1.Longitudinal observations of the prevalence of nutritional risk and undernutrition in patients with head and neck cancer during radiotherapy
Sanli JIN ; Qian LU ; Dong PANG ; Ping YANG ; Shuang SHI
Chinese Journal of Clinical Nutrition 2017;25(1):22-28
Objective To investigate the changes in prevalence of nutritional risk and undemutrition in patients with head and neck cancer during radiotherapy.Methods In this longitudinal observational study,a convenience sampling method was used to recruit patients with head and neck cancer who were receiving radiotherapy in Beijing Cancer Hospital.Nutritional Risk Screening 2002 (NRS 2002) was applied to assess the prevalence of nutritional risk in the patients,and Patient-Generated Subjective Global Assessment (PG-SGA) and body composition test to determine the prevalence of malnutrition (undernutrition) before,during and after radiotherapy.Results 56 patients finished the three follow-up exams.Along with the progress of radiotherapy,the scores of NRS 2002 increased gradually (1.64±1.09 vs.2.30 ±1.06 vs.3.14 ±1.07,x2 =46.639,P<0.001),and the prevalence of nutritional risk also increased gradually (21.43% vs.37.50% vs.71.43%,x2 =29.700,P <0.001);the total scores of PG-SGA [1 (1-13) vs.6 (1-15) vs.12 (1-18),x2 =63.206,P<0.001] and dimensions of weight [0 (0-4) vs.1 (0-4) vs.3 (0-6),x2 =40.798,P<0.001],intake [0 (0-2) vs.1 (0-2) vs.2 (0-4),x2=64.707,P<0.001] and symptoms [0 (0-7) vs.2 (0-10) vs.6 (0-11),x2 =61.562,P < 0.001] all increased gradually with statistical significance.The prevalence of malnutrition in different stage of radiotherapy were significantly different (x2 =64.999,P < 0.001).The body composition analysis in 40 patients showed that all the indicators of body composition decreased significantly along with the progress of radiotherapy.There was a great loss in patients' body weight during radiotherapy,especially the fat-free mass.Conclusions The prevalence of nutritional risk and undernutrition may increase in patients with head and neck cancer during radiotherapy.Lean body mass accounted for most of the weight loss.We should pay more attention to those patients' nutritional status during radiotherapy.
2.Effect of glial cell-derived neurotrophic factor-modified adipose-derived stem cells on survival of co-cultured dopaminergic neurons
Ping WANG ; Xinrui WANG ; Shuyuan YU ; Pang JIN ; Zhicheng LU
Chinese Journal of Tissue Engineering Research 2009;13(27):5265-5270
BACKGROUND: Reports regarding adipose-derived stern cells (ADSCs) differentiation into dopaminergic (DN) neurons are few in addition, there is not experimental evidence of the effect of ADSCs on maintaining the survival of DN neurons.OBJECTIVE: To investigate the effect of glial cell-derived neurokophic factor (GDNF)-modified adipose-derived stem cells on survival of DN neurons under co-cultured condition.DESIGN, TIME AND SETrlNG: The in vitro cytology experiment was conducted at the Institute of Otolaryngology-Head and Neck Surgery and Key Laboratory of Zoonoses of Ministry of Education between March and December 2007.MATERIALS: Wistar rats with 3-weeks-old, or 14 days of pregnancy were provided by Norman Bethune College of Medicine, Jilin University.METHODS: The GDNF recombinant adenovirus was constructed by using pAdTrackCMV and pAdEasy-1 system. DN neurons were obtained from the rostral mesencaphalic tegmentum of Wistar rat embryos by using trypsin and collagenase method. ADSCs isolated from rat inguinal fat pads were digested with collagenase Ⅱ, cultured and passaged in vitro. When the cells reached 60% cenfluency at the 3rd passage, cells were transfectad with 1×109vp/mL of Ad-GDNF for 1 hour and then transferred into growth medium for another 24 hours, and GDNF level in cell supematant was detected by ELISA assay. Meanwhile, the co-cultured of ADSCs and DN neurons were carried out for following 7 days. With GFP-modified ADSCs was served as a control group.MAIN OUTCOME MEASURES: The effect of co-cultured condition on the survival of DN neurons, as well as the differentiation of GDNF-modified ADSCs was detected by immunofluorescence staining.RESULTS: GDNF appeared in ADSCs supematant at 24 hours after Ad-GDNF transfection and reached a peak at 72 hours.There was approximately 80% GFP-positive labeled in ADSCs. The tyrosinase hydroxylase staining results demonstrated that the rate of survival DN neurons were significantly increased than in DA neurons cultured alone, co-cultured group of GFP-modified ADSCs and GDNF-modified ADSCs groups (55%, 15%, 25%, P < 0.01). However, there were no co-expressing TH and GFP positive cells appeared at 7 days of co-culture, which indicated that the co-cultured condition was not available to ADSCs differentiation.CONCLUSION: The co-cultured of GDNF modified ADSCs and DN neurons can promote the survival and growth of cultured DN neurons, however, it can not induce ADSCs differentiate into DN neurons.
