Objective:To evaluate the effectiveness of amplification intervention with hearing aids for restoring binaural auditory function in patients with unilateral moderate to severe sensorineural hearing loss. Methods:This study selected 30 patients with normal hearing in one ear and moderate to severe sensorineural hearing loss in the other ear. They were fitted with hearing aids for the worse ear and underwent more than half a year and one year of adaptation training. The Chinese translation of the Twelve-item version of SSQ（C-SSQ12）, angle identification test, speech recognition score（SRS） at different signal-to-noise ratios（SNR=5 and SNR=10） and audiometric thresholds were used to compare the results before and after hearing aid use to evaluate the effectiveness of the unilateral hearing loss intervention. Results:The results of the audiometric thresholds, C-SSQ12 scores, angle identification test, and SRS at SNR=5 and SNR=10 in the worse ear of the unilateral hearing loss patients after hearing aid use were all statistically significant compared to before hearing aid use（P<0.01）. Conclusion:Amplification intervention with hearing aids has significant effects on restoring binaural auditory function in patients with unilateral moderate to severe sensorineural hearing loss.
Humans ; Hearing Aids ; Hearing Loss, Unilateral/therapy* ; Middle Aged ; Hearing Loss, Sensorineural/rehabilitation* ; Adult ; Female ; Male ; Auditory Threshold ; Young Adult ; Aged

Hearing loss is very common and economically burdensome. No accepted therapeutic modality for sensorineural hearing loss is yet available; most clinicians emphasize rehabilitation, placing hearing aids and cochlear implants. Photobiomodulation (PBM) employs light energy to enhance or modulate the activities of specific organs, and is a popular non-invasive therapy used to treat skin lesions and neurodegenerative disorders. Efforts to use PBM to improve hearing have been ongoing for several decades. Initial in vitro studies using cell lines and ex vivo culture techniques have now been supplanted by in vivo studies in animals; PBM protects the sensory epithelium and triggers neural regeneration. Many reports have used PBM to treat tinnitus. In this brief review, we introduce PBM applications in hearing research, helpful protocols, and relevant background literature.
Animals ; Cell Line ; Cochlear Implants ; Culture Techniques ; Epithelium ; Hearing Aids ; Hearing Loss ; Hearing Loss, Sensorineural ; Hearing ; In Vitro Techniques ; Low-Level Light Therapy ; Neurodegenerative Diseases ; Regeneration ; Rehabilitation ; Skin ; Tinnitus

It is challenging to achieve sufficient hearing gain in patients with mixed hearing loss. In chronic middle ear diseases, conventional passive reconstructive surgeries often result in suboptimal hearing gain and additional hearing aids may have limitations due to insufficient sound amplification, occlusion effect, acoustic feedback, and skin irritation. Middle ear implantation (MEI) using Vibrant Soundbridge (VSB) is another option for auditory rehabilitation in mixed hearing loss as well as sensorineural hearing loss. The floating mass transducer of VSB can be placed on various middle ear structures either directly or using different types of couplers in order to deliver vibratory mechanical energy to the cochlea. We report a patient who presented with bilateral mixed hearing loss due to chronic otitis media and had limitations using conventional hearing aids in the worse hearing ear. The patient was successfully treated with MEI using the Bell coupler together with middle ear surgery in a single step.
Acoustics ; Cochlea ; Ear ; Ear, Middle* ; Hearing ; Hearing Aids ; Hearing Loss, Mixed Conductive-Sensorineural* ; Hearing Loss, Sensorineural ; Humans ; Ossicular Prosthesis* ; Otitis Media ; Rehabilitation ; Skin ; Transducers

Facioscapulohumeral muscular dystrophy (FSHD) presents a muscular weakness in the face, shoulder girdle, and legs. In addition, bilateral, progressive, high-frequency sensorineural hearing loss (SNHL) can be expressed. A 3-year-old boy visited with bilateral facial paralysis and bilateral hearing loss. Audiological evaluations revealed bilateral, progressive, sloping SNHL and bilateral hearing aids was used for more than 3 years. Cochlear implantation was carried out on left side when he was 6 years old and on right side when he was 7 years old. Seven months after cochlear implantation on left side, his shoulder muscle weakness was found and the genetic analysis showed decreased D4Z4 repeat size in 4qA allele confirming a diagnosis of FSHD. After auditory rehabilitation using electroacoustic stimulation, his hearing and speech perception were much improved. This case suggests that cochlear implantation can be beneficial in patients with SNHL associated with FSHD.
Alleles ; Child, Preschool ; Cochlear Implantation* ; Cochlear Implants* ; Diagnosis ; Facial Paralysis ; Hearing ; Hearing Aids ; Hearing Loss ; Hearing Loss, Bilateral ; Hearing Loss, Sensorineural* ; Humans ; Leg ; Male ; Muscle Weakness ; Muscular Dystrophy, Facioscapulohumeral* ; Rehabilitation ; Shoulder ; Speech Perception

