Congenital ear malformation (CEM)

Innovated surgery incision for patients of congenital malformation of the middle and outer ear with infection (CMMOEI)

BACKGROUND

It is the challenging clinical issue of combining debridement of infected lesions and retaining the blood skin flap for auricle reconstruction in patients of Congenital Malformation of the Middle and Outer Ear with Infection (CMMOEI).

AIMS/OBJECTIVES

To innovate and introduce an surgery incision to solve the challenging clinical issue of a combined debridement of infection yet retaining a well vascularized skin flap for auricle reconstruction in patients with CMMOEI.

MATERIAL AND METHODS

A combined innovated incision of ear sulcus and prefabricated earlobe was used for 23 cases (23 ears) with CMMOEI, The success in the management of the encountered infections, and the short and moderate-term outcome of the innovated incision to preserve a well-vascularized skin flap for subsequent auricle reconstruction were reviewed. The 23 cases include 10 males and 13 females, aged 4-14 years (mean 8.4 years), 7 left ears and 16 right ears. 14 ears stenosis and 9 ears atresia of the outer ear canals.

RESULTS

In all 23 cases, the infections were successfully cleared without recurrence or complication with 2-year follow-up. The local skin flap and its blood supply were well preserved for subsequent auricle reconstruction.

CONCLUSIONS AND SIGNIFICANCE

The new incision can facilitate clearance of infection in CMOMEI patients, and preserve the retroauricular tissues for subsequent harvesting of a well-vascularized skin flap for subsequent auricle reconstruction.

New strategies and methods for reconstruction of the outer ear canal (OEC)

Background: The incidence of re-stenosis or re-atresia after reconstruction of the Outer Ear Canal (OEC) in patients with Congenital Malformation of the Middle and Outer Ear (CMMOE) is very high (up to 48%), and it has been a difficult problem for otologists not being able to solve.Aims/Objectives: To explore new strategies and methods to improve re-stenosis or re-atresia after reconstruction of the OEC in patients with CMMOE.Material and Methods: According to the characteristics of reconstructed OEC (r-OEC) re-stenosis or re-atresia summarized by us, a number of new prevention strategies and methods have been proposed and related patent products have been designed, including the improvement of covering epithelium types and skin grafting methods (7 types), simulated drum ring function to prevent the formation of negative pressure in the cavity, and strengthen postoperative support to reduce skin shrinkage and bone hyperplasia. The postoperative effects of different ages and preoperative OEC malformations are statistically analyzed.Results: The incidence of re-stenosis/re-atresia is 14.3% (5/35) in the thin sectional skin of the temporal scalp overlap splicing skin grafting, which was significantly better than 45.5% (15/33) in the whole piece mosaic splicing and barrel skin grafting from the inner thin sectional thigh skin and overlay splicing other methods, including the inner thigh thin sectional skin, chest medium thick skin and subcutaneous pedicle + chest medium thick skin (p<0.05). The patent artificial drum ring and the model stent of the OEC have obvious effects. The mean operation age of postoperative atresia, stenosis, and good groups are 9.3, 13.1, and 12.5 years old, respectively. The proportion of preoperative atresia is 91.3%, 85.7%, and 57.7%, respectively. The total incidence of re-atresia and re-stenosis of r-OEC for two groups of atresia and stenosis of OEC before surgery is 40.5% (49/121) and 13.3% (8/60), respectively.Conclusions and Significance: The best result is found in overlapping the splicing thin sectional skin of the temporal scalp, combined with artificial drum ring implantation, effective support of postoperative model stent of OEC and post-pubertal surgery selection are new and effective strategies and methods to prevent re-stenosis or re-atresia of r-OEC. Atresia or stenosis of the OEC before the operation is the influence factor of the postoperative effect.

