Objective To investigate the clinical value of occlusal guide plate combined with intermaxillary fixation screw in mandibular defect repair with free fibular flap. Methods Between August and December 2011, 7 patients with mandibular tumor were treated, including 5 cases of ameloblastoma and 2 cases of gingival cancer. Of 7 patients, 4 were males and 3 were females, aged 32-65 years (median, 50 years). Occlusal guide plate was prepared and the implanted position of intermaxillary fixation screws was determined preoperatively. Hemimandibulectomy was performed in 5 cases, half mandibular segmental resection with condyle reservation in the other 2 cases. The free fibular flaps of 11-13 cm in length were harvested for repairing mandibular defects. When the free fibular flaps were fixed, the occlusal guide plate and intermaxillary fixation screws were utilized to restorate the occlusal relation. The donor site was sutured directly. Results The average operation time was 9.5 hours (range, 7-12 hours). All free fibular flaps survived completely. All incisions at the donor site and recipient site healed by first intention. All patients were followed up 10-14 months with an average of 12.3 months. All patients had symmetrical face, good occlusal relation, normal mouth opening, and normal mandibular lateral movement, and no pain of bilateral temporomandibular joints occurred. Panoramic tomography showed good mandibular contour and the suitable emplacement of fibular flaps postoperatively. No tumor recurrence occurred during follow-up period. Conclusion When repairing the mandibular defect with free fibular flap, occlusal guide plate with intermaxillary fixation screw contributes to simplifying operation, accurate recovery of the appearance and occlusal relation, and improving the oral comfort level postoperatively.
Objective To explore the relationship between obstructive sleep apnea hypopnea syndrome ( OSAHS) and airway hyperresponsiveness ( AHR) . Methods 197 subjects suspected for OSAHS were enrolled in the study. They were all performed overnight polysomnogram ( PSG) monitoring and lung function test. Acoording to the results of FEV1% pred, they were performed bronchial provocation test( BPT)or brochial dilation test( BDT) . The relation between apnea hypopnea index ( AHI) and the degree of airway hyperresponsiveness ( AHR, expressed as PD20 -FEV1 ) was evaluated by linear correlation analysis. Results 117 patients were diagnosed as OSAHS, in which 28 cases were complicated with AHR( 3 cases with positive BDT result, 25 cases with AHR) . In 80 non-OSAHS patients, 7 cases were complicated with AHR. Theincidence of AHR was higher in the OSAHS patients compared with the non-OSAHS patients( 23. 9% vs 8. 8% , P lt; 0. 01 ) . AHI of OSAHS patients with AHR was higher than OSAHS patients without AHR[ ( 30. 3 ±5. 1) /h vs ( 23. 7 ±2. 4) /h, P lt;0. 01] . There was a positive correlation between AHI and degree of AHR in OSAHS patients with AHR( r=0. 62, P lt;0. 05, n=25) . Conclusion OSAHS is associated with an increased risk of AHR.
The body weight support rehabilitation training system has now become an important treatment method for the rehabilitation of lower limb motor dysfunction. In this paper, a pelvic brace body weight support rehabilitation system is proposed, which follows the center of mass height (CoMH) of the human body. It aims to address the problems that the existing pelvic brace body weight support rehabilitation system with constant impedance provides a fixed motion trajectory for the pelvic mechanism during the rehabilitation training and that the patients have low participation in rehabilitation training. The system collectes human lower limb motion information through inertial measurement unit and predicts CoMH through artificial neural network to realize the tracking control of pelvic brace height. The proposed CoMH model was tested through rehabilitation training of hemiplegic patients. The results showed that the range of motion of the hip and knee joints on the affected side of the patient was improved by 25.0% and 31.4%, respectively, and the ratio of swing phase to support phase on the affected side was closer to that of the gait phase on the healthy side, as opposed to the traditional body weight support rehabilitation training model with fixed motion trajectory of pelvic brace. The motion trajectory of the pelvic brace in CoMH mode depends on the current state of the trainer so as to realize the walking training guided by active movement on the healthy side of hemiplegia patients. The strategy of dynamically adjustment of body weight support is more helpful to improve the efficiency of walking rehabilitation training.