[Blast and explosion traumas-effects on the middle and inner ear based on the example of Bundeswehr foreign missions]. / Knall- und Explosionstraumata ­ Auswirkungen auf Mittel- und Innenohr am Beispiel von Auslandseinsätzen der Bundeswehr.

Despite all protective measures, blast and explosion traumas are a frequent pattern of injury in Bundeswehr missions abroad. Due to body protection measures, head injuries, particularly of the ears, are higher in number compared to injuries in other regions of the body. Perforations of the tympanic membrane are the most frequent lesions of the middle ear, acute sensorineural hearing loss is the most frequent lesion of the inner ear, often accompanied by tinnitus and dizziness. With a high spontaneous recovery rate, prompt specialist care for these injuries is provided according to medical standards comparable to those in the home country.

With and without exogenous biological scaffolds for repairing traumatic perforations of tympanic membrane: Randomized clinical trials.

OBJECTIVE: The objective of this study was to compare the efficacy of ofloxacin ear drops, vaseline gauze (VG) and dry gelfoam alone on the large traumatic perforations of tympanic membrane (TM). MATERIAL AND METHODS: A randomized prospective analysis was performed for the treatment of traumatic perforation larger than 25 % of the entire TM. The closure rate, closure time, and hearing gain between ofloxacin ear drops, VG and gelfoam alone groups were compared at 3 months. RESULTS: Final analysis was performed on 70 patients. The closure rates of perforation in the ofloxacin ear drops, VG, and dry gelfoam patch groups were 100.0 %, 92.0 %, and 87.5 %, respectively (P = 0.41).The mean closure times were 8.67 ± 3.1, 10.65 ± 4.2, and 14.33 ± 7.5 days for the ofloxacin ear drops, VG, and gelfoam patch alone groups, respectively. The closure times among the 3 groups were significantly different (P = 0.003). In addition, there was a significant difference between the ofloxacin ear drops and gelfoam patch alone groups with regard to closure time (P = 0.003), while there was no significant difference between the ofloxacin ear drops and VG groups (P = 0.080) or VG and gelfoam patch groups (P = 0.056).The mean hearing gain was 11.4 ± 2.3 dB for the ofloxacin ear drops group, 11.7 ± 4.1 dB for the VG group, and 12.2 ± 1.6 dB for the gelfoam patch group (P = 0.69). CONCLUSIONS: The repairing of traumatic perforations didn't require an exogenous biological scaffold. Ofloxacin ear drops and VG were a deal material for repairing traumatic perforation in otology clinic, which not only was readily available and inexpensive but also showed faster closure compared with dry gelfoam alone.

Decellularized tympanic membrane scaffold with bone marrow mesenchymal stem cells for repairing tympanic membrane perforation.

BACKGROUND: Tympanic membrane perforation (TMP) is a common disease in otology, and few acellular techniques have been reported for repairing this condition. Decellularized extracellular matrix (ECM) scaffolds have been used in organ reconstruction. OBJECTIVE: This study on tissue engineering aimed to develop a tympanic membrane (TM) scaffold prepared using detergent immersion and bone marrow mesenchymal stem cells (BMSCs) as repair materials to reconstruct the TM. RESULTS: General structure was observed that the decellularized TM scaffold with BMSCs retained the original intact anatomical ECM structure, with no cell residue, as observed using scanning electron microscopy (SEM), and exhibited low immunogenicity. Therefore, we seeded the decellularized TM scaffold with BMSCs for recellularization. Histology and eosin staining, SEM and immunofluorescence in vivo showed that the recellularized TM patch had a natural ultrastructure and was suitable for the migration and proliferation of BMSCs. The auditory brainstem response (ABR) evaluated after recellularized TM patch repair was slightly higher than that of the normal TM, but the difference was not significant. CONCLUSION: The synthetic ECM scaffold provides temporary physical support for the three-dimensional growth of cells during the tissue developmental stage. The scaffold stimulates cells to secrete their own ECM required for tissue regeneration. The recellularized TM patch shows potential as a natural, ultrastructure biological material for TM reconstruction.

Mesenchymal Stem Cells for Treatment of Delayed-Healing Tympanic Membrane Perforations Using Hyaluronate-based Laminas as a Delivery System: An Animal Model With Histopathologic Study.