Relationship between congenital malformation of the outer ear and hearing

Background: There is no report on the relationship between congenital malformation of the outer ear and hearing, which makes it possible to predict the hearing level just based on microtia grades.Aims/Objectives: To investigate the correlation between two types of congenital malformation of the outer ear [microtia and Outer Ear Canal Malformation (OECM)] and hearing, as well as the interrelationship among all three variables.Material and methods: A total of 535 cases (598 ears) of congenital malformation of the middle and outer ear (CMMOE) with hearing data, out of which 319 cases (349 ears) microtia with available images and graded by I-V, 449 cases (482 ears) OECM graded by atresia, stenosis and normal, and 87 cases (87 ears) OEC atresia graded I-IV, 301 cases (301 ears) with materials of microtia, OECM and hearing at the same time were carried out correlation analysis. The Average Air-Conduction Threshold of pure tone (AACT) at 0.5-4 KHz was calculated corresponding to the ears with different malformation grades. The differences in AACT among different malformation grades, the correlation between malformation severity and AACT, as well as the relationship among microtia, OECM and AACT were analyzed. The one-way analysis of variance (ANOVA) was employed to compare the differences in AACT, Kendall's tau-b rank correlation coefficient test was used for correlation analysis. A statistical significance level of p < 0 .05 was applied.Results: Among the 349 ears with microtia, the corresponding AACT values for grades I to V were 61.6, 63.0, 69.9, 75.4, and 75.0 (dB HL), respectively. Comparing grade III to grades II or IV, both p < 0 .05. However, p > 0 .05 between grade I and II or between grade IV and V. The correlation coefficient between microtia grades and AACT r = 0.219, p < 0.05. Among the 482 ears of OECM, the distribution was as follows: 73.6% atresia, 19.1% stenosis, and 7.3% normal, the corresponding AACT values were 64.1, 61.7, and 52.5 (dB HL), respectively. Comparing normal to stenosis or atresia, both p < 0.05, while between atresia and stenosis p > 0.05. The correlation between OECM and AACT was r = 0.104, p < 0.05. The AACT values corresponding to grades I to IV of OEC atresia in the 87 ears were 59.9, 65.1, 71.1, and 64.1 (dB HL), respectively. Comparing these grades, all p > 0.05. The correlation between the degree of atresia and AACT r = 0.23, p < 0 .05. The correlation coefficients for 301 ears microtia to OECM, microtia to AACT, OECM to AACT were r = 0.339, r = 0.163 and r = 0.128 respectively, with all p < 0 .05.Conclusion and significance: There are positive correlations among the degree of microtia, degree of OECM, and AACT values for each other, and so between the degree of OEC atresia and AACT, suggesting that as the severity of microtia or OECM increased, the AACT also tended to be higher, which make it possible to predict the hearing level and the degree of OECM based on microtia grades in clinical practice. Additionally, there are significant differences in AACT values in microtia grade III to grades II or IV, OEC normal to stenosis or atresia, while no differences in microtia grade I to II and grade IV to V, OEC stenosis to atresia, and among the grades I-IV of the OEC atresia.

A clinical epidemiological study on congenital ear malformation (CEM)

BACKGROUND

There is no report about the definition, classification and clinical epidemiological study of congenital ear malformation (CEM).Aims/Objectives: To investigate the definition, clinical classification and distribution of a large number of CEM cases, along with the clinical and epidemiological characteristics associated with congenital malformation of the middle and outer ear (CMMOE).

MATERIAL AND METHODS

A total of 3231 cases (4714 ears) with CEM and related malformations were retrospectively analyzed, including 2,658 cases (4,064 ears) CEM and 573 cases (650 ears) preauricular fistulas and accessory ears, specifically related malformations to CEM.

RESULTS

Among the 2,658 cases (4,064 ears) CEM, 64.9% cases were male and 35.1% were female. 52.9% cases with bilateral, 29.1% with right and 18.0% with left CEM. A subgroup of 1,050 cases (1,331 ears) was identified as CMMOE out of 1,090 cases (1,379 ears) microtia. In the CMMOE subgroup, 74.0% cases were male, 46.3% on the right side, 26.8% showed bilateral involvement. Out of the CMMOE with available images, there were 947 cases (1,105 ears). Additionally, related malformations including preauricular fistulas and accessory ears, were solely occured in 573 cases (650 ears), except for their occurrence simultaneously with CEM. The classification and distribution of CEM are as follows:1. 2658 cases of CEM (1) 69.9% of them were confined to the ear, including: ① the outer ear 2.6%, the middle ear 17.0% and the inner ear 32.4%, ② two parts simultaneous malformations of the outer ear, the middle ear and the inner ear 17.2%, ③ three parts simultaneous malformations of the outer ear, the middle ear and the inner ear 0.6%, (2) Multiple malformations including in CEM 29.1%; (3) syndromes related to CEM 1.0%.2. 1050 cases of CMMOE (1) 36.3% of them were confined to the middle and outer ears; (2) Multiple malformations associated with CMMOE 61.4%, including hemifacial microsomia 50.5%, accessory ears 9.8%, preauricular fistulas 9.2%, heart malformation 7.1%, and kidney malformation 2.0%; and (3) syndromes related to CMMOE 2.3%, (4) Complications of the ear 16.9%, mainly including otitis media 7.9%, outer ear canal cholesteatoma 6.3%, retroauricular abscess 1.1%, and nasal and pharyngeal complications 18.6%. The proportions of microcia grades I-Ⅴ based on the images of 1105 ears CMMOE were 5.2%, 10.5%, 74.1%, 6.9%, and 3.3%, respectively. Among the 1331 ears CMMOE, the incidence rates of outer ear canal atresia, stenosis, normal, and ossicles malformation were 86.5%, 9.9%, 3.6%, and 98.3%, respectively.Conclusion and Significance: Approximately 69.9% of CEM cases were confined to the ear itself, with the highest proportion being inner ear malformation alone. Multiple malformations were predominantly associated with CMMOE. Syndromes related to CEM were relatively rare. Among cases of microtia, 96.3% were classified as CMMOE. These cases were predominantly observed in males, right ear and exhibited characteristics such as grade III microtia, atresia of the outer ear canal, ossicles malformation, and multiple malformations. The multiple malformations frequently included hemifacial microsomia, accessory ear, preauricular fistula, as well as heart and kidney deformities. CMMOE often coexisted with ear infections, cholesteatoma, and complications in the nasal and pharyngeal regions.