5.Effects of parenteral nutrition on the gene expressions of rat intestinal inflammatory cytokines and receptors
Chunyu LU ; Jian WANG ; Shungen HUANG ; Ping LI ; Meifang JIN
Chinese Journal of Clinical Nutrition 2010;18(1):33-37,illust 2
Objective To identify the effects of parenteral nutrition (PN) on the gene expressions of rat intestinal inflammatory cytokincs and receptors and to explore the role of these changes in PN-related intestinal impairment. Methods Totally 12 male Sprague-Dawley rats were equally divided into the control group and the PN group. A silastic catheter was inserted into the right jugular vein of each rat. No food or water was administered to the PN group except for a continuous 24-hour PN infusion through the silastic catheter in the jugular vein. The control group, while being regularly fed, was administered with an infusion of normal saline through the silastic catheter in thc jugular vein. After 7 days, intestinal tissues were taken for electron microscopy and real-time PCR array to analyze thc microstructure change in rat intestine and thc gene expressions of inflammatory cytokines and their receptors. Results Electron microscopy revealed atrophy of microvillus, engorgement of mitochondria, cell-cell junction breakage, and several apoptotic bodies in the PN group and normal intestinal microstructure in the control group. Compared with the control group, the PN group showed an up-regulation in the gene expressions of interferon γ, interleukin-1 receptor type I , interlcukin-8 receptor type b and a down-regulation in the gene expressions of CC chemokine ligand 17 (CCL17) , CCL19, CCL21, CCL22, CCL9, CXC chemokine receptor 3, CC chemokine receptor 3 ( CCP3 ), CCR7, CCR5, C-reactive protein, and interleukin-10. Conclusions PN influences the gene expressions of rat intestinal inflammatory cytokincs and receptors. The expression of cytokine interferon γ increases and that of interleukin-10 declines, and the expressions of CCL19, CCL21, CXC chemokine receptor 3, CCR3,CCR7, and CCR5 decline. The alterations of these genes may be associated with the impairment of intestinal immune and mechanical functions.
6.Anti-Tumor Study of pOSP1-HSVtk Gene Therapy by Polyethylenimine Mediated Transfection in Ovarian Cancer
Ping JIN ; Beihua KONG ; Jian QIU ; Huili LU ; Yuhong XU
Chinese Journal of Cancer Biotherapy 1995;0(02):-
0.01). The tumor volume and the tumor weight were also significantly decreased in the treated group (P
7.Different metabolites of leaves between Tripterygium wilfordii and Tripterygium hypoglaucum based on UPLC-Q-TOF-MS.
Chao LIU ; Qing-xiu HAO ; Yan JIN ; Lu-qi HUANG ; Li-ping KANG ; Lan-ping GUO
China Journal of Chinese Materia Medica 2015;40(9):1710-1717
To analysis the differences between Tripterygium wilfordii and T. hypoglaucum, specimens of their leaves were collected from five production regions and analyzed by ultra performance liquid chromatography coupled with quadrupole time of flight mass spectrometry (UPLC-Q-TOF-MS). The data were analyzed by multivariate statistical method, such as hierarchical cluster analysis (HCA) principal component analysis (PCA) and orthogonal signal correction partial least square discrimination (OPLS-DA). Potential markers with VIP values above 5.0 and corresponding r values above 0.85, were selected and further tested by combining mann-Whitney nonparametric. Those with P < 0.001 and AUC = 1 were confirmed as metabolite markers to discriminate them from each other. Results revealed that the two species were obviously different in their leaf metabolites. Based on their mass spectra, 23 potential metabolite markers were identified to distinguish T. wilfordii from T. hypoglaucum.