HYPOTHESIS: Bone marrow derived-mesenchymal stem cells (BM-MSCs) improve the healing of chronic tympanic membrane perforations (cTMPs) in an animal model. BACKGROUND: cTMPs generate significant morbidity and reduced quality of life, usually requiring surgical assistance. With growing interest in alternative therapies, we sought to evaluate the effect of BM-MSC-therapy on the healing of cTMPs. METHODS: Sixty cTMPs were established in C57Bl/6 mice and randomized into four groups: hyaluronate scaffold as graft plus BM-MSCs (n = 19 ears), scaffold plus cell culture media (n = 16), scaffold plus phosphate-buffered saline (PBS, n = 12), and no intervention (n = 13). Hyaluronate scaffolds with or without BM-MSCs were applied on 8-week perforated eardrums. After a blinded assessment of perforation sizes at baseline and 2 weeks after treatment, mean perforation reduction rates (%) were compared. Histology characterization was then performed. RESULTS: Mean perforation size reduction rates were significantly higher for cTMPs that received scaffolds plus BM-MSCs (Student's t test, p = 0.0207, 12.3% [95% CI: 7.8-16.7]) and scaffolds plus cell culture media (p = 0.0477, 11.3% [95% CI: 4.4-18.2]) when compared with no intervention (4.2% [95% CI: 1.2-7.2]). This was not observed when treating eardrums with scaffolds plus PBS (7.3% [95% CI: 2.7-11.9]). On histology, BM-MSC-treated eardrums demonstrated restoration of the trilaminar configuration and reduced inflammatory changes, while other groups developed tissue architecture disorganization and hypercellular infiltrates surrounding the perforation site. CONCLUSIONS: BM-MSCs and cell culture media equivalently increased cTMP healing rates. Cell-based therapy conferred a restoration of the trilaminar configuration of the eardrum with relatively compact and organized fibrous layers.

Multifaceted tannin crosslinked bioinspired dECM decorated nanofibers modulating cell-scaffold biointerface for tympanic membrane perforation bioengineering.

Tympanic membrane (TM) perforation leads to persistent otitis media, conductive deafness, and affects life quality. Ointment medication may not be sufficient to treat TM perforation (TMP) due to the lack of an underlying tissue matrix and thus requiring a scaffold-based application. The engineering of scaffold biointerface close to the matrix via tissue-specific decellularized extracellular matrix (dECM) is crucial in instructing cell behaviour and regulating cell-material interaction in the bioengineering domain. Herein, polycaprolactone (PCL) and TM-dECM (from Sprague-Dawley rats) were combined in a different ratio in nanofibrous form using an electrospinning process and crosslinked via tannic acid. The histological and biochemical assays demonstrated that chemical and enzymatic decellularization steps removed cellular/immunogenic contents while retaining collagen and glycosaminoglycan. The morphological, physicochemical, thermomechanical, contact angle, and surface chemical studies demonstrated that the tannin crosslinked PCL/dECM nanofibers fine-tune biophysical and biochemical properties. The multifaceted crosslinked nanofibers hold the tunable distribution of dECM moieties, assembled into a spool-shaped membrane, and could easily insert into perforated sites. The dECM decorated fibers provide a preferable biomimetic matrix for L929 fibroblast adhesion, proliferation, matrix adsorption, and f-actin saturation, which could be crucial for bioengineering. Overall, dECM patterning, surface hydrophilicity, interconnected microporosities, and multifaceted nanofibrous biosystem modulate cell-scaffold performance and could open opportunities to reconstruct TMP in a biomimetic fashion.

Bioprinted Collagen-Based Cell-Laden Scaffold With Growth Factors for Tympanic Membrane Regeneration in Chronic Perforation Model.

With the recent development of bioprinting technology, various attempts have been made to replace bioprinting technologies and regenerative medicine are more directed towards transplantation/reconstructive surgeries only with the implantation of scaffolds. The purpose of this study is to determine whether the growth factors, human umbilical cord serum (hUCS) and bFGF (basic fibroblast growth factor), have a synergistic effect on eardrum regeneration, when used with a cell-printed scaffold in a chronic tympanic membrane perforation (TMP) model. In this study, in vitro cellular activities for bioprinted cell-laden collagen scaffolds using human adipose stem cells (hASCs) and supplemented with 10 [Formula: see text]/mL hUCS and 10 ng/mL bFGF were performed. The mixture of the growth factors in the cell-laden structures effectively affects various in vitro cellular responses including the proliferation of hASCs and the migration of keratinocytes due to the synergistic effect of the growth factors and hASCs. For the in vivo evaluation, a rat TMP model was used, and the TMP regeneration was assessed by otoscopic examination, hearing threshold measurement, and histologic examination. Although the cell-laden structure containing hUCS was more enhancing effect compared to the structure with bFGF, more synergistic effect in the structure using hUCS/bFGF was observed. Based on the results, we believe that the cell-laden structure incorporating hUCS and bFGF can induce significant regeneration of chronic tympanic membrane perforation.

