Base de dados : MEDLINE
Pesquisa : G01.358.750 [Categoria DeCS]
Referências encontradas : 3053 [refinar]
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[PMID]:29339793
[Au] Autor:Hua Q; Sun J; Liu H; Bao R; Yu R; Zhai J; Pan C; Wang ZL
[Ad] Endereço:CAS Center for Excellence in Nanoscience, Beijing Institute of Nanoenergy and Nanosystems, Chinese Academy of Sciences, Beijing, 100083, China.
[Ti] Título:Skin-inspired highly stretchable and conformable matrix networks for multifunctional sensing.
[So] Source:Nat Commun;9(1):244, 2018 01 16.
[Is] ISSN:2041-1723
[Cp] País de publicação:England
[La] Idioma:eng
[Ab] Resumo:Mechanosensation electronics (or Electronic skin, e-skin) consists of mechanically flexible and stretchable sensor networks that can detect and quantify various stimuli to mimic the human somatosensory system, with the sensations of touch, heat/cold, and pain in skin through various sensory receptors and neural pathways. Here we present a skin-inspired highly stretchable and conformable matrix network (SCMN) that successfully expands the e-skin sensing functionality including but not limited to temperature, in-plane strain, humidity, light, magnetic field, pressure, and proximity. The actualized specific expandable sensor units integrated on a structured polyimide network, potentially in three-dimensional (3D) integration scheme, can also fulfill simultaneous multi-stimulus sensing and achieve an adjustable sensing range and large-area expandability. We further construct a personalized intelligent prosthesis and demonstrate its use in real-time spatial pressure mapping and temperature estimation. Looking forward, this SCMN has broader applications in humanoid robotics, new prosthetics, human-machine interfaces, and health-monitoring technologies.
[Mh] Termos MeSH primário: Fenômenos Mecânicos
Sensação/fisiologia
Fenômenos Fisiológicos da Pele
Pele/metabolismo
[Mh] Termos MeSH secundário: Técnicas Biossensoriais/instrumentação
Técnicas Biossensoriais/métodos
Seres Humanos
Umidade
Campos Magnéticos
Mecanotransdução Celular/fisiologia
Microscopia Eletrônica de Varredura
Pressão
Pele/citologia
Pele/ultraestrutura
Temperatura Ambiente
[Pt] Tipo de publicação:JOURNAL ARTICLE; RESEARCH SUPPORT, NON-U.S. GOV'T
[Em] Mês de entrada:1802
[Cu] Atualização por classe:180226
[Lr] Data última revisão:
180226
[Sb] Subgrupo de revista:IM
[Da] Data de entrada para processamento:180118
[St] Status:MEDLINE
[do] DOI:10.1038/s41467-017-02685-9


  2 / 3053 MEDLINE  
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[PMID]:27774905
[Au] Autor:Imbrogno A; Biscarat J; Schafer AI
[Ad] Endereço:Karlsruhe Institute of Technology, Institute of Functional Interfaces, Membrane Technology Department, Hermann-von-Helmholtz-Platz 1, 76344 Eggenstein-Leopoldshafen, Germany.
[Ti] Título:Estradiol Uptake in a Combined Magnetic Ion Exchange - Ultrafiltration (MIEX-UF) Process During Water Treatment.
[So] Source:Curr Pharm Des;23(2):328-337, 2017.