Middle ear implantation is indicted for patients who have sensorineural, conductive or mixed hearing loss when conventional surgery or hearing aids do not producde sufficient improvement. This study reports the long-term results of an active middle ear implant, the Vibrant Soundbridge® (VSB) implantation, in a patient with unilateral congenital aural atresia (CAA). VSB was implanted for hearing rehabilitation after failed canaloplasty in a 15-year-old girl. After exposure of deformed ossicle, the floating mass tranceducer was coupled to the stapes head and subsequent subtotal petrosectomy was completed. Preoperative pure-tone air conduction threshold was 68.8 dB, which improved to 15 dB at one year of surgery. The mean aided free field speech discrimination in quiet was 98%. The speech understanding in noise evaluated by the composite score of Hearing-In-Noise test improved from SNR −2.5 dB to −5.2 dB. We present a first report of VSB implantation in a patient with unilateral CAA in Korea. The patient showed a significant hearing gain after the implantation of VSB; moreover, her hearing in noisy environment also showed improvement.
Adolescent ; Female ; Head ; Hearing ; Hearing Aids ; Hearing Loss ; Hearing Loss, Mixed Conductive-Sensorineural ; Humans ; Korea ; Noise ; Ossicular Prosthesis ; Rehabilitation ; Speech Perception ; Stapes

The first cochlear implant was approved about 30 years ago. It just provided a limited sensation of sound and facilitated lip-reading based communication. Recent advances in the cochlear implant system and surgical techniques have enabled the majority of recipients to communicate orally without visual cues. The cochlear implantation has become a standard means of auditory rehabilitation for profound sensorineural deafness. To evaluate candidacy for cochlear implantation, an objective and behavioural audiological test, imaging and functional studies to identify the status of the cochlea and the auditory nerve, and evaluation of additional medical conditions are needed. Although the cochlear implantation can restore auditory function, sound perceived with the cochlear implant is different from normal hearing. Therefore postoperative rehabilitation is crucial for good speech performance. Nowadays, the indications for cochlear implantation have been extended. Hearing loss patients with residual low-frequency hearing could be candidates for cochlear implantation. Therefore, residual hearing preservation during cochlear implantation has been an important issue. In addition, bilateral cochlear implantation, cochlear implantation for single-sided deafness and fully implantable cochlear implant systems have been receiving more attention. The purpose of this article is to review current knowledge concerning the cochlear implantation.
Cochlea ; Cochlear Implantation* ; Cochlear Implants* ; Cochlear Nerve ; Cues ; Deafness ; Hearing ; Hearing Loss ; Hearing Loss, Sensorineural ; Humans ; Rehabilitation* ; Sensation

Patients with hearing loss have been increasing according to the extension of lifespan. Recently, new technology which solves the limitation of conventional hearing aids has been developed. For example, the active middle ear implantation which can directly transfer the vibration energy to the ossicles and inner ear fluid can avoid the feedback and occlusion effect, because this device uses the electromagnetic transducer, not a microphone. Active middle ear implants give more clear sounds and more gain in high frequency area. This device can apply to the patients with ski-sloping hearing loss and severe mixed hearing loss. In the paper, we reviewed the benefits and ideal candidates of the middle ear implant.
Ear, Inner ; Ear, Middle ; Hearing ; Hearing Aids ; Hearing Loss ; Hearing Loss, Mixed Conductive-Sensorineural ; Humans ; Magnets ; Ossicular Prosthesis* ; Rehabilitation ; Transducers ; Vibration

Social concerns about sensorineural hearing loss have been increasing with the advent of an aging society. As most hearing loss is incurable and permanent, audiologic rehabilitation is the only option for restoring hearing. Sensorineural hearing loss includes both sensory loss of the cochlea and functional loss of the 8th cranial nerve. Because sensorineural hearing loss patients often have difficulty in understanding and locating specific sounds amidst the other ambient noise, functional amplification with hearing aids in sensorineural hearing loss is challenging work. By applying digital signal processing techniques to hearing aids, hearing rehabilitation has undergone remarkable development in recent years. Herein, the basic concepts underlying digital signal processing are reviewed briefly, followed by a short historical background of hearing aid development. The principles of hearing aid selection, counselling, frequent problems encountered in hearing aid fitting and validation are also discussed.
Aging ; Cochlea ; Correction of Hearing Impairment ; Cranial Nerves ; Hearing ; Hearing Aids* ; Hearing Loss ; Hearing Loss, Sensorineural* ; Humans ; Noise ; Rehabilitation* ; Signal Processing, Computer-Assisted

Sensorineural hearing loss is one of the most common chronic clinical disorders that we can easily encounter. The etiology of sensorineural hearing loss is multifactorial: congenital, idiopathic, traumatic, noise-induced, head injury induced, infectious disease, drug induced, degenerative, immune disorder, vestibular schwannoma and Meniere's disease. Many people are living with the discomfort of hearing loss because fundamental treatment is has not yet been found. Also due to the progress of medical science, human life span has been extended. As the result, the number of patients suffering from hearing loss has increased. But the present situation does not measure up to the demand for recovery of hearing loss. Hearing loss has a great influence on the quality of life. To overcome this situation, neural prostheses such as the cochlear implant and auditory brainstem implant are helpful for the rehabilitation of total deaf patients. Recently, due to the advancement of studies related to hair cell regeneration and the field of gene therapy on the inner ear has made big progress during the last few years. The purpose of this study is to describe the latest known causes and rehabilitation of sensorineural hearing loss.
Auditory Brain Stem Implants ; Cochlear Implants ; Communicable Diseases ; Correction of Hearing Impairment ; Craniocerebral Trauma ; Ear, Inner ; Genetic Therapy ; Hair ; Hearing Loss ; Hearing Loss, Sensorineural* ; Hearing* ; Humans ; Immune System Diseases ; Meniere Disease ; Neural Prostheses ; Neuroma, Acoustic ; Quality of Life ; Regeneration ; Rehabilitation*

No abstract available.
Hearing Loss, Sensorineural* ; Rehabilitation*