AbstractObjectives Bone-anchored hearing aids (BAHA) occasionally cause soft tissue problems due to abutment. Because Sophono does not have abutment penetrating skin, it is thought that Sophono has no soft tissue problem relating to abutment. On the other hand, transcutaneous device’s output is reported to be 10 to 15 dB lower than percutaneous device. Therefore, in this study, Sophono and BAHA were compared to each other from surgical and audiological points of view.
Methods We retrospectively reviewed the medical records of 9 Sophono patients and 10 BAHA patients. In BAHA cases, single vertical incision without skin thinning technique was done. We compared Sophono to BAHA by operation time, wound healing time, postoperative complications, postoperative hearing gain after switch on, and postoperative air-bone gap.
Results The mean operation time was 60 minutes for Sophono and 25 minutes for BAHA. The wound healing time was 14 days for Sophono and 28 days for BAHA. No major intraoperative complication was observed. Skin problem was not observed in the 2 devices for the follow-up period. Postoperative hearing gain of bilateral aural atresia patients was 39.4 dB for BAHA (n=4) and 25.5 dB for Sophono (n=5). However, the difference was not statistically significant. In all patients included in this study, the difference of air-bone gap between two groups was 16.6 dB at 0.5 kHz and 18.2 dB at 4 kHz. BAHA was statistically significantly better than Sophono.
Conclusion Considering the audiologic outcome, BAHA users were thought to have more audiologic benefit than Sophono users. However, Sophono had advantages over BAHA with abutment in cosmetic outcome. Sophono needed no daily skin maintenance and soft tissue complication due to abutment would not happen in Sophono. Therefore, a full explanation about each device is necessary before deciding implantation.
INTRODUCTIONBone-anchored hearing devices of percutaneous type have been successfully used to treat conductive hearing loss (HL) patients that cannot be corrected by surgery and single side deaf patients. Bone-anchored hearing aids (BAHA) are the most widely used percutaneous type device. But skin penetrating abutment of BAHA occasionally develops soft tissue problems [1,2] and has poor aesthetic outcome. In addition, skin penetrating abutment demands daily cleaning around abutment during the lifetime. If the cleansing is insufficient, soft tissue infection, skin overgrowth around abutment, and osseointegration failure could occur more frequently.
Since 2013, a new bone-anchored hearing device of transcutaneous type, Sophono Alpha 2 system (Sophono Inc., Boulder, CO, USA) has been commercially available in Korea. Because Sophono does not have skin penetrating abutment, Sophono is thought to have no soft tissue problem relating to abutment and to have better aesthetic outcome. On the other hand, transcutaneous device’s output is reported to be 10 to 15 dB lower than percutaneous device [3,4].
However, few reports have compared transcutaneous device with percutaneous device. Therefore, we conducted a retrospective study on nine Sophono patients in 2 hospitals who had implantation with Sophono with Alpha 2 processor and ten BAHA patients who had implantation with single vertical incision without skin thinning technique. Sophono and BAHA were compared to each other from surgical and audiological points of view.
MATERIALS AND METHODSWe performed BAHA surgery using single vertical incision without skin thinning technique since December 2009. There were ten BAHA patients. Sophono surgery was performed since December 2013. There were nine Sophono patients. We retrospectively review their medical records.
The 10 BAHA patients had an average age of 39.9 years (range, 12 to 62 years), including six men and four women. Their mean follow-up period was 25.3 months (range, 20 to 35 months). The causes of BAHA surgery included bilateral congenital aural atresia (n=4), chronic ear infections (n=3), and unilateral HL (n=3). Two bilateral aural atresia patients previously underwent bilateral otoplasty. Another one underwent bilateral meatoplasty. Every BAHA patient except two bilateral aural atresia patients used Baha BP100 (Cochlear, Sydney, Australia). Two bilateral aural atresia patients used Baha BP110 (Cochlear).
Sophono patients had an average age of 28.1 years (range, 5 to 71 years), including 4 men and 5 women. Their mean follow-up period was 8.4 months (range, 4 to 12 months). The causes of Sophono surgery included bilateral congenital aural atresia (n=5), unilateral congenital aural atresia (n=1), chronic ear infections (n=1), and unilateral HL (n=2). Two bilateral aural atresia patients previously underwent bilateral meatoplasty and bilateral otoplasty. And another one bilateral aural atresia patient was BAHA user who was included in this study. At first, he underwent bilateral meatoplasty to restore his hearing, but the hearing was unsatisfactory. After that, BAHA was performed with satisfactory result. However, he wanted to have binaural hearing. After we explained Sophono, he chose Sophono due to its better aesthetic outcome.
Single vertical incision without skin thinning technique was used for BAHA implantation as described previously [5]. Operative procedure of Sophono is presented in Fig. 1.