[Is] ISSN:1873-4286
[Cp] País de publicação:Netherlands
[La] Idioma:eng
[Ab] Resumo:BACKGROUND: Estrogens and their synthetic analogues are widely used as pharmaceuticals. Upon oral administration these drugs are eventually excreted via urine. The persistence of these pharmaceuticals and inefficient removal by water treatment lead to accumulation in surface water and effluents with negative effects for aquatic life and human health. METHODS: In this study, the uptake of estradiol by a combined magnetic ion exchange resin - ultrafiltration process (MIEX-UF) was investigated. This is a relatively common process used in drinking water treatment for the removal of natural organic matter. However, uptake of micropollutants, such as steroidal pharmaceuticals, may occur as a side effect of water treatment due to the high affinity for polymeric materials. To elucidate the mechanism governing estradiol partitioning between water, resin and membrane, the influence of different parameters, such as pH, humic acid concentration and membrane molecular-weight-cut-off (MWCO) was studied. RESULTS: Humic acid concentration and pH affected estradiol uptake most. At pH 11 the most significant increase of estradiol uptake was observed for MIEX-UF process (30 ng/g corresponding to 80%) compared with individual UF (17 ng/g corresponding to 12%). The presence of humic acid slightly reduced estradiol uptake at pH 11 (about 55%) due to competition for the ion exchange binding sites. CONCLUSION: Results demonstrated that the uptake of estradiol, which is amongst the most potent EDCs detected in surface water, in the MIEX-UF process can reach significant quantities (30 ng/g of resin) leading to uncontrolled accumulation of this micropollutant during drinking water treatment. This study gives a novel contribution in the understanding the mechanism of the unanticipated accumulation of pharmaceuticals, such as estradiol, in the drinking water treatment process.
[Mh] Termos MeSH primário: Estradiol/isolamento & purificação
Troca Iônica
Campos Magnéticos
Ultrafiltração/métodos
Purificação da Água/métodos
Água/química
[Mh] Termos MeSH secundário: Estradiol/química
Seres Humanos
Substâncias Húmicas
Concentração de Íons de Hidrogênio
Resinas de Troca Iônica/química
[Pt] Tipo de publicação:JOURNAL ARTICLE; REVIEW; RESEARCH SUPPORT, NON-U.S. GOV'T
[Nm] Nome de substância:
0 (Humic Substances); 0 (Ion Exchange Resins); 059QF0KO0R (Water); 4TI98Z838E (Estradiol)
[Em] Mês de entrada:1801
[Cu] Atualização por classe:180227
[Lr] Data última revisão:
180227
[Sb] Subgrupo de revista:IM
[Da] Data de entrada para processamento:161025
[St] Status:MEDLINE
[do] DOI:10.2174/1381612822666161021142412


  3 / 3053 MEDLINE  
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[PMID]:29381292
[Au] Autor:Pansini M; Dell'Agli G; Marocco A; Netti PA; Battista E; Lettera V; Vergara P; Allia P; Bonelli B; Tiberto P; Barrera G; Alberto G; Martra G; Arletti R; Esposito S
[Ti] Título:Preparation and Characterization of Magnetic and Porous Metal-Ceramic Nanocomposites from a Zeolite Precursor and Their Application for DNA Separation.
[So] Source:J Biomed Nanotechnol;13(3):337-48, 2017 Mar.
[Is] ISSN:1550-7033
[Cp] País de publicação:United States
[La] Idioma:eng
[Ab] Resumo:In this work, metal-ceramic nanocomposites were obtained through short (up to 2 h) thermal treatments at relatively moderate temperatures (750­800 °C) under a reducing atmosphere, using Fe-exchanged zeolite A as the precursor. The as-obtained materials were characterized by X-ray powder diffraction analysis, N2 adsorption at ­196 °C, and highresolution transmission electron microscopy. The results of these analyses showed that the nanocomposites consisted of a dispersion of metallic Fe nanoparticles within a porous ceramic matrix, mainly based on amorphous silica and alumina. These nanocomposites were magnetically characterized, and their magnetic response was studied. Finally, the obtained metal-ceramic nanocomposite materials were used in the separation of Escherichia coli DNA from a crude cell lysate. The results of the DNA separation experiments showed that the obtained materials could perform this type of separation.
