1.Minimally invasive treatment of mid-distal third humeral shaft fractures with anterior plating
Zhiquan AN ; Xiaojian HE ; Bingfang ZENG
Chinese Journal of Orthopaedic Trauma 2009;11(6):520-522
Objective To evaluate effects of minimal invasive plating for treatment of mid-distal humeral shaft fractures.Methods From May 2004 to December 2007, 20 patients with isolated unilat-eral mid-distal third humeral shaft fractures were surgically treated with close reduction and internal fixation using a 4.5 mm dynamic compression plate which was anteriorly inserted through 2 small incisions on the anterior aspects of proximal and distal parts of the arm, away from the fracture site.The postoperative function of the radial nerve and the musculocutaneous nerve, the postoperative alignment of the main fragments on the anteroposterior radiographs, the bone healing time and muscle strength of biceps muscles were measured and recorded, Results Four patients complained of numbness at the area innervated by the lateral ante-braehial cutaneous nerve in the affected forearm after the surgery.No signs of iatrogenic radial nerve palsies occurred after the surgery.A completely normal alignment was achieved in 7 patients, but varus of 11° was found in 2 cases and varus of 2°, 3°, 4°, 5°, 6°, 7° and 10° in one each.Valgus deformity was noticed in 4 cases, and valgus of 3°, 4°, 6° and 7° in one each.The mean follow-up of 10.4 months for 19 patients re-vealed bony union of all the fractures.The average bone healing time was 13.4 weeks.At the latest follow-up, the biceps muscle strength of all the patients was 5 degrees.Hardwires were removed in 5 patients without any complications.Conclusions Minimally invasive anterior plating is a safe alternative osteosynthesis for mid-distal third humeral shaft fractures.However, this technique may interfere with the function of the lateral antebrachial cutaneous nerve.
2.Engineering and process management-based design of Comprehensive Biotechnology Experiment course.
Changbin GONG ; Fei CAO ; Honghua JIA ; Kequan CHEN ; Ganlu LI ; Bingfang HE
Chinese Journal of Biotechnology 2023;39(2):769-779
Based on the demand of enterprise talents and the characteristics of manufacturing process management in biotechnology, in order to make the students acquire the ability to solve complex engineering problems in the production process, we developed a "Comprehensive Biotechnology Experiment" course, where two-step enzymatic production of l-aspartate and l-alanine were the key processes. In this course, we drew lessons from the site management of the production enterprise, performed the experimental operation mode of four shifts and three operations. The content of this course includes principles, methods and experimental techniques of several core curricula and the site management mode of enterprises. As to the evaluation, the summary of the experimental staff's handover records and the content of teamwork were examined and scored. Through teaching practice and continuous improvement, we developed a complete experimental teaching process and assessment mechanism. Overall, the Comprehensive Biotechnology Experiment course achieved good teaching effect, which may serve as a reference to promote the development of experimental teaching of biotechnology.
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3.Enzyme-instructed hybrid nanogel/nanofiber oligopeptide hydrogel for localized protein delivery.
Tianyue JIANG ; Yudi MA ; Xiao XU ; Qingchun JI ; Mingxing FENG ; Cheng CHENG ; Yang FENG ; Bingfang HE ; Ran MO
Acta Pharmaceutica Sinica B 2021;11(7):2070-2079
Enzyme-catalysis self-assembled oligopeptide hydrogel holds great interest in drug delivery, which has merits of biocompatibility, biodegradability and mild gelation conditions. However, its application for protein delivery is greatly limited by inevitable degradation of enzyme on the encapsulated proteins leading to loss of protein activity. Moreover, for the intracellularly acted proteins, cell membrane as a primary barrier hinders the transmembrane delivery of proteins. The internalized proteins also suffer from acidic and enzymatic degradation in endosomes and lysosomes. We herein develop a protease-manipulated hybrid nanogel/nanofiber hydrogel for localized delivery of intracellularly acted proteins. The embedded polymeric nanogels (CytoC/aNGs) preserve activity of cytochrome