Comparison parameters in this studyWe compared Sophono with BAHA by the operation time, wound healing time, postoperative complications, postoperative hearing gain after switch on, and postoperative air-bone (AB) gap. The operation time was calculated using operation record. The wound healing time was defined as the period from operation day to the day that regular outpatient visit for the wound care was no longer needed. Postoperative wound infection, skin overgrowth, reoperation, and other postoperative complications were investigated using medical record.
Postoperative hearing gain, postoperative AB gap: Mean air-conduction (AC), and bone-conduction (BC) hearing were averaged at 4 audiometric frequencies (500, 1,000, 2,000, and 4,000 Hz). Postoperative hearing gain was measured as unaided mean AC hearing minus aided mean free-field AC hearing. Postoperative AB gap was measured as aided mean free-field AC hearing minus mean BC hearing of better bone conduction ear. We regularly followed up the patients every three months. The latest free-field audiometry was used.
We used Mann-Whitney U-test for statistical analysis. A P-value <0.05 was considered statistically significant.
RESULTSOperation time and healing timeThe mean time required for surgery was 60 minutes (range, 40 to 105 minutes) for Sophono and 25 minutes (range, 20 to 30 minutes) for BAHA. The wound healing time was 14 days for Sophono and 28 days for BAHA. But, actual switch on of Sophono was started from 4 weeks after surgery.
Postoperative complicationsIn BAHA cases, there were 2 patients with abutment loosening. These cases were simply fixed at outpatient clinic. Skin infection, skin growth over the abutment, and fixture extrusion were not observed in any of these cases during follow-up period.
In Sophono cases, 2 patients complained about pain around the external base plate after processor switch-on. Pain disappeared after magnet strength change from strength 4 to strength 2. Other complications were not observed.
Hearing improvement after switch on
Tables 1 and 2 are the demographic data and individual audiologic data of study population. At first, we compared the hearing improvement after switch on in bilateral aural atresia cases. There were four bilateral aural atresia cases in BAHA and five bilateral aural atresia cases in Sophono. Unaided mean AC hearing of BAHA was 62.5 dB (standard deviation [SD], 1.8). Aided mean free-field AC hearing of BAHA was 23.1 dB (SD, 8.9). Postoperative hearing gain was 39.4 dB (SD, 8.6). Unaided mean AC hearing of Sophono was 54.5 dB (SD, 9.5). Aided mean free-field AC hearing of Sophono was 29 dB (SD, 10.8). Postoperative hearing gain was 25.5 dB (SD, 11.7). BAHA was better than Sophono in postoperative hearing gain. However, the difference was not statistically significant (P=0.063) (Fig. 2).
Postoperative AB gaps of BAHA were 12.5 dB at 0.5 kHz, 6.2 dB at 1 kHz, –2.5 dB at 2 kHz, and 7.5 dB at 4 kHz. Postoperative AB gaps of Sophono were 21 dB at 0.5 kHz, 10 dB at 1 kHz, 2 dB at 2 kHz, and 23 dB at 4 kHz. The difference of AB gap between 2 groups was 8.5 dB at 0.5 kHz and 15.5 dB at 4 kHz. BAHA was better than Sophono in the AB gap. However, the difference was not statistically significant (0.5 kHz, P=0.17; 4 kHz, P=0.16).
We compare the AB gap between the two groups, including the unilateral HL patients and other patients for measuring the actual amplification of 2 implants. In the unilateral HL patient, the mean BC hearing was calculated for the better BC hearing ear. The postoperative AB gaps of BAHA were 10 dB at 0.5 kHz, 9.5 dB at 1 kHz, 4 dB at 2 kHz, and 8.5 dB at 4 kHz. Postoperative AB gaps of Sophono were 26.6 dB at 0.5 kHz, 16.7 dB at 1 kHz, 8.3 dB at 2 kHz, and 26.7 dB at 4 kHz. The difference of AB gap between the two groups was 16.6 dB at 0.5 kHz and 18.2 dB at 4 kHz. The differences of postoperative AB gaps of 0.5 kHz (P=0.0024) and 4 kHz (P=0.02) between the 2 implants were statistically significant (Fig. 3).
The audiogram of patient who was implanted with Sophono and BAHA was shown in Fig. 4. Hearing gain of BAHA was better than Sophono in all audiologic frequencies.
DISCUSSIONIn this study, the operation time of Sophono took 35 minutes longer than BAHA. During BAHA surgery with the single vertical incision without skin thinning technique, there was no need to reduce soft tissue or to elevate the flap. It just required the 2.5-cm single post auricle incision reaching the periosteum. In the Sophono surgery, we had to do more large incision than BAHA. In addition, Sophono needed flap elevation and more drilling the skull for the internal device. The wound healing time of BAHA is longer than Sophono. However, switch on of Sophono can be started from 4 weeks after operation.