[Mh] Termos MeSH primário: DNA Bacteriano/isolamento & purificação
DNA Bacteriano/efeitos da radiação
Separação Imunomagnética/métodos
Nanocompostos/química
Nanocompostos/ultraestrutura
Ultrafiltração/métodos
Zeolitas/química
[Mh] Termos MeSH secundário: DNA Bacteriano/química
Campos Magnéticos
Teste de Materiais
Ligas Metalo-Cerâmicas/química
Nanocompostos/efeitos da radiação
Nanoporos/ultraestrutura
Tamanho da Partícula
Porosidade
[Pt] Tipo de publicação:JOURNAL ARTICLE
[Nm] Nome de substância:
0 (DNA, Bacterial); 0 (Metal Ceramic Alloys); 1318-02-1 (Zeolites)
[Em] Mês de entrada:1802
[Cu] Atualização por classe:180223
[Lr] Data última revisão:
180223
[Sb] Subgrupo de revista:IM
[Da] Data de entrada para processamento:180131
[St] Status:MEDLINE


  4 / 3053 MEDLINE  
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[PMID]:29320580
[Au] Autor:Kim KH; Heo HI; Park SH
[Ad] Endereço:Department of Bio and Brain Engineering, Korea Advanced Institute of Science and Technology, Daejeon, South Korea.
[Ti] Título:Detection of fast oscillating magnetic fields using dynamic multiple TR imaging and Fourier analysis.
[So] Source:PLoS One;13(1):e0189916, 2018.
[Is] ISSN:1932-6203
[Cp] País de publicação:United States
[La] Idioma:eng
[Ab] Resumo:Neuronal oscillations produce oscillating magnetic fields. There have been trials to detect neuronal oscillations using MRI, but the detectability in in vivo is still in debate. Major obstacles to detecting neuronal oscillations are (i) weak amplitudes, (ii) fast oscillations, which are faster than MRI temporal resolution, and (iii) random frequencies and on/off intervals. In this study, we proposed a new approach for direct detection of weak and fast oscillating magnetic fields. The approach consists of (i) dynamic acquisitions using multiple times to repeats (TRs) and (ii) an expanded frequency spectral analysis. Gradient echo echo-planar imaging was used to test the feasibility of the proposed approach with a phantom generating oscillating magnetic fields with various frequencies and amplitudes and random on/off intervals. The results showed that the proposed approach could precisely detect the weak and fast oscillating magnetic fields with random frequencies and on/off intervals. Complex and phase spectra showed reliable signals, while no meaningful signals were observed in magnitude spectra. A two-TR approach provided an absolute frequency spectrum above Nyquist sampling frequency pixel by pixel with no a priori target frequency information. The proposed dynamic multiple-TR imaging and Fourier analysis are promising for direct detection of neuronal oscillations and potentially applicable to any pulse sequences.
[Mh] Termos MeSH primário: Imagem Ecoplanar/métodos
Análise de Fourier
Campos Magnéticos
[Mh] Termos MeSH secundário: Relógios Biológicos
Simulação por Computador
Imagens de Fantasmas
Análise Espectral/métodos
Transmissão Sináptica
[Pt] Tipo de publicação:JOURNAL ARTICLE; RESEARCH SUPPORT, NON-U.S. GOV'T
[Em] Mês de entrada:1802
[Cu] Atualização por classe:180214
[Lr] Data última revisão:
180214
[Sb] Subgrupo de revista:IM
[Da] Data de entrada para processamento:180111
[St] Status:MEDLINE
[do] DOI:10.1371/journal.pone.0189916


  5 / 3053 MEDLINE  
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[PMID]:29238765
[Au] Autor:Varade V; Markus T; Vankayala K; Friedman N; Sheves M; Waldeck DH; Naaman R
[Ad] Endereço:Department of Chemical and Biological Physics, Weizmann Institute of Science, Rehovot, Israel. ron.naaman@weizmann.ac.il.
[Ti] Título:Bacteriorhodopsin based non-magnetic spin filters for biomolecular spintronics.
[So] Source:Phys Chem Chem Phys;20(2):1091-1097, 2018 Jan 03.