Analysis of the effectiveness of hearing solutions for congenital malformation of the middle and outer ear (CMMOE)

BACKGROUND

There are no reports about comprehensive comparative analysis of the effects after various hearing surgery solutions for congenital malformation of the middle and outer ear (CMMOE).

AIMS/OBJECTIVES

To analyze the improvement of Average Air-Conduction Threshold (AACT) of pure tone after various hearing surgery solutions for CMMOE and provide a reference for the selection of accurate hearing solutions.

MATERIALS AND METHODS

A retrospective analysis of 159 cases (170 ears) with CMMOE submitted to various ear surgery solutions, including: (1) Three situations of outer ear canal (OEC): ① atresia 85 ears, ② stenosis 28 ears, and ③ normal 57 ears. (2) Three commonly used hearing solutions: eardrum repair 53 ears, Porp 44 ears and Piston 32 ears implantation. (3) Three OEC situations with different hearing solutions: type I. Reconstruction of OEC (r-OEC), type II. r-OEC and/or different tympanoplasty, including ① eardrum repair, ② release of ossicular chain, ③ Porp implantation, and ④ Torp implantation, type III. Piston implantation with fenestration of the inner ear. Compare AACT of postoperative short term (0.5 years) or long term (0.5-10 years) and preoperative in the speech frequency range of 0.5-4 kHz to assess efficacy. If the sample number ≥10, and not subject to normal distribution, the Kruskal-Wallis multi-sample rank sum test is used for the comparison of multiple groups and Wilcoxon's rank sum test for two groups, with P < 0.05 being statistically significant. If the sample size <10, the standard of clinical efficacy is one frequency improvement value ≥15 dB HL, or 10 dB HL ≤2 frequency improvements <15 dB HL at 0.125-8 KHz.

RESULTS

Intra-group comparison of AACT: (1) three situations of OEC: atresia, stenosis and normal all had P < 0.05 postoperatively in short term, while in long term only the normal group had P < 0.05. (2) Three commonly used hearing solutions: eardrum repair, Porp and Piston implantation all had P < 0.05 in short and long terms, except for eardrum repair P >0 .05 in long term. (3) Three OEC situations with different hearing solutions: 1) Atresia of OEC: Porp and Piston implantation, r-OEC and release of ossicular chain were effective in short term and were not effective in long term, and the eardrum repair was not effective in both short and long term. 2) Stenosis of OEC: eardrum repair, Porp and Piston implantation were effective in short and long term. r-OEC P >0 .05 for short and long term, Torp implantation was not effective in long term, 3) Normal of OEC: Porp, Torp and Piston implantation were all P < 0.05 in short and long term except for Torp >0.05 in long term, and release of ossicular chain is both short and long term clinically effective. The AACT values of postoperative in long term for three groups of atresia, stenosis, normal of OEC are over 58.7 dB HL (except Porp implantation 52.5 dB HL), 51.3 dB HL (except Porp implantation 42.5 dB HL), and 37.5 dB HL (except Torp implantation are 32.6 dB HL), respectively.

CONCLUSIONS AND SIGNIFICANCE

Intra-group comparison of AACT. (1) Three groups of the atresia, stenosis and normal of OEC are all effective in short term, while in long term only the normal group is effective. (2) The three most commonly used surgical solutions of eardrum repair, Porp and Piston implantation are effective in short and long terms, except for long term eardrum repair. (3) Three OEC situations with different hearing solutions: some of surgical solutions were effective in short term or long term for CMMOE, but based on the AACT values of postoperative in long term for three OEC situations, it is better to choose a hearing device for atresia of OEC, comprehensive review of surgical or hearing device for stenosis of OEC. Surgery can be considered for normal OEC.