[Audiometric features of familial hearing impairment transmitted by mitochondrial inheritance (A1555G)]

Sensorineural Hearing Loss in Patients With the m.1555A>G Mutation in the MTRNR1 Gene

OBJECTIVE

Mutations in the MTRNR1 gene of mitochondrial DNA are associated with non-syndromic hearing loss and increased susceptibility to aminoglycoside ototoxicity. The aim of our study was to determine the clinical characteristics of sensorineural hearing loss caused by the m.1555A>G mutation in MTRNR1.

METHODS

An observational retrospective study of the m.1555A>G mutation was conducted in patients with suspected hereditary bilateral sensorineural hearing loss in the Department of Otolaryngology of the Marqués de Valdecilla University Hospital (Cantabria, Spain) and in 100 controls with normal hearing.

RESULTS

The m.1555A>G mutation was found in 82 individuals from 20 different families and in none of the controls. Variable degrees of hearing loss were observed, ranging from normal hearing to profound deafness. Patients with a history of streptomycin administration exhibited significantly more pronounced hearing loss. The onset of hearing loss occurred from childhood to adulthood, with progression or stability over the years. No associated vestibular alterations or other clinical manifestations outside the ear were found. Two cochlear implant recipients showed significant improvement in speech comprehension.

CONCLUSIONS

Patients with the m.1555A>G mutation in the MTRNR1 gene often develop bilateral, symmetric sensorineural hearing loss, predominantly affecting high frequencies, worsened by streptomycin administration. This mutation does not affect the vestibular function. The variability in the severity of hearing loss, the heterogeneity of phenotypic expression, and the presence of carrier individuals with normal hearing may indicate the existence of modifying factors, both environmental and genetic. Cochlear implantees showed a good response in terms of speech intelligibility. Genetic testing for this mutation is recommended in patients with a family history of hearing loss to prevent the use of aminoglycosides if the mutation is found.

LEVEL OF EVIDENCE

4 Laryngoscope, 2024.

Pharmacogenomic testing to prevent aminoglycoside-induced hearing loss in cystic fibrosis patients: potential impact on clinical, patient, and economic outcomes

BACKGROUND

Aminoglycosides are commonly used in cystic fibrosis patients to treat Pseudomonas aeruginosa respiratory infections. Aminoglycoside-induced hearing loss may occur in 1%-15% of patients with cystic fibrosis, ranging from mild to severe. Recently, a genetic test to identify patients with a mitochondrial mutation (A1555G) that may predispose patients to this adverse event has become available. Although the A1555G variant is very rare, it seems to confer a high risk of severe hearing loss in patients exposed to aminoglycosides.

OBJECTIVE

The objective was to evaluate the potential clinical, patient, and economic outcomes associated with the use of A1555G testing in a cystic fibrosis population, and explore data gaps and uncertainty in its clinical implementation.

METHODS

We developed a decision-analytic model to evaluate a hypothetical cohort of patients with cystic fibrosis from a societal perspective. Clinical and economic data were derived primarily from a critical literature review. The incidence of aminoglycoside-induced severe hearing loss, quality-adjusted life-years, and total health care costs were evaluated. Sensitivity analyses were conducted to evaluate uncertainty in our results.

RESULTS

In the base-case analysis, A1555G testing decreased the risk of severe aminoglycoside-induced hearing loss by 0.12% in the cystic fibrosis population. The discounted incremental cost per quality-adjusted life-years gained was $79,300, but varied widely from $33,000 to testing being dominated by the no testing strategy (higher costs and lower quality-adjusted life-years with testing) in sensitivity analyses. If avoidance of aminoglycosides in patients testing positive leads to an absolute increase in the lifetime risk of death from Pseudomonas infection of 0.8% or greater, A1555G testing would lead to a decrease in quality-adjusted life-years.

CONCLUSIONS

The results of our analysis suggest that there are significant data gaps and uncertainty in the outcomes with A1555G testing, but it is not likely cost-effective, and could lead to worse patient outcomes due to avoidance of first-line therapy in the >95% of patients who are false-positives. Additional research is needed before pharmacogenetic testing for the A1555G mitochondrial mutation can be recommended, even in a population with a high likelihood of exposure to aminoglycosides.