[Is] ISSN:1463-9084
[Cp] País de publicação:England
[La] Idioma:eng
[Ab] Resumo:We discuss spin injection and spin valves, which are based on organic and biomolecules, that offer the possibility to overcome some of the limitations of solid-state devices, which are based on ferromagnetic metal electrodes. In particular, we discuss spin filtering through bacteriorhodopsin in a solid state biomolecular spin valve that is based on the chirality induced spin selectivity (CISS) effect and shows a magnetoresistance of ∼2% at room temperature. The device is fabricated using a layer of bacteriorhodopsin (treated with n-octyl-thioglucoside detergent: OTG-bR) that is adsorbed on a cysteamine functionalized gold electrode and capped with a magnesium oxide layer as a tunneling barrier, upon which a Ni top electrode film is placed and used as a spin analyzer. The bR based spin valves show an antisymmetric magnetoresistance response when a magnetic field is applied along the direction of the current flow, whereas they display a positive symmetric magnetoresistance curve when a magnetic field is applied perpendicular to the current direction.
[Mh] Termos MeSH primário: Bacteriorodopsinas/química
Imãs
[Mh] Termos MeSH secundário: Eletrodos
Elétrons
Ouro
Campos Magnéticos
Tioglucosídeos
[Pt] Tipo de publicação:JOURNAL ARTICLE
[Nm] Nome de substância:
0 (Thioglucosides); 53026-44-1 (Bacteriorhodopsins); 7440-57-5 (Gold); 85618-21-9 (n-octyl-beta-D-thioglucopyranoside)
[Em] Mês de entrada:1802
[Cu] Atualização por classe:180209
[Lr] Data última revisão:
180209
[Sb] Subgrupo de revista:IM
[Da] Data de entrada para processamento:171215
[St] Status:MEDLINE
[do] DOI:10.1039/c7cp06771b


  6 / 3053 MEDLINE  
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[PMID]:29323659
[Au] Autor:Zwar E; Kemna A; Richter L; Degen P; Rehage H
[Ad] Endereço:Physikalische Chemie II, TU Dortmund, 44227 Dortmund, Germany.
[Ti] Título:Production, deformation and mechanical investigation of magnetic alginate capsules.
[So] Source:J Phys Condens Matter;30(8):085101, 2018 Feb 28.
[Is] ISSN:1361-648X
[Cp] País de publicação:England
[La] Idioma:eng
[Ab] Resumo:In this article we investigated the deformation of alginate capsules in magnetic fields. The sensitivity to magnetic forces was realised by encapsulating an oil in water emulsion, where the oil droplets contained dispersed magnetic nanoparticles. We solved calcium ions in the aqueous emulsion phase, which act as crosslinking compounds for forming thin layers of alginate membranes. This encapsulating technique allows the production of flexible capsules with an emulsion as the capsule core. It is important to mention that the magnetic nanoparticles were stable and dispersed throughout the complete process, which is an important difference to most magnetic alginate-based materials. In a series of experiments, we used spinning drop techniques, capsule squeezing experiments and interfacial shear rheology in order to determine the surface Young moduli, the surface Poisson ratios and the surface shear moduli of the magnetically sensitive alginate capsules. In additional experiments, we analysed the capsule deformation in magnetic fields. In spinning drop and capsule squeezing experiments, water droplets were pressed out of the capsules at elevated values of the mechanical load. This phenomenon might be used for the mechanically triggered release of water-soluble ingredients. After drying the emulsion-filled capsules, we produced capsules, which only contained a homogeneous oil phase with stable suspended magnetic nanoparticles (organic ferrofluid). In the dried state, the thin alginate membranes of these particles were rather rigid. These dehydrated capsules could be stored at ambient conditions for several months without changing their properties. After exposure to water, the alginate membranes rehydrated and became flexible and deformable again. During this swelling process, water diffused back in the capsule. This long-term stability and rehydration offers a great spectrum of different applications as sensors, soft actuators, artificial muscles or drug delivery systems.
