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 investigate the application and effectiveness of split-thickness scalp graft and temporoparietal fascia flap in the low hairline auricle reconstruction in microtia patients. MethodsBetween July 2010 and April 2015, 23 patients with low hairline microtia (23 ears) underwent low hairline auricle reconstruction. There were 16 males and 7 females with the mean age of 12 years (range, 6-34 years). The left ear was involved in 10 cases, and the right ear in 13 cases. There were 18 cases of lobule-type, 4 cases of concha-type, and 1 case of small conchatype. Referring to Nagata's two-stage auricular reconstruction method, the first stage operation included fabrication and grafting of autogenous costal cartilage framework; after 6 months, second stage operation of depilation and formation of cranioauricular sulcus was performed. The split-thickness scalp was taken from the part of the reconstructive ear above hairline. The hair follicles and subcutaneous tissue layers in hair area were cut off during operation. The area of depilation and auriculocephalic sulcus were covered with temporoparietal fascia flap. Then split-thickness skin was implanted on the surface of temporoparieta fascia flap. ResultsAll operations were successfully completed. Healing of incision by first intention was obtained, without related complication. The patients were followed up 6-20 months (mean, 12 months). The reconstructed ear had satisfactory appearance and had no hair growth. ConclusionThe application of splitthickness scalp graft and temporoparietal fascia flap in low hairline auricle reconstruction in microtia patients can achieve satisfactory results.
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.
From Sept 1989 to Dec 1993, the auricular composite graft carrying a piece of postauriclar skin with subdermal vascular network was used to repair 7 cases having defects of nasal alar or tip and 1 having microtia. The width of the composite grafts ranged from 1.8cm to 2.6cm, and the size of the postauricular skin rangedfrom 0.08×1cm2 to 2.2×2.5cm2. All cases gained successful results. The mechanism of survival of the composite grafts, and the essential points in operation were detailed.
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 summarize clinical experience and curative effect in applying three-dimensional mechanical equilibrium concept to cartilage scaffold construction in total auricular reconstruction.MethodsBetween June 2015 and June 2017, ninety-seven microtia patients (102 ears) were treated with total ear reconstruction by using tissue expanders. The patients included 43 males and 54 females and their age ranged from 7 to 45 years with an average of 14 years. There were 92 unilateral cases (45 in left side and 47 in right side) and 5 bilateral ones. There were 89 congenital cases and 8 secondary cases. According to microtia classification criteria, there were 21 cases of type Ⅱ, 67 cases of type Ⅲ, and 9 cases of type Ⅳ. Tissue expander was implanted in the first stage. In the second stage, autogenous cartilage was used to construct scaffolds which were covered by enlarged flap. According to the three-dimensional mechanical equilibrium concept, the stable ear scaffold was supported by the scaffolds base, the junction of helix and inferior crura of antihelix, and helix rim. The reconstructed ears were repaired in the third stage operation.ResultsAll patients had undergone ear reconstruction successfully and all incisions healed well. No infection, subcutaneous effusion, or hemorrhage occurred after operation. All skin flaps, grafts, and ear scaffolds survived completely. All patients received 5- to 17-month follow-up time (mean, 11.3 months) and follow-up time was more than 12 months in 61 cases (64 ears). All reconstructed ears stood upright, and subunits structure and sensory localization of reconstructed ears were clear, and the position, shape, size, and height of bilateral ears were basically symmetrical. Mastoid region scar hyperplasia occurred in 3 patients, which was relieved by anti-scar drugs injection. No scaffolds exposure, absorption, or structural deformation occurred during follow-up period.ConclusionApplication of three-dimensional mechanical equilibrium concept in cartilage scaffold construction can reduce the dosage of costal cartilage, obtain more stable scaffold, and acquire better aesthetic outcomes.
Objective To investigate the methods and effectiveness of ear reconstruction for the microtia patients with craniofacial deformities. Methods Between July 2000 and July 2010, ear reconstruction was performed with tissue expander and autogenous costal cartilages in 1 300 microtia patients with degree II+ hemifacial microsoma, and the clinical data were reviewed and analyzed. There were 722 males and 578 females, aged 5 years and 8 months to 33 years and 5 months (median, 12 years and 2 months). The expander was implanted into the retroauricular region in stage I; ear reconstruction was performed after 3-4 weeks of expansion in stage II; and reconstructed ear reshaping was carried out at 6 months to 1 year after stage II in 1 198 patients. Results Of 1 300 patients, delayed healing occurred in 28 cases after stage II, healing by first intention was obtained in the other 1 272 cases, whose new ears had good position and appearance at 1 month after stage II. After operation, 200 cases were followed up 1-9 years (mean, 3 years). One case had helix loss because of trauma, and 1 case had the new ear loss because of fistula infection. At last follow-up, the effectiveness were excellent in 110 cases, good in 65 cases, and fair in 23 cases with an excellent and good rate of 88.4%. Conclusion It is difficulty in ear reconstruction that the reconstructed ear is symmetrical to the contralateral one in the microtia patients with degree II+ hemifacial microsoma. The key includes the location of new ear, the fabrication of framework, and the utilization of remnant ear.