Ototoxicity among cisplatin, carboplatin, and oxaliplatin in zebrafish model.

Platinum-based antineoplastic drugs, including cisplatin, carboplatin, and oxaliplatin, are widely used in the treatment of various cancers. Ototoxicity is a common adverse effect of platinum-based drugs. Ototoxicity leads to irreversible hearing impairment. We hypothesize that different platinum-based drugs exhibit varying ototoxic concentrations, time effects, and ototoxic mechanisms. We tested this hypothesis by using a zebrafish model (pvalb3b: TagGFP) to assess the viability of hair cells collected from zebrafish larvae. Cisplatin, carboplatin, and oxaliplatin were administered at dosages of 100, 200, or 400 µM, and the ototoxic effects of these drugs were assessed 1, 2, or 3 h after administration. Fm4-64 and a TUNEL assay were used to label the membranes of living hair cells and to detect cell apoptosis, respectively. We observed that >50% of hair cells were damaged at 1 h after cisplatin (100 µM) exposure, and this ototoxic effect increased at higher dosages and over time. Owing to the smaller ototoxic effects of carboplatin and oxaliplatin, we conducted higher-strength and longer-duration experiments with these drugs. Neither carboplatin nor oxaliplatin was obviously ototoxic, even at 1600 µM and after 6 h. Moreover, only cisplatin damaged the membranes of the hair cells. Cell apoptosis and significantly increased antioxidant gene expression were observed in only the cisplatin group. In conclusion, cisplatin significantly damages sensory hair cells and has notable dosage and time effects. Carboplatin and oxaliplatin are less ototoxic than cisplatin, likely due to having different ototoxic mechanisms than cisplatin.

Development of Chinese herbal medicine for sensorineural hearing loss.

According to the World Health Organization's world report on hearing, nearly 2.5 billion people worldwide will suffer from hearing loss by 2050, which may contribute to a severe impact on individual life quality and national economies. Sensorineural hearing loss (SNHL) occurs commonly as a result of noise exposure, aging, and ototoxic drugs, and is pathologically characterized by the impairment of mechanosensory hair cells of the inner ear, which is mainly triggered by reactive oxygen species accumulation, inflammation, and mitochondrial dysfunction. Though recent advances have been made in understanding the ability of cochlear repair and regeneration, there are still no effective therapeutic drugs for SNHL. Chinese herbal medicine which is widely distributed and easily accessible in China has demonstrated a unique curative effect against SNHL with higher safety and lower cost compared with Western medicine. Herein we present trends in research for Chinese herbal medicine for the treatment of SNHL, and elucidate their molecular mechanisms of action, to pave the way for further research and development of novel effective drugs in this field.

Drug screening identifies aldose reductase as a novel target for treating cisplatin-induced hearing loss.

Cisplatin is a frequently used chemotherapeutic medicine for cancer treatment. Permanent hearing loss is one of the most serious side effects of cisplatin, but there are few FDA-approved medicines to prevent it. We applied high-through screening and target fishing and identified aldose reductase, a key enzyme of the polyol pathway, as a novel target for treating cisplatin ototoxicity. Cisplatin treatment significantly increased the expression level and enzyme activity of aldose reductase in the cochlear sensory epithelium. Genetic knockdown or pharmacological inhibition of aldose reductase showed a significant protective effect on cochlear hair cells. Cisplatin-induced overactivation of aldose reductase led to the decrease of NADPH/NADP+ and GSH/GSSG ratios, as well as the increase of oxidative stress, and contributed to hair cell death. Results of target prediction, molecular docking, and enzyme activity detection further identified that Tiliroside was an effective inhibitor of aldose reductase. Tiliroside was proven to inhibit the enzymatic activity of aldose reductase via competitively interfering with the substrate-binding region. Both Tiliroside and another clinically approved aldose reductase inhibitor, Epalrestat, inhibited cisplatin-induced oxidative stress and subsequent cell death and thus protected hearing function. These findings discovered the role of aldose reductase in the pathogenesis of cisplatin-induced deafness and identified aldose reductase as a new target for the prevention and treatment of hearing loss.