[Hearing dynamics in acute traumatic perforation of the tympanic membrane after application of blood plasma enriched with platelet growth factors]. / Regeneratsiya barabannoi pereponki i otsenka dinamiki slukha pri ostroi travmaticheskoi perforatsii barabannoi pereponki posle applikatsii plazmy krovi, obogashchennoi trombotsitarnymi faktorami rosta.

OBJECTIVE: The article considers the possibility of treating patients with acute traumatic perforation of the eardrum with a single application of blood plasma enriched with platelet-derived growth factors in the perforation area. As a result of the studies, it was found that the acceleration of its closure and the restoration of hearing. MATERIAL AND METHODS: The study included 43 patients with unilateral acute PBP of various etiologies (Table 1). Patients were divided into 2 groups - the main - 24 patients (10 men and 14 women), the average age - 30±9.7 years and the control - 19 patients (9 men and 10 women), the average age - 26.5±6.37 years. The compared groups did not reliably differ in age, gender, frequency and severity of hearing impairment. RESULTS: Analyzing the results, we can confidently talk about the beneficial effect of blood plasma enriched in platelet-derived growth factors on the speed, completeness of closure of traumatic perforation of the eardrum and the dynamics of restoration of auditory function. The use of blood plasma enriched with platelet growth factors led to a regular reduction in the time and increase in the frequency of cases of early closure of perforated eardrum, as well as improvement and restoration of auditory function according to the results of tonal threshold audiometry and otoacoustic emission in dynamics. CONCLUSION: Being generally available even in outpatient practice, the method of a single application of blood plasma enriched with platelet growth factors in the area of perforation of the tympanic membrane can significantly accelerate the healing process of the tympanic membrane, while improving the quality of life of the patient.

Paper Patching Versus Watchful Waiting of Traumatic Tympanic Membrane Perforations: A Meta-Analysis.

OBJECTIVES/HYPOTHESIS: The aim of the study was to investigate the healing rates, the restoration of hearing, and the time for complete healing of paper patching versus watchful waiting for traumatic tympanic membrane perforations (TTMPs). STUDY DESIGN: Systematic review with meta analysis. METHODS: Publications were selected by a search on "PubMed," "Embase," and "Web of Science." A meta-analysis of risk ratios for paper patching (intervention arm) and watchful waiting (control arm) was performed. RESULTS: Five studies describing 393 TTMPs were included in the quantitative meta-analysis. TTMP healing rates ranged between 84.2% and 95.2% in the intervention arm and between 76.7% and 84.8% in the control arm. The pooled risk ratio of healed TTMPs was significantly higher in the intervention arm than in the control arm (risk ratio: 1.12, 95% confidence interval: 1.04-1.21). CONCLUSIONS: TTMPs have high healing potential with and without intervention. The healing rate of paper patching was superior to that of watchful waiting alone. LEVEL OF EVIDENCE: NA Laryngoscope, 131:2091-2097, 2021.

Multicenter phase III trial of regenerative treatment for chronic tympanic membrane perforation.

OBJECTIVE: To evaluate the efficacy and safety of regenerative treatment for tympanic membrane perforation (TMP) using gelatin sponge, basic fibroblast growth factor (bFGF), and fibrin glue. METHODS: This was a multicenter, non-randomized, single-arm study conducted at tertiary referral centers. Twenty patients with chronic TMP (age 23-78 years, 6 males, 14 females) were registered from three institutions. All treated patients were included in the safety analysis population. The edges of the TMP were disrupted mechanically by myringotomy and several pieces of gelatin sponge immersed in bFGF were placed and fixed with fibrin glue to cover the perforation. The TMP was examined 4 ± 1 weeks later. The protocol was repeated up to four times until closure was complete. The main outcome measures were closure or a decrease in size of the TMP, hearing improvement, and air-bone gap evaluated 16 weeks after the final regenerative procedure (FRP). Adverse events (AEs) were monitored throughout the study. RESULTS: Total closure of the TMP at 16 weeks was achieved in 15 out of 20 patients (75.0%, 95% confidence interval [CI]: 50.9%-91.3%) and the mean decrease in size was 92.2% (95%CI: 82.9%-100.0%). The ratio of hearing improvement and the air-bone gap at 16 weeks after FRP were 100% (20/20; 95%CI: 83.2%-100%) and 5.3 ± 4.2 dB (p <0.0001), respectively. Thirteen out of 20 patients (65.0%) experienced at least one AE, but no serious AEs occurred. CONCLUSION: The results indicate that the current regenerative treatment for TMP using gelatin sponge, bFGF, and fibrin glue is safe and effective.

