1.Comparison of the results of displaced fernoral neck fractures with internal fixation and total hip replacement
Orthopedic Journal of China 2006;0(16):-
[Objective]To evaluate the results of displaced neck fractures with internal fixation(AO compress cannulated screws) and total hip replacement.[Method]Form 1998.5~2003.10,forty-four patients(mean age 75.2 years) who had an acute displaced femoral neck fracture were treated with internal fixation(21 hips) and total hip replacement(23 hips).The hip function,including the pain,movement and walking,was evaluated by Charnley Score(Charnley improved Merle d' Aubign? score).The health-related quality of patients' life was rated with use of the EQ-5D index.[Result]Forty patients were followed up at least twentyfour months.The ratio of complications in fixation group,defined as nonunion,osteonecrosis and peri-implant fracture,was 36.8%.The ratio of complications in total hip replacement group,defined as dislocation,periprosthetic fracture,or radiographic signs of loosening of the femoral or acetaular component,was 4.7%.There was significance different between two group(P
2.Studies on the preparation and end result of porcine acellular dermal matrix without cytotoxicity
Zhongfeng MA ; Jiake CHAI ; Hongming YANG ; Liming LIANG ; Minghuo XU
Medical Journal of Chinese People's Liberation Army 2001;0(09):-
Objective To prepare porcine acellular dermal matrix(PADM) without cytotoxicity,to evaluate its biological safety,and investigate its end result in vivo.Methods A piece of porcine split-thickness skin of 0.3-0.4mm was obtained,the epidermis was removed by hypertonic saline immersion,and then the skin was immersed in sodium hydroxide solution,and dermal cells were removed by shaking water bath at normal temperature to harvest PADM.After cross-linking and sterilization,bacteria and porcine virus were examined in the PADM.The PADM were embedded beneath the Sprague-Dawley(SD) rat's skin,and then the general and histological changes were observed after transplantation.Result The obtained PADM was soft and elastic,easy to be moulded,and convenient for operation.No cellular component was found in PADM,the collagen was regularly arranged and elastic fibers were abundant.Bacteria and virus examination of all specimens was negative.No immunologic rejection of PADM was found after being embedded beneath the skin of SD rat.The PADM adhered to the wound firmly,and it was difficult to detach 3 weeks after implantation,and the general structures of PADM beneath rat skin were discernible 24 weeks after implantation.The PADM was infiltrated by inflammatory cells in the early stage,fibroblasts and capillary vessels increased in number along with the time,and collagen fibers gradually gained a regular and compact arrangement in PADM.Conclusions The PADM prepared by hypertonic saline/sodium hydroxide method is a simple preparation process,and there is no cytotoxicity.It has a high biological safety and can be used as dermal scaffold with long-term existence in vivo.
3.Analysis of the role of the semester reform in the innovation training for medical undergraduate students
Jie MA ; Ping ZHANG ; Hui LI ; Libin CHEN ; Zhongfeng XU
Chinese Journal of Medical Education Research 2016;15(12):1229-1232
To adapt the requirement of Chinese education development, and to abandon the defects of two semester system, such as too-long semester, inflexible curriculum, and restricting personality devel-opment of students, Xi'an Jiaotong University has performed semester reform for reforming the contents and methods of the teaching, promoting the innovation ability of students, and improving the quality of the scholastic education since 2013. In the current study, we have attempted to demonstrate the benefits of the semester reform for promoting the innovation ability of students, and to reveal the active role of the semester reform through comparing the presentation of medical undergraduate students in the national competition of innovation training for medical undergraduate students. Overall, the results of our analysis have supported the semester reform, and provided the reference information for the semester reforms of Chinese universities.
4.The correlation between recurrent laryngeal nerve invasion and papillary thyroid carcinoma with posterior capsular involvment
Jialong WU ; Changdong YANG ; Debin JIN ; Yan YANG ; Boyang ZHANG ; Peng QIN ; Xue GENG ; Zhongfeng MA
Chinese Journal of General Surgery 2023;38(10):734-737
Objective:To investigate the factors related to recurrent laryngeal nerve invasion in papillary thyroid carcinoma (PTC) with posterior capsular involvment.Methods:The data of 186 PTC patients admitted and operated from Jun 2017 to Jun 2022 were retrospectively analyzed. The invasion of recurrent laryngeal nerve was evaluated on its relation to gender, age, tumor size, Hashimoto's thyroiditis, lymph node metastasis in central region, BRAFV600E gene mutation especially PTC posterior capsular involvement.Results:The recurrent laryngeal nerve was invaded in 30 out of 186 patients. Univariate analysis showed that recurrent laryngeal nerve invasion was related to tumor size, Hashimoto's thyroiditis and cervical lymph node metastasis( χ2=6.964,4.814,6.078, P<0.05). Multivariate regression analysis showed that tumor size and lymph node metastasis in cervical region were independent risk factors for recurrent laryngeal nerve invasion(β=1.020,1.622, P<0.05). Hashimoto's thyroiditis was a protective factor for recurrent laryngeal nerve invasion (β=-1.881, P<0.05). Conclusions:When papillary thyroid carcinoma invaded the capsule, the risk of recurrent laryngeal nerve invasion was higher with larger tumor size and cervical lymph node metastasis, while Hashimoto's thyroiditis was a protective factor for the risk of recurrent nerve invasion.
5.Tailoring combinatorial lipid nanoparticles for intracellular delivery of nucleic acids, proteins, and drugs.
Yamin LI ; Zhongfeng YE ; Hanyi YANG ; Qiaobing XU
Acta Pharmaceutica Sinica B 2022;12(6):2624-2639
Lipid nanoparticle (LNP)-based drug delivery systems have become the most clinically advanced non-viral delivery technology. LNPs can encapsulate and deliver a wide variety of bioactive agents, including the small molecule drugs, proteins and peptides, and nucleic acids. However, as the physicochemical properties of small- and macromolecular cargos can vary drastically, every LNP carrier system needs to be carefully tailored in order to deliver the cargo molecules in a safe and efficient manner. Our group applied the combinatorial library synthesis approach and in vitro and in vivo screening strategy for the development of LNP delivery systems for drug delivery. In this Review, we highlight our recent progress in the design, synthesis, characterization, evaluation, and optimization of combinatorial LNPs with novel structures and properties for the delivery of small- and macromolecular therapeutics both in vitro and in vivo. These delivery systems have enormous potentials for cancer therapy, antimicrobial applications, gene silencing, genome editing, and more. We also discuss the key challenges to the mechanistic study and clinical translation of new LNP-enabled therapeutics.