GA. Biological markers of oxidative stress: Applications to cardiovascular research and practice. Redox Biol 2013;1:483-491
-
10Moghimian M, Abtahi-Evari SH, Shokoohi M, et al. Effect of Syzygium aromaticum (clove) extract on seminiferous tubules and oxidative stress after testicular torsion in adult rats. Physiol Pharmacol 2017;21:343-350
-
11Moghimian M, Soltani M, Abtahi H, Shokoohi M. Effect of vitamin C on tissue damage and oxidative stress following tunica vaginalis flap coverage after testicular torsion. J Pediatr Surg 2017;52(10): 1651-1655
-
12Marrocco I, Altieri F, Peluso I. Measurement and Clinical Significance of Biomarkers of Oxidative Stress in Humans. Oxid Med Cell Longev 2017;2017:6501046
-
13Soltani M, Moghimian M, Abtahi-Eivari SH, Shoorei H, Khaki A, Shokoohi M. Protective Effects of Matricaria chamomilla Extract on Torsion/ Detorsion-Induced Tissue Damage and Oxidative Stress in Adult Rat Testis. Int J Fertil Steril 2018;12(03):242-248
-
14Ayala A, Muñoz MF, Argüelles S. Lipid peroxidation: production, metabolism, and signaling mechanisms of malondialdehyde and 4-hydroxy-2-nonenal. Oxid Med Cell Longev 2014;2014:360438
-
15Bertazza L, Barollo S, Mari ME, et al. Biological Effects of EF24, a Curcumin Derivative, Alone or Combined with Mitotane in Adrenocortical Tumor Cell Lines. Molecules 2019;24(12):1-12
-
16Girdhani S, Ahmed MM, Mishra KP. Enhancement of Gamma Radiation-induced Cytotoxicity of Breast Cancer Cells by Curcumin. Mol Cell Pharmacol 2009;1:208-217
-
17Yeung AWK, Horbańczuk M, Tzvetkov NT, et al. Curcumin: Total- Scale Analysis of the Scientific Literature. Molecules 2019;24(07): 1-14
-
18Elseweidy MM, Younis NN, Elswefy SE, et al. Atheroprotective potentials of curcuminoids against ginger extract in hypercholesterolaemic rabbits. Nat Prod Res 2015;29(10):961-965
-
19Hewlings SJ, Kalman DS. Curcumin: A Review of Its Effects on Human Health. Foods 2017;6(10):1-11
-
20Sagit M, Somdas MA, Korkmaz F, Akcadag A. The ototoxic effect of intratympanic terbinafine applied in the middle ear of rats. J Otolaryngol Head Neck Surg 2013;42:13
-
21Suzuki M, Ushio M, Yamasoba T. Time course of apoptotic cell death in guinea pig cochlea following intratympanic gentamicin application. Acta Otolaryngol 2008;128(07):724-731
-
22Toydemir T, Kanter M, Erboga M, et al. Antioxidative, antiapoptotic, and proliverative effect of curcumin on liver regeneration after partial hepatectomy in rats. Toxicol Ind Health 2012; •••:1-11
-
23Walvekar MV, Potphode ND, Desai SS, et al. Histological Studies on Islets of Langerhans of Pancreas in Diabetic Mice after Curcumin Administration. IJPCR 2016;8:1314-1318
-
24Fedchenko N, Reifenrath J. Different approaches for interpretation and reporting of immunohistochemistry analysis results in the bone tissue - a review. Diagn Pathol 2014;9:221
-
25Ellenbroek B, Youn J. Rodent models in neuroscience research: is it a rat race? Dis Model Mech 2016;9(10):1079-1087
-
26Dierckx N, Horvath G, van Gils C, et al. Oxidative stress status in patients with diabetes mellitus: relationship to diet. Eur J Clin Nutr 2003;57(08):999-1008
-
27Poirrier AL, Pincemail J, Van Den Ackerveken P, Lefebvre PP, Malgrange B. Oxidative stress in the cochlea: an update. Curr Med Chem 2010;17(30):3591-3604
-
28Shokoohi M, Shoorei H, Soltani M, Abtahi-Eivari SH, Salimnejad R, Moghimian M. Protective effects of the hydroalcoholic extract of Fumaria parviflora on testicular injury induced by torsion/detorsion in adult rats. Andrologia 2018;50(07):e13047
-
29Shookoohi M, Madarek EOS, Khaki A, et al. Investigating the Effects of Onion Juice on Male Fertility Factors and Pregnancy Rate After Testicular Torsion/ Detorsion by Intrauterine Insemination Methode. Int J Women’s Health Reprod Sci 2018;6(04):499-505
-
30Deavall DG, Martin EA, Horner JM, Roberts R. Drug-induced oxidative stress and toxicity. J Toxicol 2012;2012:645460
-
31Üstün Bezgin S, Uygur KK, Gökdoğan Ç, Elmas Ç, Göktaş G The Effects of Riluzole on Cisplatin-induced Ototoxicity. Int Arch Otorhinolaryngol 2019;23(03):e267-e275
-
32Nagamani M, Prahaladu P, Vijayababu VPSS, et al. Lipid Peroxidation Product As A Marker Of Oxidative Stress In Psoriasis -A Case Control Study In North Coastal Andhra Pradesh. IOSR-JDMS 2015; 14:18-20
-
33Molina-Jijón E, Tapia E, Zazueta C, et al. Curcumin prevents Cr(VI)- induced renal oxidant damage by a mitochondrial pathway. Free Radic Biol Med 2011;51(08):1543-1557
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Publication Dates
-
Publication in this collection
09 Mar 2022 -
Date of issue
Jan-Mar 2022
History
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Received
19 Jan 2020 -
Accepted
22 Oct 2020 -
Published
09 Aug 2021