[Spontaneous course of traumatic tympanic membrane perforations]. / Spontaner Heilungsverlauf traumatischer Trommelfellperforationen.

BACKGROUND: Traumatic eardrum perforation is a common presentation in otorhinolaryngologic practices and emergency clinics. A consistent management strategy (active intervention vs. watchful waiting) is, however, still lacking. OBJECTIVE: In the following study, the outcome of watchful waiting is analyzed and presented. MATERIALS AND METHODS: A collective of 272 patients presenting at two different specialist ENT practices within days of traumatic tympanic membrane perforation from June 2002 to March 2019 were analyzed. Treatment was non-surgical, with prospective monitoring. Whereas antibiotics were not given at all in one practice, they were given only upon signs of infection in the other practice. The outcome was evaluated retrospectively on the basis of patient files. RESULTS: The collective consisted of 185 males and 87 females. Mean age was 30 years (range: 7 months to 82 years). The perforations were most commonly located in the upper anterior and lower posterior quadrants. According to Griffin grading, the size was grade I in 97%. The three most common causes were impact to the ear, barotrauma, and foreign bodies. Under a watchful waiting regimen, 95% of the patients presenting for follow-up checks showed complete closure. CONCLUSION: Watchful waiting can be assessed as appropriate in traumatic eardrum perforation, provided otorhinolaryngologic follow-up is ensured. An exception is blast injury, which is now much less common in Central Europe, as this is associated with a risk of secondary cholesteatomas. In these rare cases, active treatment with surgical exploration of the middle ear including relining the perforation is indicated.

Necessities, opportunities, and challenges for tympanic membrane perforation scaffolding-based bioengineering.

Tympanic membrane (TM) perforation is a global clinical dilemma. It occurs as a consequence of object penetration, blast trauma, barotrauma, and middle ear diseases. TM perforation may lead to otitis media, retraction pockets, cholesteatoma, and conductive deafness. Molecular therapies may not be suitable to treat perforation because there is no underlying tissue matrix to support epithelium bridging. Chronic perforations are usually reconstructed with autologous grafts via surgical myringoplasty. Surgical treatment is uncomfortable for the patients. The grafting materials are not perfect because they produce an opaque membrane, fail in up to 20% of cases, and are suboptimal to restore acoustic function. Millions of patients from developing parts of the world have not got access to surgical grafting due to operational complexities, lack of surgical resources, and high cost. These shortcomings emphasize bioengineering to improve placement options, healing rate, hearing outcomes, and minimize surgical procedures. This review highlights cellular, structural, pathophysiological, and perforation specific determinants that affect healing, acoustic and surgical outcomes; and integrates necessities relevant to bioengineered scaffolds. This study further summarizes scaffolding components, progress in scaffolding strategies and design, and engenders limitations and challenges for optimal bioengineering of chronic perforation.

Traumatic perforations of the tympanic membrane: immediate clinical recovery with the use of bacterial cellulose film / Perfurações traumáticas da membrana timpânica: recuperação clínica imediata com o uso de fragmento de celulose bacteriana