Development of Chinese herbal medicine for sensorineural hearing loss

According to the World Health Organization's world report on hearing, nearly 2.5 billion people worldwide will suffer from hearing loss by 2050, which may contribute to a severe impact on individual life quality and national economies. Sensorineural hearing loss (SNHL) occurs commonly as a result of noise exposure, aging, and ototoxic drugs, and is pathologically characterized by the impairment of mechanosensory hair cells of the inner ear, which is mainly triggered by reactive oxygen species accumulation, inflammation, and mitochondrial dysfunction. Though recent advances have been made in understanding the ability of cochlear repair and regeneration, there are still no effective therapeutic drugs for SNHL. Chinese herbal medicine which is widely distributed and easily accessible in China has demonstrated a unique curative effect against SNHL with higher safety and lower cost compared with Western medicine. Herein we present trends in research for Chinese herbal medicine for the treatment of SNHL, and elucidate their molecular mechanisms of action, to pave the way for further research and development of novel effective drugs in this field.

Hearing Loss and Risk Factors in Very Low Birth Weight Infants.

The incidence of sensorineural hearing loss (SNHL) is still high in very low birth weight (VLBW) infants. The purpose of our study was to provide the prevalence rates of SNHL and to analyze the risk factors of hearing impairment and changes in hearing thresholds in a cohort of VLBW infants. A retrospective observational study was conducted in our neonatal intensive care unit (NICU) from 2012 to 2016. All VLBW infants included were screened by transient evoked otoacoustic emissions (TEOAEs) and diagnostic auditory brainstem response (ABR). In total, we enrolled 316 infants and SNHL was diagnosed in 68, leading to an early incidence of 21.5% as 36 infants out of 68 improved. Finally, SNHL was confirmed in 20 patients (6.3%) who needed hearing aids. They were significantly smaller, sicker, had longer hospitalizations, and received more ototoxic therapies. Logistic regression analysis showed that gestational age (GA) influenced the association between drugs and SNHL. The results underlined how the total exposure to antibiotics is significantly associated with SNHL, even after GA correction. In conclusion, GA, birth weight and, above all, the length and complexity of NICU stay quantify the risk of SNHL and should be considered at the individual level for parent counseling.

Mitochondrial redox system: A key target of antioxidant therapy to prevent acquired sensorineural hearing loss.

Noise (noise-induced hearing loss), and ototoxic drugs (drug-induced ototoxicity), and aging (age-related hearing loss) are the major environmental factors that lead to acquired sensorineural hearing loss. So far, there have been numerous efforts to develop protective or therapeutic agents for acquired hearing loss by investigating the pathological mechanisms of each types of hearing loss, especially in cochlear hair cells and auditory nerves. Although there is still a lack of information on the underlying mechanisms of redox homeostasis and molecular redox networks in hair cells, an imbalance in mitochondrial reactive oxygen species (ROS) levels that enhance oxidative stress has been suggested as a key pathological factor eventually causing acquired sensorineural hearing loss. Thus, various types of antioxidants have been investigated for their abilities to support auditory cells in maintenance of the hearing function against ototoxic stimuli. In this review, we will discuss the scientific possibility of developing drugs that target particular key elements of the mitochondrial redox network in prevention or treatment of noise- and ototoxic drug-induced hearing loss.

Integrative Functional Transcriptomic Analyses Implicate Shared Molecular Circuits in Sensorineural Hearing Loss.

Sensorineural hearing loss (SNHL) is referred to as the most common type of hearing loss and typically occurs when the inner ear or the auditory nerve is damaged. Aging, noise exposure, and ototoxic drugs represent three main causes of SNHL, leading to substantial similarities in pathophysiological characteristics of cochlear degeneration. Although the common molecular mechanisms are widely assumed to underlie these similarities, its validity lacks systematic examination. To address this question, we generated three SNHL mouse models from aging, noise exposure, and cisplatin ototoxicity, respectively. Through constructing gene co-expression networks for the cochlear transcriptome data across different hearing-damaged stages, the three models are found to significantly correlate with each other in multiple gene co-expression modules that implicate distinct biological functions, including apoptosis, immune, inflammation, and ion transport. Bioinformatics analyses reveal several potential hub regulators, such as IL1B and CCL2, both of which are verified to contribute to apoptosis accompanied by the increase of (ROS) in in vitro model system. Our findings disentangle the shared molecular circuits across different types of SNHL, providing potential targets for the broad effective therapeutic agents in SNHL.

Association Between Hypertension and Hearing Loss.