There was no major complication during surgery or postoperative period in both BAHA cases and Sophono cases. BAHA is known to develop soft tissue problems in some cases. It was reported that there were soft tissue problems in 7.4% in BAHA patients [1]. Fixture extrusion rate due to osseointegration failure was reported to be 1.3% to 3.4% [1,2]. However, Hultcrantz [6] and Soo et al. [7] reported that a simple vertical incision without skin thinning could reduce soft tissue complications. In this study, there was no soft tissue complication during the follow-up period. BAHA in this study had only two abutment loosening cases that were solved by tightening the abutment in outpatient clinical setting.
In transcutaneous device, Siegert reported a 4% rate of temporary pressure marks as the only complication in more than 100 patients [8]. They were resolved after baseplate modification with magnet force reduction. However, O’Niel et al. [9] reported the skin complication rate was 35.7%, including skin breakdown (n=2) and a patient younger than 5 years required a revision surgery. Among our Sophono cases, 2 patients complained about pain around the acrylic baseplate wearing the external process. It was solved by exchanging the magnet from strength 4 to strength 2. Meticulous care is required when patient report pain around the baseplate, especially in young children because their skin and soft tissue is thin.
In bilateral aural atresia cases of Sophono, unaided mean AC hearing was 54.5 dB. AC hearing was improved to 29 dB after switch on. Postoperative hearing gain of Sophono was 25.5 dB. Postoperative hearing gains in other reports were 29.7- to 43-dB HL [9-12]. Our result was slightly poorer than other results. It may be caused by the age of study group and previous operation history. In our Sophono study, the average age of bilateral aural atresia patients was 19.4 years (range, 5 to 33 years). Skin and soft tissue would thicken with advancing years. Thickened tissue could disturb energy transmission. Three patients previously underwent meatoplasty in this study. Operation scar also could disturb energy transmission. It was reported that postoperative hearing gain was 29.7 dB in 10 subtotal petrosectomy patients [10]. In that study, patients were adults with several operation histories.
When we compared the postoperative hearing gain between BAHA and Sophono in bilateral aural atresia cases, BAHA was better than Sophono. Postoperative hearing gains of BAHA and Sophono were 39.4 dB and 25.5 dB, respectively. The difference was large at 0.5 kHz and 4 kHz. The difference became clear when we compared all patients’ results at each frequency for comparing the actual amplification of two implants. The difference of AB gap between 2 groups was 16.6 dB at 0.5 kHz and 18.2 dB at 4 kHz. Despite limited number and diverse causes of patients comprised in the series, the difference of postoperative AB gap at 0.5 kHz and 4 kHz was statistically significant. Direct bone oscillation of BAHA could be thought to improve signal transmission. In comparative study between BAHA implant and BAHA headband, a 5 to 20 dB increase in gain with BAHA implant compared to BAHA headband at 1 to 4 kHz levels was reported [13]. Although Sophono fits the external processer better than headband, skin and soft tissue interference could influence signal transmission.
It was reported that BAHA users exhibited 5 to 10 dB better aided thresholds than Sophono users in higher frequencies (i.e., 2,000 and 4,000 Hz) [3]. However, 500 and 1,000 Hz aided hearing thresholds were similar to each other, which was slightly different from our result according to the frequency. This difference might be due to external sound processor. They used Baha Divino (Cochlear) and Sophono Alpha 1 System (Sophono Inc.) [3]. In this study, Baha BP100, Baha BP110, and Sophono Alpha 2 were used. Another problem was that Sophono patients complained of acoustic feedback when we gave more gain in low frequency. And follow-up period of each implant can influence the result.
This study is the comparative clinical study of postoperative aided hearings between BAHA and Sophono with sound processor that is the most widely used at present.
Table 1.Preop AC, preoperative air-conduction; Aided AC, postoperative free field air-conduction hearing; Preop BC, preoperative bone-conduction; BA, bilateral aural atresia; B, both; UA, unilateral aural atresia; COM, chronic otitis media; UHL, unilateral hearing loss; S-SNHL, sudden sensorineural hearing loss. Table 2.BAHA, bone-anchored hearing aids; Preop AC, preoperative air-conduction; Aided AC, postoperative free field air-conduction hearing; Preop BC, preoperative bone-conduction; BA, bilateral aural atresia; B, both; TC, Treacher Collins syndrome; COM, chronic otitis media; UHL, unilateral hearing loss; S-SNHL, sudden sensorineural hearing loss. REFERENCES1. House JW, Kutz JW Jr. Bone-anchored hearing aids: incidence and management of postoperative complications. Otol Neurotol. 2007 Feb;28(2):213-7.
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