[Mh] Termos MeSH primário: Alginatos
Cápsulas
Campos Magnéticos
[Mh] Termos MeSH secundário: Difusão
Módulo de Elasticidade
Emulsões
Ácido Glucurônico
Ácidos Hexurônicos
Membranas Artificiais
Fenômenos Físicos
Reologia
Água
[Pt] Tipo de publicação:JOURNAL ARTICLE
[Nm] Nome de substância:
0 (Alginates); 0 (Capsules); 0 (Emulsions); 0 (Hexuronic Acids); 0 (Membranes, Artificial); 059QF0KO0R (Water); 8A5D83Q4RW (Glucuronic Acid); 8C3Z4148WZ (alginic acid)
[Em] Mês de entrada:1802
[Cu] Atualização por classe:180208
[Lr] Data última revisão:
180208
[Sb] Subgrupo de revista:IM
[Da] Data de entrada para processamento:180112
[St] Status:MEDLINE
[do] DOI:10.1088/1361-648X/aaa6f5


  7 / 3053 MEDLINE  
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[PMID]:28749344
[Au] Autor:Zhou X; Huang CC; Hall DA
[Ti] Título:Giant Magnetoresistive Biosensor Array for Detecting Magnetorelaxation.
[So] Source:IEEE Trans Biomed Circuits Syst;11(4):755-764, 2017 08.
[Is] ISSN:1940-9990
[Cp] País de publicação:United States
[La] Idioma:eng
[Ab] Resumo:In this paper, a time-domain magnetorelaxometry biosensing scheme is presented using giant magnetoresistive (GMR) sensors to measure the fast relaxation response of superparamagnetic magnetic nanoparticles (MNPs) in a pulsed magnetic field. The system consists of an 8 × 10 GMR sensor array, a Helmholtz coil, an electromagnet driver, and an integrator-based analog front-end needed to capture the fast relaxation dynamics of MNPs. A custom designed electromagnet driver and Helmholtz coil improve the switch-off speed to >5 Oe/µs, limiting the dead zone time to <10 µs, and thus enables the system to monitor fast relaxation processes of 30 nm MNPs. A magnetic correlated double sampling technique is proposed to reduce sensor-to-sensor variation by 99.98% while also reducing temperature drift, circuit offset, and nonlinearity below the noise level. An optimum integration time is calculated and experimentally verified to maximize the SNR. Experiments with dried MNPs have shown successful relaxation detection, and immunoassay experiments have demonstrated their binding kinetics.
[Mh] Termos MeSH primário: Técnicas Biossensoriais
Campos Magnéticos
Nanopartículas/análise
[Mh] Termos MeSH secundário: Imunoensaio
Magnetismo
[Pt] Tipo de publicação:JOURNAL ARTICLE; RESEARCH SUPPORT, U.S. GOV'T, NON-P.H.S.; RESEARCH SUPPORT, NON-U.S. GOV'T
[Em] Mês de entrada:1712
[Cu] Atualização por classe:180209
[Lr] Data última revisão:
180209
[Sb] Subgrupo de revista:IM
[Da] Data de entrada para processamento:170728
[St] Status:MEDLINE
[do] DOI:10.1109/TBCAS.2017.2682080


  8 / 3053 MEDLINE  
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[PMID]:27773654
[Au] Autor:Xin L; Tkác I
[Ad] Endereço:Animal Imaging and Technology Core (AIT), Center for Biomedical Imaging (CIBM), Ecole Polytechnique Fédérale de Lausanne, Lausanne, Switzerland. Electronic address: lijing.xin@epfl.ch.
[Ti] Título:A practical guide to in vivo proton magnetic resonance spectroscopy at high magnetic fields.
[So] Source:Anal Biochem;529:30-39, 2017 07 15.