Nuclear and mitochondrial genes mutated in nonsyndromic impaired hearing

Half of the cases with congenital impaired hearing are hereditary (HIH). HIH may occur as part of a multisystem disease (syndromic HIH) or as disorder restricted to the ear and vestibular system (nonsyndromic HIH). Since nonsyndromic HIH is almost exclusively caused by cochlear defects, affected patients suffer from sensorineural hearing loss. One percent of the total human genes, i.e. 300-500, are estimated to cause syndromic and nonsyndromic HIH. Of these, approximately 120 genes have been cloned thus far, approximately 80 for syndromic HIH and 42 for nonsyndromic HIH. In the majority of the cases, HIH manifests before (prelingual), and rarely after (postlingual) development of speech. Prelingual, nonsyndromic HIH follows an autosomal recessive trait (75-80%), an autosomal dominant trait (10-20%), an X-chromosomal, recessive trait (1-5%), or is maternally inherited (0-20%). Postlingual nonsyndromic HIH usually follows an autosomal dominant trait. Of the 41 mutated genes that cause nonsyndromic HIH, 15 cause autosomal dominant HIH, 15 autosomal recessive HIH, 6 both autosomal dominant and recessive HIH, 2 X-linked HIH, and 3 maternally inherited HIH. Mutations in a single gene may not only cause autosomal dominant, nonsyndromic HIH, but also autosomal recessive, nonsyndromic HIH (GJB2, GJB6, MYO6, MYO7A, TECTA, TMC1), and even syndromic HIH (CDH23, COL11A2, DPP1, DSPP, GJB2, GJB3, GJB6, MYO7A, MYH9, PCDH15, POU3F4, SLC26A4, USH1C, WFS1). Different mutations in the same gene may cause variable phenotypes within a family and between families. Most cases of recessive HIH result from mutations in a single locus, but an increasing number of disorders is recognized, in which mutations in two different genes (GJB2/GJB6, TECTA/KCNQ4), or two different mutations in a single allele (GJB2) are involved. This overview focuses on recent advances in the genetic background of nonsyndromic HIH.

Prevalencia de la mutación a1555g en el adn mitocondrial en pacientes con patología auditiva o vestibular debida a la ototoxicidad de los aminoglucósidos

OBJECTIVE

To determine the frequency of the A1555G mutation in the mitochondrial genome among Spanish patients with aminoglycoside-induced ototoxicity.

PATIENTS AND METHODS

We screened 25 unrelated cases, totalling 39 individuals with cochlear or vestibular damage due to aminoglycoside-induced ototoxicity. This group was made up of 18 subjects from 4 unrelated families with a history of aminoglycoside ototoxicity in more than one relative, 8 subjects from 8 families that also had other relatives with hearing loss in absence of aminoglycoside exposure, and 13 sporadic cases. Among the 13 sporadic cases, there were 3 patients with vestibular involvement. Detection of the A1555G mutation was seen by mean of techniques for molecular diagnosis.

RESULTS

The A1555G mutation was identified in all of the individuals from 4 families with aminoglycoside-induced cochlear damage and in 6 of 8 individuals with familial hearing loss. None of the sporadic cases carried the mutation.

CONCLUSIONS

A high proportion of patients with cochlear damage due to aminoglycoside ototoxicity and having a familial history of hearing loss, related or not to aminoglycoside exposure, harbor the A1555G mutation.

Etiología de la hipoacusia severa/profunda bilateral pre/perilocutiva en cantabria

OBJECTIVE

To know the etiology of preiperlingual bilateral hearing loss in children.

MATERIALS AND METHODS

All the patients diagnosed with bilateral severe/profound, pre or perilingual hearing loss at Sierrallana and Marqués de Valdecilla Hospitals (Cantabria, Spain) during the last 20 years were included in this study.

RESULTS

A hundred patients were diagnosed with bilateral severe/profound pre/perilingual hearing loss. The most frequent etiology was hereditary (49%), followed by severe perinatal hypoxia (11%), ototoxicity (5%), meningitis (3%), hyperbilirubinemia (3%) and rubella (2%). In 21% of cases was not known.

CONCLUSIONS

The two most frequent etiologies found in severe/profound hearing loss in children in our area were hereditary and non infectious perinatal problems. Infectious disease were scarce. Will decrease when genetic test were used as clinical basis.