Abstract Introduction: Perforation of the tympanic membrane is a reasonably frequent diagnosis in otorhinolaryngologists' offices. The expectant management is to wait for spontaneous healing, which usually occurs in almost all cases in a few weeks. However, while waiting for healing to be completed, the patients may experience uncomfortable symptoms. Although some research suggests the use of various materials to aid in the recovery of the tympanic membrane, none presented robust evidence of improvement in the cicatricial process. Nevertheless, the occlusion of the perforation with some material of specific texture and resistance can alleviate the patients' symptoms and accelerate the healing process. Objective: To evaluate the clinical (symptomatic and functional) improvement after the placement of bacterial cellulose film (Bionext®) on tympanic membrane perforations (traumatic). Methods: We evaluated 24 patients, victims of traumatic perforations of the tympanic membrane, who were evaluated in the Otorhinolaryngology Emergency Room. Following otoscopy and audiometric examination was performed, before and after the use of cellulose film occluding the tympanic membrane perforation. Results: Twenty-four patients were included, whose degree of overall discomfort caused by the tympanic membrane perforation and the presence of symptoms of autophonia, ear fullness and tinnitus were investigated. The mean score attributed to the overall annoyance caused by tympanic membrane perforation was 7.79, decreasing to a mean value of 2.25 after the film application. Symptom evaluation also showed improvement after using the film: autophonia decreased from a mean value of 6.25 to 2.08, tinnitus from 7 to 1.92 and ear fullness from 7.29 to 1.96. The auditory analysis showed mean threshold values still within the normal range at low and medium frequencies, with slight hearing loss at acute frequencies, but with significant improvement at all frequencies, with the exception of 8000 Hz, after film use. Conclusion: The use of bacterial cellulose film fragment on traumatic perforations of the tympanic membrane promoted immediate functional and symptomatic recovery in the assessed patients.

Resumo Introdução: A perfuração da membrana timpânica é uma condição clínica relativamente frequente em consultórios de otorrinolaringologistas. A conduta é quase sempre expectante, aguardando cicatrização espontânea, que costuma ocorrer na quase totalidade dos casos em algumas semanas. No entanto, enquanto não se completa, os pacientes mantêm sintomas desconfortáveis. Embora algumas pesquisas sugiram o uso de materiais diversos para auxiliar na recuperação da membrana timpânica, nenhuma apresentou evidência substancial de melhoria no processo cicatricial. Por outro lado, a oclusão da perfuração com alguns materiais de textura e resistência específicas poderia aliviar os sintomas dos pacientes durante o processo cicatricial. Objetivo: Avaliar a melhoria clínica (sintomática e funcional) após a colocação de película de celulose bacteriana (Bionext®) sobre a perfuração da membrana timpânica (traumática). Método: Foram avaliados pacientes com perfurações traumáticas da membrana timpânica que deram entrada no pronto-socorro de otorrinolaringologia. Eles foram avaliados em relação a suas queixas e exame audiométrico, antes e após a aplicação de película de celulose que oclui a perfuração da membrana timpânica. Resultados: Foram incluídos 24 pacientes, nos quais foram pesquisados o grau de incômodo global causado pela perfuração da membrana timpânica e a presença de sintomas de autofonia, plenitude auricular e tinnitus. A média da nota atribuída ao incômodo global causado pela perfuração foi de 7,79; caiu para valor médio de 2,25 após a aplicação da película. A avaliação dos sintomas também apresentou melhoria após uso da película, autofonia caiu de valor médio de 6,25 para 2,08; zumbido de 7 para 1,92 e plenitude auricular de 7,29 para 1,96. A análise auditiva apresentou um valor médio de limiares ainda dentro da normalidade em frequências baixas e médias, com perda de audição leve em frequências agudas, porém com melhoria significante em todas as frequências, com exceção de 8000 Hz, após a colocação da película. Conclusão: A aplicação de fragmento de película de celulose bacteriana sobre perfurações traumáticas da membrana timpânica promoveu recuperação funcional e sintomática imediata nos pacientes estudados.

State of the art regeneration of the tympanic membrane.

PURPOSE OF REVIEW: One of the most common diseases of the tympanic membrane is a perforation, and tympanoplasty is one of the more common procedures in otolaryngology. Tympanic membrane regeneration and bioengineering aim to improve the success rate of the procedure, increase the availability of different scaffolds and provide innovative tools that will simplify the surgical technique and make it accessible for surgeons with varying expertise level. This review aims to raise awareness of current tissue engineering developments in tympanic membrane regeneration and how they may augment current clinical practices. We focus here on achievements in tympanic membrane cell cultures and on innovations in development of new scaffolds and growth factors that enhance regeneration of patient's native tympanic membranes. RECENT FINDINGS: In recent years, great achievements were reached in the field of tympanic membrane regeneration in the three hallmarks of bioengineering: cells, scaffolds and bioactive molecules. New techniques for modeling normal tympanic membrane proliferation were developed, as well as for isolation and expansion of normal tympanic membrane keratinocytes from miniature samples of scarred tissue. Ongoing clinical trials aim to seal the perforation by applying different scaffolds infiltrated by growth factors on the tympanic membrane. SUMMARY: Research efforts in tympanic membrane regeneration continue to seek the ideal single tissue-engineered substitute. Recent advances in tympanic membrane bioengineering include new types of scaffolds that may augment and provide a safe and effective alternative to the current gold-standard autograft. New bioactive molecules may simplify the surgical procedure and reduce surgical time by augmenting the native tympanic membrane regeneration. Several groups of bioengineering scientists and neurotologists are continuing to move forward and develop new strategies, seeking to create a fully functional tissue-engineered tympanic membrane.

