Objective To investigate the clinical outcomes of facial never decompression via a combined subtemporal-su- pralabyrinthine approach to geniculate ganglion for management of facial paralysis in temporal bone fracture....Objective To investigate the clinical outcomes of facial never decompression via a combined subtemporal-su- pralabyrinthine approach to geniculate ganglion for management of facial paralysis in temporal bone fracture. Methods Eighteen patients with unilateral facial paresis due to temporal bone fracture were treated between March 2003 and March 2011. Facial function was House-Braekmann(HB) grade m in 6 patients, HB grade V in 9 patients and HB grade VI in 3 patients. The preoperative mean air conduction threshold was 52 dB HL for the 15 cases with longitudinal temporal bone fracture and showed severe sensorineural heating loss in the 3 cases with transverse temporal bone fracture. Fracture lines were detected in 15 cases on temporal bone axial CT scans and ossicular disruption was determined in 11 cases by virtual CT endoscopy. The geniculate ganglion or the tympanic mastoid segment of the facial nerve showed an irregular morphology on curved planar reformation images of the facial nerve canal. After an intact canal wall mastoi- do-epitympanectomy, the ossicular chain recess was opened by drilling through the was disrupted, the incus was removed to damage was evaluated. If the ossicular chain was intact, the supralabyrinthine cells between the tegmen tympani and ossicular chain. If the ossicular chain access the supralabyrinthine recess. The geniculate ganglion and the distal labyrinthine segment of the facial nerve were exposed. After completing facial nerve decompression, the dislocated incus was replaced, or a fractured incus was reshaped to bridge the space between the malleus and the stapes. Results Pronounced ganglion geniculatum swelling was found in 15 cases of longitudinal temporal bone fracture, with greater petrosus nerves damage in 3 cases and bleeding in 5 cases. Disrupted ossicular chains were seen in 11 cases, including dislocated incus resulting in crushing of the horizontal portion of the facial nerve in 3 cases and fracture of the incus long process in 1 case. In 3 cases of transverse fractures, dehiscence on the promontory, semicircular canal or oval window was found. All cases had primary healing with no complication. At follow-ups ranging from 0.5 to 3 years (average 1.2 years), facial nerve function recovered to HB grade I in 11 cases, 11 in 5 cases and m in 2 cases. Overall hearing recovery was 33 dB. Conclusion The clinical outcomes concerning facial nerve function and hearing recovery are satisfactory via a combined subtemporal-supralabyrinthine approach to the geniculate ganglion for facial nerve decompression in temporal bone fracture patients with facial paralysis.展开更多
文摘Objective To investigate the clinical outcomes of facial never decompression via a combined subtemporal-su- pralabyrinthine approach to geniculate ganglion for management of facial paralysis in temporal bone fracture. Methods Eighteen patients with unilateral facial paresis due to temporal bone fracture were treated between March 2003 and March 2011. Facial function was House-Braekmann(HB) grade m in 6 patients, HB grade V in 9 patients and HB grade VI in 3 patients. The preoperative mean air conduction threshold was 52 dB HL for the 15 cases with longitudinal temporal bone fracture and showed severe sensorineural heating loss in the 3 cases with transverse temporal bone fracture. Fracture lines were detected in 15 cases on temporal bone axial CT scans and ossicular disruption was determined in 11 cases by virtual CT endoscopy. The geniculate ganglion or the tympanic mastoid segment of the facial nerve showed an irregular morphology on curved planar reformation images of the facial nerve canal. After an intact canal wall mastoi- do-epitympanectomy, the ossicular chain recess was opened by drilling through the was disrupted, the incus was removed to damage was evaluated. If the ossicular chain was intact, the supralabyrinthine cells between the tegmen tympani and ossicular chain. If the ossicular chain access the supralabyrinthine recess. The geniculate ganglion and the distal labyrinthine segment of the facial nerve were exposed. After completing facial nerve decompression, the dislocated incus was replaced, or a fractured incus was reshaped to bridge the space between the malleus and the stapes. Results Pronounced ganglion geniculatum swelling was found in 15 cases of longitudinal temporal bone fracture, with greater petrosus nerves damage in 3 cases and bleeding in 5 cases. Disrupted ossicular chains were seen in 11 cases, including dislocated incus resulting in crushing of the horizontal portion of the facial nerve in 3 cases and fracture of the incus long process in 1 case. In 3 cases of transverse fractures, dehiscence on the promontory, semicircular canal or oval window was found. All cases had primary healing with no complication. At follow-ups ranging from 0.5 to 3 years (average 1.2 years), facial nerve function recovered to HB grade I in 11 cases, 11 in 5 cases and m in 2 cases. Overall hearing recovery was 33 dB. Conclusion The clinical outcomes concerning facial nerve function and hearing recovery are satisfactory via a combined subtemporal-supralabyrinthine approach to the geniculate ganglion for facial nerve decompression in temporal bone fracture patients with facial paralysis.
文摘索引调制光OFDM虽可实现高频谱效率,但其误码性能还不够理想。为此,本文结合非对称限幅光OFDM技术,通过每组激活数目不等的子载波,提出了一种广义索引调制非对称限幅光OFDM(Asymmetrically Clipped Optical OFDM with Generalized Index Modulation,ACO-OFDM-GIM)方案。每个子载波块中选择激活数目不唯一的子载波,同时引入子载波分配算法进一步提升了系统的误码性能。文中详细介绍了ACO-OFDM-GIM调制映射原理,推导了其在湍流信道下的理论误码率,并采用仿真实验进一步验证了其性能。结果表明,与ACO-OFDM、ACO-OFDM-IM等系统对比,ACO-OFDM-GIM系统的传输速率和误码性能都有明显改善。在频谱效率相同的情况下,ACO-OFDM-GIM系统在大信噪比时能够获得比ACO-OFDM和ACO-OFDM-IM系统更好的误码性能。当误码率为1×10^(-4)时,强湍流条件下(4,[1,2])ACO-OFDM-GIM系统的信噪比相对于(4,2)ACO-OFDM-IM和ACO-OFDM系统分别改善了约2.5 dB和4.5 dB。ACO-OFDM-GIM方案为未来大气激光通信传输速率的提高提供了一种有效手段。