The current therapeutic strategies for ischemic stroke are more limited. In the field of cell therapy, a series of basic and clinical research have suggested that bone marrow mesenchymal stem cells have therapeutic effect on ischemic stroke. This article mainly reviews the biological characteristics of bone marrow mesenchymal stem cells and the latest progresses in research on the treatment of ischemic stroke.

Diabetic peripheral neuropathy(DPN)is the most common complications of DM.It is considered to be progressive and irreversible.DPN occurred in a stocking and glove distribution,the mainly symptoms are pain,numbness and paresthesias.It is also the main cause of ulceration,infection and amputation.Usually,there is no special treatment for DPN besides blood-glucose control and pain control.Recently,Surgical decompression of peripheral nerves is used to restore sensation and relieve pian among DPN patients by Prof.Dellon and other doctors who have proved its efficacy in treatment of DPN.

Based on the introduction of the concept and characteristics of the wearable medical devices,the paper elaborates the development situation of wearable medical devices at home and abroad,focuses on the statement of the functions of wearable medical devices in medical practice including achieving dynamic monitoring,providing medical diagnosis data,finding out the causes of diseases,achieving early treatment of diseases,promoting medical level,improving medical techniques,and relieving the situation of medical resources shortage of China,and meanwhile analyzes the problems of wearable medical devices and the healthcare industry.

The current therapeutic strategies for ischemic stroke are more limited. In the field of biotherapy bone marrow mesenchymal stem cell(BMSC) is a seed cell with the most potential. Synthesizing the advances in methodology of preclinical studies, this article mainly reviews the types of BMSC, time window for cell transplantation, approaches of cell transplantation, tracing technique in vivo after cell transplantation, and treatment effectiveness evaluation.

Neural system diseases are the significant burden threatening life quality of human beings. The investigation of stem cells especially the adult stem cells improved the related basic and clinical research of biological therapy and highlighted a prpspective future. The transplantation of adult stem cells maybe an effective method to treat neural system diseases. So the collaboration between the basic and clinical research will be strenthened to serve patients. Translational medicine is a potential field in which the basic medicine and clinical medicine and linked.

With the economic development of science and technology advance,medical model,as the total understanding of health and disease at a certain historical period,has undergone several different phases:spirtualism medical model,mechanistic medical model,Biological Medical Model and biological-psychological-social medical model.Under the background of biologic and psychogenic society medicine,the professional quality of contemporary doctor faces new requirements and challenges.This article discusses the necessity,importance and approaches of intensifying research on humanistic knowledge which adapts to the transformation of medical model.

The neural stem cells (NSCs) can migrate into the injured area and differentiate into neurons or oligodendrocytes.Endogenous neurogenesis may potentially be harnessed as a putative therapy for neural injury.But the complex micro-environment due to TBI will be one of the biggest challenges for endogenous NSCs to perform neural regenerations.Exogenous NSCs have been shown to be able to survive in host tissues and regulate microenvironment via paracrine effects.Thus, transplantation of NSCs to assist neural regeneration has become an attractive option.Recently, rapid advances in the stem cell biology have raised appealing possibilities of replacing damaged or lost neural cells by transplantation of in vitro-expanded stem cells and/or their neuronal progeny.