Traumatic perforations of the tympanic membrane: immediate clinical recovery with the use of bacterial cellulose film.

INTRODUCTION: Perforation of the tympanic membrane is a reasonably frequent diagnosis in otorhinolaryngologists' offices. The expectant management is to wait for spontaneous healing, which usually occurs in almost all cases in a few weeks. However, while waiting for healing to be completed, the patients may experience uncomfortable symptoms. Although some research suggests the use of various materials to aid in the recovery of the tympanic membrane, none presented robust evidence of improvement in the cicatricial process. Nevertheless, the occlusion of the perforation with some material of specific texture and resistance can alleviate the patients' symptoms and accelerate the healing process. OBJECTIVE: To evaluate the clinical (symptomatic and functional) improvement after the placement of bacterial cellulose film (Bionext®) on tympanic membrane perforations (traumatic). METHODS: We evaluated 24 patients, victims of traumatic perforations of the tympanic membrane, who were evaluated in the Otorhinolaryngology Emergency Room. Following otoscopy and audiometric examination was performed, before and after the use of cellulose film occluding the tympanic membrane perforation. RESULTS: Twenty-four patients were included, whose degree of overall discomfort caused by the tympanic membrane perforation and the presence of symptoms of autophonia, ear fullness and tinnitus were investigated. The mean score attributed to the overall annoyance caused by tympanic membrane perforation was 7.79, decreasing to a mean value of 2.25 after the film application. Symptom evaluation also showed improvement after using the film: autophonia decreased from a mean value of 6.25 to 2.08, tinnitus from 7 to 1.92 and ear fullness from 7.29 to 1.96. The auditory analysis showed mean threshold values still within the normal range at low and medium frequencies, with slight hearing loss at acute frequencies, but with significant improvement at all frequencies, with the exception of 8000Hz, after film use. CONCLUSION: The use of bacterial cellulose film fragment on traumatic perforations of the tympanic membrane promoted immediate functional and symptomatic recovery in the assessed patients.

Hyaluronic acid in otology: Its uses, advantages and drawbacks - A review.

OBJECTIVES: Review of the literature for studies involving the use of hyaluronic acid (HA) in otology. METHODS: Pubmed and OvidMedline were searched using a combination of the following words in different variations: hyaluronic acid, hyaluronate, otolaryngology, otology, ear, tympanic membrane, perforation, tympanostomy, tympanoplasty, myringoplasty, packing, middle ear, cochlea, gene delivery, gene therapy, cochlear implant, hearing loss, meniere, vertigo, otitis and cholesteatoma. RESULTS: The papers relevant for this review were triaged based on abstracts and titles and were then categorized based on topic/disease entity/procedure. The papers were read and summarized in order to use their findings in this review. CONCLUSIONS: HA is being recently used as adjuvant therapy for multiple inflammatory conditions and in tissue repair. These immunomodulatory properties and biocompatibility have interested researchers specially in the field of otology for repair, gene delivery, immunomodulation etc. Recent data in the field show optimistic results for the use of HA in several conditions especially tympanic membrane perforations and gene delivery. It also establishes the role of HA as ancillary treatment in many other otologic pathologies. This review presents the most recent findings on the use of HA in otology. The results could be used to guide clinical practice and incite further research based on the presented results of the literature.

Pediatric partial gelfoam myringoplasty with ventilation tube placement.

