1.Comparative Research of Cyclopentolate Hydrochlorid,Tropicamide and Atropine
Yanying PANG ; Yundong YANG ; Shen XU
China Pharmacy 2005;0(20):-
OBJECTIVE:To study clinical efficacy and adverse drug reaction(ADR) of Cyclopentolate hydrochloride eye drops,Tropicamide eye drops and Atropine eye drops.METHODS:600 asthenopic children were divided into 3 groups according to visiting time sequence(n=200).3 groups were treated with 1% Cyclopentolate hydrochloride eye drops,1% Tropicamide eye drops and 1% Atropine eye drops respectively.Mydriasis effects of 3 groups were observed and results of retinoscopy were recorded.Ocular ADR and systemic ADR were surveyed.RESULTS:The level of ocular ADR and systemic ADR of tropicamide group were lower than other 2 groups(P
2.Thoughts on the rescue of persons with abdominal injuries after the Wenchuan earthquake
Weidong TONG ; Xiaobin CHENG ; Yuanzhang YAO ; Yong HE ; Yue SHEN ; Jianming CHEN ; Yundong ZHANG ; Yanhua DENG
Chinese Journal of Digestive Surgery 2008;7(4):256-257
At 2:28 p.m. local time on 12 May, 2008, the Wenchuan earthquake struck with a magnitude of 8.0. After the earthquake, 1364 injured persons, including 732 women and 632 men, were admitted to Deyang People's Hospital. The ages of the injured persons ranged from 0.2 years to 102 years (mean, 42.5 years). Of all injured persons, 4.65% aged under 7 years, 13.84% between 7 and 18 years, 39.57% between 19 and 45 years, 24.48% between 46 and 65 years, and 17.46% above 65 years. A total of 1713 injuries were found in all the injured persons, and the predominant injuries were found in limbs, body surface, head and chest. The incidence of the multiple injuries was 23.64%. Eighteen persons with abdominal injuries received operation. Prompt, accurate and systematic evaluation of the injury is necessary in raising the rescue efficiency. Treating the injured persons according to a classification optimizes the usage of the limited medical resources. Early definitive operation is crucial in rescuing the lives of the injured persons, and the treatment should be applied within 24 hours after the earthquake, then the emphasis of the rescue work should shift to helping orthopedic surgeons with operation and debridement.
3.Efficacy of arthroscopically-assisted open reduction and internal fixation of intra-articular distal radius fracture
Jionghao ZHANG ; Huawei YIN ; Yanqun QIU ; Haipeng WANG ; Yundong SHEN ; Wendong XU
Chinese Journal of Trauma 2022;38(3):227-233
Objective:To investigate the effect of arthroscopically-assisted open reduction and internal fixation of intra-articular distal radius fracture.Methods:A retrospective cohort study was made on clinical data of 44 patients with distal radial intraarticular fracture admitted to Jing′an District Central Hospital, Fudan University between June 2017 and August 2020. There were 13 males and 31 females, at age of 35-85years [(62.5±12.9)years]. According to AO/OTA fracture classification system, there were 7 patients with type B and 37 with type C. Open reduction and internal fixation with volar plate was used in all patients, among which 22 were operated on using arthroscopy assistance (arthroscopy group) and 22 were operated on with traditional intraoperative fluoroscopy (fluoroscopy group). The operation time in both groups and triangular fibrocartilage complex (TFCC) injury and fracture displacement in arthroscopy group were recorded. Patient-rated wrist evaluation (PRWE) score, disabilities of the arm, shoulder and hand (DASH) questionnaire and range of wrist motion were compared between the two groups at 12 months after operation. The incidence of complications was observed.Results:All patients were followed up for 12-15 months [(13.3±1.1)months]. The operation time in arthroscopy group was (104.0±40.5)minutes, longer than (71.3±32.1)minutes in fluoroscopy group ( P<0.05). In arthroscopy group, 14 patients (64%) with TFCC injury were diagnosed intraoperatively, with the fracture displacement gap and step for 0.8 (0.3, 0.8)mm and 1.0 (0.3, 1.5)mm under arthroscopic vision, which were reduced to 0.3 (0.0, 0.5)mm and 0.5 (0.0, 0.5)mm after arthroscopically-assisted reduction (all P<0.05). The PRWE score in arthroscopy group was (9.8±4.9)points at 12 months after operation, lower than (13.4±5.8)points in fluoroscopy group ( P<0.05). The DASH questionnaire in arthroscopy group was (9.0±5.0)points at 12 months after operation, lower than (13.0±6.1)points in fluoroscopy group ( P<0.05). The dorsal extension and posterior rotation of the wrist in arthroscopy group were (73.8±8.9)° and (82.5±8.0)°, higher than (65.8±14.2)° and (76.3±10.4)° in fluoroscopy group (all P<0.05). There were no postoperative complications such as loosened or broken screws, vascular nerve damage, incision infection or traumatic arthritis in both groups. Conclusion:Arthroscopic-assisted open reduction and internal fixation of intra-articular distal radius fracture can increase the accuracy of joint surface reduction, improve postoperative wrist function and confirm the diagnosis of TFCC injury during operation.
4.Restoring After Central Nervous System Injuries: Neural Mechanisms and Translational Applications of Motor Recovery.
Zhengrun GAO ; Zhen PANG ; Yiming CHEN ; Gaowei LEI ; Shuai ZHU ; Guotao LI ; Yundong SHEN ; Wendong XU
Neuroscience Bulletin 2022;38(12):1569-1587
Central nervous system (CNS) injuries, including stroke, traumatic brain injury, and spinal cord injury, are leading causes of long-term disability. It is estimated that more than half of the survivors of severe unilateral injury are unable to use the denervated limb. Previous studies have focused on neuroprotective interventions in the affected hemisphere to limit brain lesions and neurorepair measures to promote recovery. However, the ability to increase plasticity in the injured brain is restricted and difficult to improve. Therefore, over several decades, researchers have been prompted to enhance the compensation by the unaffected hemisphere. Animal experiments have revealed that regrowth of ipsilateral descending fibers from the unaffected hemisphere to denervated motor neurons plays a significant role in the restoration of motor function. In addition, several clinical treatments have been designed to restore ipsilateral motor control, including brain stimulation, nerve transfer surgery, and brain-computer interface systems. Here, we comprehensively review the neural mechanisms as well as translational applications of ipsilateral motor control upon rehabilitation after CNS injuries.
Animals
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Spinal Cord Injuries/therapy*
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Motor Neurons/physiology*
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Brain
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Stroke
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Recovery of Function/physiology*