BACKGROUND: Conventional opinions believe tissues of central nervous system(CNS) cannot regenerate after injury when they have been developed and maturated. However, recent researches have validated that neural stem cells exist in human and adult animal nervous system, and most of them are in static status in vivo. The therapeutic effects of neural stem cells in cerebral infarct have been a key point in the researches.OBJECTIVE: To observe the reactive process of endogenous neural stem cells after cerebral infarct to explore the effects of endogenous neural stem cell in CNS traumatic rehabilitation, which provides theoretical gist for the self-restoration after cerebral infarct.DESIGN: A randomized controlled trial by using experimental animals as subjects.SETTING: Department of Neurosurgery of Peking Union Hospital.MATERIALS: The study was conducted in the Laboratory of Neurosurgery Department of Peking Union Hospital from March to October in 2003. Totally 82 healthy male Wistar rats with a body mass between 250 g and 300 g were selected.METHODS: Cerebral infarct model was established in rats by thread-ligation method. Rats were divided into post-infarct 1 day, 3 days, 7 days, 14 days and 28 days groups with 14 rats each. Control group was sham-operation group( n= 12). The expressions of bromodeoxyuridine (BrdU) and Nestin in the brain of the rats were dynamically detected by immunohistochemical method.MAIN OUTCOME MEASURES: The changes of BrdU and Nestin positive cell numbers after cerebral infarct in rats.RESULTS: Only very few BrdU and Nestin positive cells had survived in hippocampal dentate gyrus and subventricular zone(SVZ) area in control group. BrdU positive cell significantly increased compared with control group in hippocampus and SVZ area after 1 day of cerebral infarct( P ＜ 0.05),which reached its peak on the 7th day( P ＜ 0.05), started to reduce after 14 days but still in the level significantly higher than normal( P ＜ 0.05), and closed to normal level after 28 days. And moreover, BrdU and Nestin positive cells were significantly more in infarct side than the opposite side ( P＜ 0.05), which migrated towards the opposite side through callus.CONCLUSION: Cerebral infarct can activate the proliferation in situ and migration of endogenous neural stem cell.

Objective To analyze the protein expression in the rat hippocampus by the proteomic approach.Methods Proteins from hippocampal tissue homogenates of the rat were separated by two-dimensional gel electrophoresis(2-DE),and stained with colloidal Coomassie blue to produce a high-resolution map of the rat hippocampus proteome.Selected proteins from this map were digested with trypsin,and the resulting tryptic peptides were analyzed by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry(MALDI-TOF-MS).The mass spectrometric data were used to identify the proteins through searches of the NCBI protein sequence database.Results 37 prominent proteins with various functional characteristics were identified.The identified brain protein classes covered metabolism enzymes,cytoskeleton proteins,heat shock proteins,antioxidant proteins,signalling proteins,proteasome-related proteins,neuron-specific proteins and glial-associated proteins.Furthermore,3 hypothetical proteins,unknown proteins so far only proposed from their nucleic acid structure,were identified.Conclusion This study provides the first unbiased characterization of proteins of the rat hippocampus and will be used for future studies of differential protein expression in rat models of neurological disorders.

Objective To investigate whether quantitative dynamic contrast enhanced MR can predict final pathologic response in primary breast cancer patients undergoing neoadjuvant chemotherapy (NAC).Methods Forty seven patients who were pathologically proved infiltrating ductal carcinoma with core needle puncture biopsy were examined before NAC and after 2 cycles of treatment and the quantitative parameters (Ktrans,Kep and Ve) were analyzed prospectively.Histological response is categorized as non-major histological response (NMHR) and major histological response (MHR).Quantitative parameter changes measured after 2 cycles of NAC were compared between MHR and NMHR using non parametric tests (Mann-Whitney U test) and pretreatment parameters were compared using independent samples t tests.Receiver operating characteristic curve (ROC) was used to determine the best predictor and cutoff value.Results Fifteen patients were grouped into MHR and 32 patients were NMHR.Pretreatment parameters(Ktrans,Kep and Ve) were(1.51 ±0.33) /min,(2.97 ± 1.06) /min and (0.55 ±0.16) in MHR and (1.53 ±0.40) /min,(2.82 ± 0.99) /min and (0.57 ± 0.20) in NMHR.There was no significant difference between the two groups (t values were-0.123,0.450 and-0.380,respectively,P ＞ 0.05).Changes inkinetic parameters(K,Kep and Ve) were-88.2％ (-96.0％ to 1.5％),-62.5％ (-94.3％ to -8.7％) and-57.0％(-82.1％ to 55.5％) in MHRand-8.1％(-88.5％ to 32.4％),-18.2％ (-62.1％ to 145.9％) and-4.7％ (-83.1％ to 95.7％) in NMHR.There were significant difference between the two groups (Z values were 4.359,4.359 and 3.332,respectively,P ＜ 0.01).The areas under ROC curve of AKtrans,AKep and Ktrans after 2 cycles of NAC were all 0.898.Sensitivity of the three parameters for predicting NMHR were 87.5％,90.6％ and 78.1％,and specificity were 86.7％,80.0％ and 93.3％,respectively.Conclusion Quantitative dynamic contrast enhanced MRI can predict final pathologic response in primary breast cancers after 2 cycles of NAC.