Objective To investigate the method and effectiveness of two-stage operation of auricular reconstruction in treating lobule-type microtia. Methods Between March 2007 and April 2010, 19 patients (19 ears) of lobule-type microtia were treated. There were 13 males and 6 females, aged 5 to 27 years (mean, 12.6 years). Of 19 patients, 11 were less than or equalto 14 years old. The locations were left ear in 9 cases and right ear in 10 cases. Two-stage operation for auricular reconstruction of lobule-type microtia included fabrication and grafting of the costal cartilage framework at the first-stage operation and the ear elevation operation at the second-stage operation. Results Pseudomonas aeruginosa infection occurred in 1 patient after the first-stage operation, who was not given the second-stage operation. Skin necrosis occurred in 1 patient 8 days after the secondstage operation and healed after symptomatic treatment. Eighteen patients were followed up 6 months to 2 years (mean,14 months). Retraction of cranioauricular angle and thoracic deformity occurred in 1 patient. The surgical results were satisfactory in the other 17 patients whose reconstructive ear had verisimilar shape and suitable cranioauricular angle. Conclusion Twostage operation of auricular reconstruction is considered to be an ideal method for lobule-type microtia.
Objective To discuss the effects of the temporoparietal fascial flap and the postauricular fascial flap as the materials to cover the postauricular-frame during the second stage operation of the total auricular reconstruction Methods From June 2005 to May 2007, the second stage elevation of the reconstructed auricle was performed at 6-10 months after the first stage total auricular reconstruction for 72 cases (left 31, right 41), 47 males and 25 females, aged 5-28 years old (12on average). According to the Nagata’s classification, 56 cases were lobule-type microtia with no external auditory canal, and the other 16 cases were concha-type microtia with external auditory canal (narrow in 9 cases). Homolateral temporoparietal fascial flap was used to cover the postauricular-frame in 29 patients (group A), and the homolateral postauricular fascial flap was used in the other 43 patients (group B). Results All the patients were followed up for 3-22 months. A total of 55 cases had excellent skin flap and fascial flap (22 in group A and 33 in group B). Darker epidermis could be seen in 15 cases (6 in group A and 9 in group B), and it healed within one month after the operation. Two cases (1 in group A and 1 in group B) suffering from partial grafted skin and fascial flap necrosis (lt; 1 cm2) healed by means of coverage of local flap transfer. All the patients’ reconstructed auriculocephal ic angles were close to the normal side. There existed scars of varying degrees at the area of skin graft in both groups: 47 cases had flat scars (19 in group A and 28 in group B); 18 cases had hyperplastic scars (7 in group A and 11 in group B); and 7 cases had severe scars with the auriculocephal ic angles draw-off (3 in group A and 4 in group B). Furthermore, there were obvious scars in temporal region and severe hair thinning at the donor site in group A, but there were no such conditions in group B. At 6 months of follow-up, reduction of the auriculocephal ic angle occurred in 3 cases of group A and obvious in 5 cases of group B (gt; 0.5 cm). Conclusion Both the temporoparietal fascial flap and the postauricular fascial flap can be appl ied to cover the postauricular-framework in the second stage reconstructed ear elevation, with superiority of the latter over the former.
ObjectiveTo investigate the accuracy of multi-slice spiral CT (MSCT) scan and image reconstruction technology for measuring morphological parameters of costal cartilages and to evaluate the volume of costal cartilages. MethodsBetween March and August 2013, 75 patients with congenital microtia and scheduled for auricle reconstruction were included in the study. Of 75 patients, there were 49 males and 26 females with a mean age of 8 years and 5 months (range, 5 years and 7 months to 32 years and 7 months) and a mean weight of 29.5 kg (range, 21-82 kg). A Philips Brilliance 64 MSCT machine was used to scan 1st-12th costal cartilages with the parameters based on the age and weight of the patients. All the data were transported to the workstation for reconstructing the image of the costal cartilages with the technique of maximum intensity projection (MIP) and volume rendering technique (VRT). Then the morphologies of costal cartilages were observed through the images on VRT; the width of the costal cartilaginous ends close to ribs (W) and the length of the total cartilage (L) were measured and compared with their counterparts (W' and L') after the costal cartilages were harvested during the processes of auricle reconstructions to analyze consistency between these two sets of data. ResultsThe morphologies of ribs and costal cartilages shown on VRT image got fine sharpness, verisimilitude, and stereoscopic impressions. A total of 192 costal cartilages were examined. The results showed that the widths of the costal cartilaginous ends close to ribs (W) was (9.69±1.67) mm, and W' was (9.73±1.64) mm, showing no significant difference between W and W' (t=-1.800, P=0.073), and interclass correlation coefficient (ICC) test showed Cronbach's α=0.993. The length of the total cartilage (L) was (83.03±23.86) mm, and L' was (81.83±16.43) mm, showing no significant difference between L and L' (t=1.367, P=0.173), and ICC test showed Cronbach's α=0.904. Linear-regression analysis showed L=1.28×L'-21.93 (R2=0.780, F=673.427, P=0.000). The results suggested there was a good consistency between these two sets of data. ConclusionScanning costal cartilages with appropriate parameters and reconstructing the cartilaginous image with MIP is an effective method to measure the width and length of costal cartilage and to estimate costal cartilage volume, which can provide accurate reference for plastic surgery together with reading the morphology from the image on VRT.