OBJECTIVE: For children with a history of persistent Eustachian tube dysfunction (ETD) or otitis media with effusion presenting with recurring tympanic membrane (TM) perforation, surgeons must often balance the treatment goals of correcting the perforation and maintaining ventilation to the middle ear to prevent future perforation formation. A partial gelfoam myringoplasty with ventilation tube placement is a previously unreported procedural option for addressing these goals. The objective of this study is to describe the partial myringoplasty technique and report preliminary outcome data for the procedure. METHODS: Retrospective cohort study of 29 children <18 years old undergoing partial myringoplasty at a tertiary care children's hospital or satellite location. Size and course of initial perforation, time to tube extrusion, audiogram findings, and need for future otological procedures were studied. RESULTS: During a partial myringoplasty, a tympanostomy tube is placed in a TM perforation larger than the tube itself. The edges of the perforation are freshened, a tube is placed, and a piece of gelfoam is inserted to support the tube and to cover any remaining perforation. Out of 32 ears in 29 patients, 23 procedures were completed to correct existing perforations. The remainder were indicated in placement (n = 7) or replacement (n = 2) where the myringotomy or existing perforation was deemed too large to retain the tympanostomy tube without further support due to atelectatic or monomeric tympanic membranes. Thirteen tubes extruded within 1 year, of which 12 were Armstrong tubes and 1 was a T-tube. Out of 25 TM perforations corrected, 4 shrank in size and 2 did not close. For patients who underwent pre-surgical audiograms with findings indicating conductive hearing loss and had post-operative audiograms at follow-up, 8/10 showed improvement and 2/10 showed no change in hearing. CONCLUSION: A partial myringoplasty is a simple procedure to close existing TM perforations while maintaining ventilation to the middle ear that can potentially improve hearing, provide ongoing ventilation, and eventually result in TM closure without the need for more complex repair. It may serve as a reasonable first line treatment for repair of perforations, reserving tympanoplasty for patients who fail this procedure.

Update on treatment options for blast-induced hearing loss.

PURPOSE OF REVIEW: The incidence of blast injuries has increased, and the ear is the highest risk organ. Ear injury induced by blast exposure is important in both military and civilian conditions. The permanent hearing loss caused by blast exposure is associated with a decline in the quality of life. In this review, I describe recent therapeutic strategies for each of the ear pathologies caused by blast exposure. RECENT FINDINGS: For tympanic membrane perforation after blast exposure, basic fibroblast growth factor (bFGF) has been used as a less invasive treatment to repair the tympanic membrane. The closure rates of tympanic membrane perforations treated with bFGF were reported to be comparable to those following conventional tympanoplasty.For sensorineural hearing loss after blast exposure, treatment with neurotrophic factors, such as nerve growth factor (NGF) or neurotrophin-3, antioxidants, and Atoh1 induction have recently been applied, and some of them were considered for clinical application. SUMMARY: Recent advances of therapeutics for blast-induced hearing loss, based on their pathologies, have been outlined. There are several promising therapeutic approaches for both middle and inner ear disorders after blast exposure; however, further research is needed to establish new treatments for blast-induced hearing dysfunction.

Endoscopic tympanoplasty with limited tympanomeatal flap elevation in pediatric cases: comparison of anatomic and audiological results of grafts.

OBJECTIVES: The anatomical and functional success rates of tragal cartilage perichondrium and temporal muscle fascia, in pediatric patients who underwent endoscopic type 1 tympanoplasty with limited tympanomeatal flap elevation, were compared. METHODS: In total, 35 pediatric patients (21 females, 14 males; mean age 11.0 ± 1.5 years; range 8-14 years) who underwent transcanal endoscopic type 1 tympanoplasty with limited elevation of the tympanomeatal flap were included in this study. Patients in group A received a tragal cartilage perichondrium graft and those in group B received a temporal muscle fascia graft. The groups were compared with respect to the pre- and postoperative air-bone gap (ABG) and tympanic membrane status. RESULTS: The mean preoperative and postoperative ABG were 27.0 ± 9.2 and 9.0 ± 8.5 dB in group A, and 26.8 ± 8.8 and 11.6 ± 9.2 dB in group B, respectively. The group differences in pre- and postoperative ABG values were not significant (p = 0.882 and p = 0.417, respectively). However, in both groups, the postoperative ABG was significantly lower than the preoperative ABG (both p = 0.0001). The graft retention rate was 100% in group A and 88.2% in group B; the difference was not statistically significant (p = 0.134). There was also no statistically significant difference between the pre- and postoperative bone conduction values of the patients at 0.5, 1, 2, 3 or 4 kHz (all p > 0.05). CONCLUSIONS: Our study demonstrated that in pediatric patients undergoing endoscopic tympanoplasty, both the tragal cartilage perichondrium and the temporal muscle fascia can be used successfully and safely as grafts in endoscopic type 1 tympanoplasty performed by limited tympanomeatal flap elevation.