Introduction Hypertension (HTN) is a common health problem, diagnosed in every one out of four individuals. It is associated with various complications; however, its impact on hearing loss is not well studied. In this study, we will determine the impact of HTN on hearing. Methods This cross-sectional study was conducted in Jinnah Sindh Medical University from August 2020 to March 2021. Three hundred (300) patients with documented diagnosis of HTN, between the ages of 21 and 50 years, were enrolled in the study. Another 300 non-hypertensive participants were enrolled as a reference group. Participants were sent to trained otolaryngologist technicians, who performed audiometry at six different frequencies for each year (0.5, 1.0, 2.0, 3.0, 4.0, and 6.0 kilohertz (kHz)). The final hearing level was calculated by taking mean of hearing levels of both ears.  Results The hearing levels in audiometry were significantly higher in hypertensive participants compared to non-hypertensive participants (23.4 ± 8.67 dB vs 18.3 ± 6.02 dB; p-value: <0.0001). Participants who had been diagnosed with HTN for more than five years had higher hearing levels in audiometry test compared to participants with less than five years of HTN (24.21 ± 8.92 dB vs. 22.6 ± 8.02 dB; p-value 0.0001). Conclusion Based on our study, HTN is positively correlated with hearing loss. Therefore, longstanding hypertensive patients should be screened regularly in order to assess the status of their hearing abilities.

Progress in protecting vestibular hair cells.

Vestibular hair cells are mechanosensory receptors that are capable of detecting changes in head position and thereby allow animals to maintain their posture and coordinate their movement. Vestibular hair cells are susceptible to ototoxic drugs, aging, and genetic factors that can lead to permanent vestibular dysfunction. Vestibular dysfunction mainly results from the injury of hair cells, which are located in the vestibular sensory epithelium. This review summarizes the mechanisms of different factors causing vestibular hair cell damage and therapeutic strategies to protect vestibular hair cells.

A 'Dilute and Shoot' Liquid Chromatography-Mass Spectrometry Method for Multiclass Drug Analysis in Pre-Cut Dried Blood Spots.

Drugs able to affect the auditory and nervous systems and consumed by workers to treatdifferent pathologies can represent a possible source of risk in the work environment. All the target compounds involved in the presented project show ototoxic and/or narcoleptic side effects and, for these reasons, occupational safety organizations have recognized them as potential causes of work injuries. A multiclass method for the analysis of 15 drugs among the most widespread worldwide (belonging to nine different classes including antihistamines, beta-blockers, antidepressants, Z-drugs and opioids), was developed and validated. This study describes a rapid, sensitive and effective method to analyse these substances in whole blood using tailored pre-cut dried blood spots. Detection was achieved with a triple quadrupole mass spectrometer after an easy and simple 'dilute and shoot' solubilisation followed by an UPLC separation. All the issues linked to the use of the dried blood spots and whole blood, such as haematocrit variability, volumetric evaluation and sample carrier choice were carefully studied and managed during method development. From the validation study results it emerged that this approach can be deemed successful thanks to its few pg µL-1 LOQs, good linear intervals, absolute recoveries of no less than 75%, an almost negligible matrix effect and accuracy and precision in line with the European and American guidelines for validation. All the obtained goals have been specifically pursued in order to encourage method diffusion as a primary prevention intervention, even in small private workplaces.

[Screening audiological control in children of different ages after taking ototoxic medications]. / Skriningovyi audiologicheskii kontrol' detei raznogo vozrasta posle priema ototoksicheskikh preparatov.

AIM: To compare auditory function during screening of children of different age groups who received ototoxic therapy. PATIENTS AND METHODS: Auditory function was studied in various categories of children receiving ototoxic drugs. Hearing was assessed by the registration of distortion product otoacoustic emission (DPOAE), short-latency evoked potentials (SLEP), tympanometry. Statistical processing was performed using the C program Statgraphics Centurion XV. RESULTS: In this study, screening of auditory function in children suffering from cystic fibrosis and receiving ototoxic treatment revealed pathologic conditions of the middle ear according to tympanometry in 15.4% of cases, impaired auditory function in 28.2% of cases according to DPOAE. Early ototoxicosis presented as a decrease in the amplitude of the response at a frequency of 4 kHz, and a change in the structure of the DP-gram in the form of a shift to the low-frequency area. Examination of the auditory function of premature infants receiving potentially ototoxic drugs in the early neonatal period demonstrated that the administration of ototoxic drugs does not affect the maturation of outer hair cells. CONCLUSION: Audiological control, such as tympanometry and registration of evoked otoacoustic remission should be included in the outpatient observation of children with a history of ototoxic drugs.