ObjectiveTo explore the anthropometric changes of the auricle after auricular cartilage unfolding in moderate concha-type microtia patients, so as to provide the basis to help evaluate surgical timing and prognostic.MethodsA total of 33 children with moderate concha-type microtia, who were treated with auricular cartilage unfolding between October 2016 and September 2018 and met the inclusive criteria, were included in the study. There were 24 boys and 9 girls with an average age of 1.4 years (range, 1-3 years). Sixteen cases were left ears and 17 cases were right ears. The follow-up time was 12-23 months (mean, 17.5 months). The affected auricular detailed structures were observed and quantitatively analyzed before operation and at immediate after operation. The width, length, and perimeter of auricle before operation and at immediate after operation and at last follow-up were noted with three dimensional-scanning technology. The normal auricle was noted as control.ResultsThere were (7.5±1.0) and (11.3±0.8) structures of the affected auricle at pre- and post-operation, respectively, showing significant difference between pre- and post-operation (t=23.279, P=0.000). The length, width, and perimeter of the affected auricle constantly increased after operation, and there were significant differences between pre-operation and immediately after operation and between immediately after operation and last follow-up (P<0.05). The differences of length, width, and perimeter of the affected auricle between immediately after operation and last follow-up were (3.13±1.44), (2.44±0.92), and (8.50±3.76) mm, respectively. And the differences of length, width, and perimeter of the normal auricle between pre-operation and last follow-up were (3.16±1.54), (2.35±0.86), and (9.79±4.60) mm, respectively. There was no significant difference in the differences of length, width, and perimeter between the affected auricle and the normal auricle (P>0.05).ConclusionThe auricular cartilage unfolding in treatment of the moderate concha-type microtia can receive more ear structures and increase auricle sizes, which make it possible for free composite tissue transplantation. In addition, the affected and the contralateral normal auricles have a very similar growth rate and it offers the theoretical foundation for the early treatment for moderate concha-type microtia.
ObjectiveTo explore the reasonable utilization of residual ear tissue after total ear reconstruction with total expansion method in patients with microtia of concha cavity, in order to obtain the best appearance.MethodsThe clinical data of 150 patients with microtia of concha cavity between January 2012 and January 2017 were retrospectively analyzed. There were 92 males and 58 females, with an average age of 11.1 years (range, 6.5-35.0 years). The shallow upper auriculocephalic angle was found after the first stage expander embedding and the second stage total expansion, and the third stage auricular reconstruction was carried out 6-12 months later. The residual earlobe was transferred through Z-plasty to reconstruct the lobe. An arc incision was made to release and deepen the upper auriculocephalic angle. And then a skin flap pedicled on the upper part of the residual ear was formed and then transferred to cover the wound on the auriculocephalic angle. The residual ear cartilage tissue flaps with subcutaneous tissue pedicle were inserted into the lacuna under the framework to increase the height of the scaffold. The remaining residual ear skin flaps were sutured to cover the wound of concha.ResultsA epidermis blister in diameter of 0.5 cm was found in 1 patient’s flap at 7 days after operation, and healed after 2 weeks of dressing change. The other patients’ flaps survived well. All the patients were followed up 6-12 months, with an average of 9.6 months. The auriculocephalic angle in the upper part of the reconstructed ear was obviously deepened, the height of the reconstructed ear was increased. The symmetry of the ears was better than before. The concha was not obviously contracted and the appearance of the reconstructed ear was satisfactory. The hair on the upper surface of the reconstructed ear decreased obviously, and the hairline around the ear moved up.ConclusionThe transfer of the upper residual auricular skin flap and residual auricular cartilage in patients with microtia of concha cavity can not only deepen the auriculocephalic angle, but also increase the height of the upper framework. The symmetry between the reconstructed auricle and the normal auricle is better than before.
ObjectiveTo summarize the current progress of clinical therapy for concha-type microtia.MethodsThe domestic and overseas literature about the treatment of concha-type microtia was reviewed and the contents of operative timing, operation selection, and complications were analyzed.ResultsThe unified therapeutic schedule of the concha-type microtia has not yet been determined due to its complicated various therapeutic methods and unknown etiology. The operation methods commonly used in clinic are partial ear reconstruction with autologous costal cartilage framework and free composite tissue transplantation. The timing of the partial ear reconstruction depends on the development of costal cartilage and children’s psychological healthy. The timing of free composite tissue transplantation depends on the severity. It is recommended to perform the operation at about 10 years old for mild patients. For moderate patients, ear cartilage stretching should be performed at 1-2 years old and free composite tissue transplantation would be performed at about 10 years old. The complications of partial ear reconstruction with autologous costal cartilage framework for concha-type microtia mainly include framework exposure, deformation, infection, cartilage absorption, and skin necrosis. The complications of free composite tissue transplantation have not been reported.ConclusionEtiology and elaborated classifications with individualized treatment are the future research directions.