Objective To discuss the advantages and disadvantages of flaps in therepairment of soft tissue defects in upper extremity. Methods Based on the 2 609 cases of flaps in 2 512 patients from 1995 to 2004,the advantages and disadvantages of different sort of flaps, outcomes of treatment and indications of different soft of flaps were analyzed retrospectively. In the series, 2 089 pieces of the traditional flaps of different sorts were applied in 1 992 patients, 474 piecesof the axial flaps of different sorts were applied in 474 patients, different sorts of free flaps were used in 46 patients. Results Follow-ups were done for 1 month to 9 years (2.7 months in average). 2 531 flaps survived (97.01%); complete necrosis occurred in 10 flaps(0.38%); partial necrosis occurred in 68 flaps(2.61%). Of the 2 089 traditional flaps, 46 had partial necrosis(2.2%); 687 needed flap revisions(32.9%). Of the 474 axial flaps, 28 had complete or partial necrosis(5.9%); 82 needed revisions(17.3%). Of the 46 free flaps, 4 had complete or partial necrosis(8.7%) and nearly all the anterolateral flpas of thighs needed revisions.Conclusion Traditional flaps had the advantages of easy manipulation and the highest survival rate, however, also had the disadvantages of poor texture and many timesof operations. The flap with a pedicle had the advantage of good texture, consistent artery, free-range arc, however, the venous congestion was its disadvantage, which impaired the survival of the reverse flap. Free flap had the advantage ofgood texture and abandant donor site, but complicate manipulation was its shortage. Axial Flap with a pedicle is the optional choicefor repairing soft tissue defects in upper extremity.
Exoskeleton nursing robot is a typical human-machine co-drive system. To full play the subjective control and action orientation of human, it is necessary to comprehensively analyze exoskeleton wearer’s surface electromyography (EMG) in the process of moving patients, especially identifying the spatial distribution and internal relationship of the EMG information. Aiming at the location of electrodes and internal relation between EMG channels, the complex muscle system at the upper limb was abstracted as a muscle functional network. Firstly, the correlation characteristics were analyzed among EMG channels of the upper limb using the mutual information method, so that the muscle function network was established. Secondly, by calculating the characteristic index of network node, the features of muscle function network were analyzed for different movements. Finally, the node contraction method was applied to determine the key muscle group that reflected the intention of wearer’s movement, and the characteristics of muscle function network were analyzed in each stage of moving patients. Experimental results showed that the location of the myoelectric collection could be determined quickly and efficiently, and also various stages of the moving process could effectively be distinguished using the muscle functional network with the key muscle groups. This study provides new ideas and methods to decode the relationship between neural controls of upper limb and physical motion.
Objective To investigate the effectiveness of free superficial circumflex iliac artery flap (SCIP) combined with deep inferior epigastric perforator flap (DIEP) in repairing large soft tissue defects of upper extremities. MethodsBetween February 2017 and January 2021, free SCIP combined with DIEP was used to repair 15 patients with large soft tissue defects of upper extremities. There were 12 males and 3 females, aged from 34 to 52 years, with a median age of 41 years. The causes of injury were mechanical injury in 11 cases and traffic accident injury in 4 cases. There were 9 cases of circular skin defect in the forearm and 6 cases of skin defect around the upper arm and elbow joint, with the defect in size of 15.5 cm×10.5 cm to 26.5 cm×15.5 cm, accompanied by exposure of deep tissues such as tendons and bones. There were 7 cases with open fractures and 8 cases with vascular and nerve injuries. The time from injury to operation ranged from 7 to 14 days, with an average of 7.5 days. The flaps in size of 16.0 cm×11.0 cm to 27.0 cm×16.0 cm were harvested; the thickness of the flaps was 0.8-1.3 cm, and the excess fat tissue was removed under the microscope after harvesting. The length of proximal vascular pedicle was 5.0-7.0 cm, and of distal vascular pedicle was 3.0-5.0 cm. The donor site was closed and sutured directly, and the navel was reconstructed. Results The flaps survived successfully in 14 cases, and the arterial crisis occurred in 1 case at 10 hours after operation, and the flap survived after surgical exploration. All the wounds in the donor and recipient sites healed by first intention. All 15 patients were followed up 3-14 months, with an average of 10.5 months. The appearance, elasticity, and texture of flap were good without obvious bloat, contracture, or adhesion. The donor site healed well, no abdominal wall hernia was found, and the appearance of reconstructed navel was good, only linear scar left. At last follow-up, 12 cases were evaluated as excellent and 3 cases were good according to the evaluation criteria of flap function of the Chinese Medical Association Microsurgery Branch. The sensation recovered to \begin{document}${\rm{S}}_{3^+} $\end{document} in 7 cases and \begin{document}${\rm{S}}_3 $\end{document} in 8 cases. ConclusionFree SCIP combined with DIEP has a large excision area and excellent skin ductility. It is an effective clinical method for repairing large soft tissue defects of upper extremities.