Ototoxicidad y factores predisponentes / Ototoxicity and predisposing factors

Introducción: la pérdida auditiva inducida por fármacos ototóxicos se consideró un problema grave, frecuente, con repercusión en el quehacer diario de otorrinolaringólogos y pediatras. Se documentó ototoxicidad relacionada con aminoglucósidos y tratamientos antineoplásicos, salicilatos, quininas y algunos diuréticos. Objetivo: profundizar en los enfoques actuales más novedosos sobre ototoxicidad, factores de riesgo, predisposición genética y prevención. Métodos: estudio retrospectivo de la literatura escrita en idiomas español e inglés, de los reportes más interesantes y sugerentes publicados, sin límite de tiempo anterior, hasta Febrero de 2017, a través de búsqueda en línea por Internet, y bases de datos consultadas: Google, Cochrane y PubMed-Medline. Desarrollo: se obtuvo un total de más de 100 artículos. Los mecanismos exactos de ototoxicidad por aminoglucósidos y cisplatino, constituyeron un área activa de investigación. Se analizó la relación entre ototoxicidad y las caspasas 8,9 y 3, mediadores esenciales en la apoptosis de células ciliadas en la cóclea y la hipoacusia. Se describió la relación entre las mutaciones del gen MTRNR1, que codifica para la subunidad ribosomal 12s, y la pérdida auditiva por ototoxicidad. Se relacionó con hipoacusia y sordera mitocondrial no sindrómica, transmisión exclusivamente materna, e incremento en la susceptibilidad a la ototoxicidad por aminoglucósidos, factor clave predisponente. Consideraciones finales: los fármacos ototóxicos, inducen toxicidad coclear e hipoacusia bilateralmente simétrica, o asimétrica, en altas frecuencias, secundaria a destrucción irreversible de células ciliadas externas en el órgano de Corti. Nuevas investigaciones sobre cisplatino identifican la población susceptible, y pueden ofrecer alternativas de tratamiento menos agresivas. Se abordan criterios actuales sobre monitoreo audiológico y grados de ototoxicidad. La prevención implica una estricta(AU)

Introduction: hearing loss induced by ototoxic drugs was approached as a serious, frequent problem with an impact on the daily work of otolaryngologists and pediatricians. A review was conducted about the relationship of ototoxicity to aminoglycosides, antineoplastic treatments, salicylates, quinines and some diuretics. Objective: analyze the most updated current approaches about ototoxicity, risk factors, genetic predisposition and prevention. Methods: a retrospective review was conducted of the literature on the topic published in Spanish and English, as well as the most interesting and thought-provoking reports, from an open start date until February 2017, by means of a search on the Internet and in the databases Google, Cochrane and PubMed-MEDLINE. Results: more than 100 papers were obtained. The exact ototoxicity mechanisms by aminoglycosides and cisplatin were an area of active research. An analysis was made of the relationship between ototoxicity and caspases 8, 9 and 3, essential mediators in the apoptosis of ciliated cells in the cochlea, and hearing loss. A description is provided of the relationship between mutations of the MTRNR1 gene, which codifies for the ribosomal subunit 12s, and hearing loss by ototoxicity. A connection was established with hearing loss and mitochondrial nonsyndromic deafness, exclusively maternal transmission, and increased susceptibility to ototoxicity by aminoglycosides, a key predisposing factor. Final considerations: ototoxic drugs induce cochlear toxicity and bilaterally symmetric or asymmetric hearing loss at high frequencies, secondary to irreversible destruction of external ciliated cells in the organ of Corti. Recent research about cisplatin has identified the susceptible population, and may offer new, less aggressive treatment alternatives. Current criteria are presented about audiological surveillance and ototoxicity grades. Prevention implies strict surveillance(AU)