Chromatography, High Pressure Liquid
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Drugs, Chinese Herbal
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chemistry
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metabolism
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Mass Spectrometry
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Molecular Structure
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Plant Leaves
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chemistry
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metabolism
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Tripterygium
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chemistry
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classification
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metabolism
8.Synergetic effect of flue gases and arsenic on DNA injury in lymphocytes.
Yi WANG ; Chun-wei LU ; Lu WANG ; Ya-ping JIN ; Yuan-yuan XU ; Gui-fan SUN
Chinese Journal of Industrial Hygiene and Occupational Diseases 2006;24(3):175-177
Animals
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Arsenic
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toxicity
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Comet Assay
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DNA Damage
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drug effects
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Lymphocytes
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drug effects
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metabolism
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Male
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Malondialdehyde
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metabolism
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Rats
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Rats, Wistar
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Tobacco Smoke Pollution
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adverse effects
9.Analysis of Prognositic Factors of Severe Traumatic Brain Injury in Pediatric Intensive Care Unit
hai-rong, GONG ; zhu-jin, LU ; guo-ping, LU ; ling-en, ZHANG
Journal of Applied Clinical Pediatrics 1994;0(04):-
5 days.Blood gas analysis and blood pressure were determined at admitted day.Meanwhile,peripheral white blood cells at d1,3,5,and blood glucose were measured every day,respectively.GCS at d1,3,5 and hyperglycemia scorce(HS) were evaluated.Results Of the 82 studied patients,36 cases died.Univariate analysis showed that hypotension,lower GCS,higher peripheral white blood cells and HS were the independent death risk factors(Pa0.05).In multivariate logistic regression,the factors significantly associated with an increase in mortality were hypotension,lower GCS and higher HS.Conclusion Lower GCS,higher HS and hypotension are associated with poor outcome of children with severe trauma brain injury.
10.Clinical analysis of recruitment maneuver with low tidal volume in the treatment of 15 children with acute lung injury.
Yu WANG ; Zhu-jin LU ; Guo-ping LU
Chinese Journal of Pediatrics 2010;48(7):514-519
OBJECTIVETo determine the effects and feasibility of recruitment maneuver (RM) on children with acute lung injury (ALI), and to establish a more reasonable ventilation strategy in the treatment of pediatric ALI.
METHODA prospective physiologic study was conducted in the Pediatric Intensive Care Unit (PICU). Fifteen consecutive eligible pediatric patients with ALI according to the 1994 AECC definition were enrolled in this study. The children received the ventilation of RM with low tidal volume. The clinician administered RM was performed at 30 cm H2O continuous positive airway pressure (CPAP) for 30 seconds. RMs were conducted once every eight hours for five days. Data on gas exchange, lung mechanics and hemodynamics from pre-RM to post-RM (at 5, 15, 30 and 60 min) was recorded at the first, third and fifth day. To monitor the pathogenic conditions of children, the radiographic examination was rechecked for every child within one week. At last, we documented the mortality and the length of ventilation of every patient.
RESULTOn the first, third and fifth day, the P/F ratio of the patients was 243.8 mm Hg, 281.8 mm Hg and 309.9 mm Hg respectively, and significant improvements in oxygenation were demonstrated post-RM compared to pre-RM (P < 0.01). Cdyn [0.762 ml/(cm H2O×kg), 0.835 (ml/cm H2O×;kg), 0.928 ml/(cm H2O×kg)] before RMs also showed increase in the children on the first, third and fifth day (P < 0.01). Though there were some changes in blood pressure and heart rate following RM, no statistically significant changes were found during the course of RM. During the entire study of 5 days, all the 11 subjects whose chest radiograph showed infiltration had improvements, the length of ventilation was (10.15 ± 4.3) d.
CONCLUSIONRM can significantly improve the oxygenation and attenuate the deterioration in pulmonary function in treatment for pediatric ALI and improve the lung compliance. It is safe and feasible.
Acute Lung Injury ; therapy ; Adolescent ; Child ; Child, Preschool ; Humans ; Infant ; Positive-Pressure Respiration ; Prognosis ; Respiration, Artificial ; Treatment Outcome