Ototoxicidad y factores predisponentes / Ototoxicity and predisposing factors

Introducción: la pérdida auditiva inducida por fármacos ototóxicos se consideró un problema grave, frecuente, con repercusión en el quehacer diario de otorrinolaringólogos y pediatras. Se documentó ototoxicidad relacionada con aminoglucósidos y tratamientos antineoplásicos, salicilatos, quininas y algunos diuréticos. Objetivo: profundizar en los enfoques actuales más novedosos sobre ototoxicidad, factores de riesgo, predisposición genética y prevención. Métodos: estudio retrospectivo de la literatura escrita en idiomas español e inglés, de los reportes más interesantes y sugerentes publicados, sin límite de tiempo anterior, hasta Febrero de 2017, a través de búsqueda en línea por Internet, y bases de datos consultadas: Google, Cochrane y PubMed-Medline. Desarrollo: se obtuvo un total de más de 100 artículos. Los mecanismos exactos de ototoxicidad por aminoglucósidos y cisplatino, constituyeron un área activa de investigación. Se analizó la relación entre ototoxicidad y las caspasas 8,9 y 3, mediadores esenciales en la apoptosis de células ciliadas en la cóclea y la hipoacusia. Se describió la relación entre las mutaciones del gen MTRNR1, que codifica para la subunidad ribosomal 12s, y la pérdida auditiva por ototoxicidad. Se relacionó con hipoacusia y sordera mitocondrial no sindrómica, transmisión exclusivamente materna, e incremento en la susceptibilidad a la ototoxicidad por aminoglucósidos, factor clave predisponente. Consideraciones finales: los fármacos ototóxicos, inducen toxicidad coclear e hipoacusia bilateralmente simétrica, o asimétrica, en altas frecuencias, secundaria a destrucción irreversible de células ciliadas externas en el órgano de Corti. Nuevas investigaciones sobre cisplatino identifican la población susceptible, y pueden ofrecer alternativas de tratamiento menos agresivas. Se abordan criterios actuales sobre monitoreo audiológico y grados de ototoxicidad. La prevención implica una estricta (AU)

Introduction: hearing loss induced by ototoxic drugs was approached as a serious, frequent problem with an impact on the daily work of otolaryngologists and pediatricians. A review was conducted about the relationship of ototoxicity to aminoglycosides, antineoplastic treatments, salicylates, quinines and some diuretics. Objective: analyze the most updated current approaches about ototoxicity, risk factors, genetic predisposition and prevention. Methods: a retrospective review was conducted of the literature on the topic published in Spanish and English, as well as the most interesting and thought-provoking reports, from an open start date until February 2017, by means of a search on the Internet and in the databases Google, Cochrane and PubMed-MEDLINE. Results: more than 100 papers were obtained. The exact ototoxicity mechanisms by aminoglycosides and cisplatin were an area of active research. An analysis was made of the relationship between ototoxicity and caspases 8, 9 and 3, essential mediators in the apoptosis of ciliated cells in the cochlea, and hearing loss. A description is provided of the relationship between mutations of the MTRNR1 gene, which codifies for the ribosomal subunit 12s, and hearing loss by ototoxicity. A connection was established with hearing loss and mitochondrial nonsyndromic deafness, exclusively maternal transmission, and increased susceptibility to ototoxicity by aminoglycosides, a key predisposing factor. Final considerations: ototoxic drugs induce cochlear toxicity and bilaterally symmetric or asymmetric hearing loss at high frequencies, secondary to irreversible destruction of external ciliated cells in the organ of Corti. Recent research about cisplatin has identified the susceptible population, and may offer new, less aggressive treatment alternatives. Current criteria are presented about audiological surveillance and ototoxicity grades. Prevention implies strict surveillance(AU)

Ototoxicity: the hidden menace.

Otolaryngology, although considered a surgical specialty, also covers many diseases that are not cured by surgery. These are treated medically and thus the otolaryngologist should have a good knowledge of drug treatments. It also entails ability to recognize, when an ENT symptom may be caused by one of the patient's medications, particularly as this is easily remedied by changing the drug. Although most of us know the common drugs that can cause otological side effects, there are many others that we may not be aware of. Here we have tried to consolidate a list of some commonly used drugs having otological side effects.

Mechanisms Involved in Ototoxicity.

The modern era of evidence-based ototoxicity emerged in the 1940s following the discovery of aminoglycosides and their ototoxic side effects. New classes of ototoxins have been identified in subsequent decades, notably loop diuretics, antineoplastic drugs, and metal chelators. Ototoxic drugs are frequently nephrotoxic, as both organs regulate fluid and ion composition. The mechanisms of ototoxicity are as diverse as the pharmacological properties of each ototoxin, though the generation of toxic levels of reactive oxygen species appears to be a common denominator. As mechanisms of cytotoxicity for each ototoxin continue to be elucidated, a new frontier in ototoxicity is emerging: How do ototoxins cross the blood-labyrinth barrier that tightly regulates the composition of the inner ear fluids? Increased knowledge of the mechanisms by which systemic ototoxins are trafficked across the blood-labyrinth barrier into the inner ear is critical to developing new pharmacotherapeutic agents that target the blood-labyrinth barrier to prevent trafficking of ototoxic drugs and their cytotoxic sequelae.