[Is] ISSN:1096-0309
[Cp] País de publicação:United States
[La] Idioma:eng
[Ab] Resumo:Localized proton magnetic resonance spectroscopy ( H-MRS) is a noninvasive tool for measuring in vivo neurochemical information in animal and human brains. With the increase of magnetic field strength, whereas localized H-MRS benefits from higher sensitivity and spectral dispersion, it is challenged by increased spatial inhomogeneity of the B and B fields, larger chemical shift displacement error, and shortened T relaxation times of metabolites. Advanced localized H-MRS methodologies developed for high magnetic fields have shown promising results and allow the measurement of neurochemical profiles with up to 19 brain metabolites, including less-abundant metabolites, such as glutathione, glycine, γ-aminobutyric acid and ascorbate. To provide a practical guide for conducting in vivo H-MRS studies at high magnetic field strength, we reviewed various essential technical aspects from data acquisition (hardware requirements, B and B inhomogeneity, water suppression, localization sequences and acquisition strategies) to data processing (frequency and phase correction, spectral quality control, spectral fitting and concentration referencing). Additionally, we proposed guidelines for choosing the most appropriate data acquisition and processing approaches to maximize the achievable neurochemical information.
[Mh] Termos MeSH primário: Campos Magnéticos
Guias de Prática Clínica como Assunto/normas
Espectroscopia de Prótons por Ressonância Magnética/métodos
[Mh] Termos MeSH secundário: Animais
Seres Humanos
[Pt] Tipo de publicação:JOURNAL ARTICLE; REVIEW
[Em] Mês de entrada:1708
[Cu] Atualização por classe:180207
[Lr] Data última revisão:
180207
[Sb] Subgrupo de revista:IM
[Da] Data de entrada para processamento:161104
[St] Status:MEDLINE


  9 / 3053 MEDLINE  
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[PMID]:28461068
[Au] Autor:Koponen LM; Nieminen JO; Mutanen TP; Stenroos M; Ilmoniemi RJ
[Ad] Endereço:Department of Neuroscience and Biomedical Engineering, Aalto University, P.O. Box 12200, FI-00076 AALTO, Espoo, Finland; BioMag Laboratory, HUS Medical Imaging Center, University of Helsinki and Helsinki University Hospital, P.O. Box 340, FI-00029 HUS, Helsinki, Finland. Electronic address: lari.kop
[Ti] Título:Coil optimisation for transcranial magnetic stimulation in realistic head geometry.
[So] Source:Brain Stimul;10(4):795-805, 2017 Jul - Aug.
[Is] ISSN:1876-4754
[Cp] País de publicação:United States
[La] Idioma:eng
[Ab] Resumo:BACKGROUND: Transcranial magnetic stimulation (TMS) allows focal, non-invasive stimulation of the cortex. A TMS pulse is inherently weakly coupled to the cortex; thus, magnetic stimulation requires both high current and high voltage to reach sufficient intensity. These requirements limit, for example, the maximum repetition rate and the maximum number of consecutive pulses with the same coil due to the rise of its temperature. OBJECTIVE: To develop methods to optimise, design, and manufacture energy-efficient TMS coils in realistic head geometry with an arbitrary overall coil shape. METHODS: We derive a semi-analytical integration scheme for computing the magnetic field energy of an arbitrary surface current distribution, compute the electric field induced by this distribution with a boundary element method, and optimise a TMS coil for focal stimulation. Additionally, we introduce a method for manufacturing such a coil by using Litz wire and a coil former machined from polyvinyl chloride. RESULTS: We designed, manufactured, and validated an optimised TMS coil and applied it to brain stimulation. Our simulations indicate that this coil requires less than half the power of a commercial figure-of-eight coil, with a 41% reduction due to the optimised winding geometry and a partial contribution due to our thinner coil former and reduced conductor height. With the optimised coil, the resting motor threshold of abductor pollicis brevis was reached with the capacitor voltage below 600 V and peak current below 3000 A. CONCLUSION: The described method allows designing practical TMS coils that have considerably higher efficiency than conventional figure-of-eight coils.
[Mh] Termos MeSH primário: Cabeça/anatomia & histologia
Estimulação Magnética Transcraniana/instrumentação
[Mh] Termos MeSH secundário: Eletromiografia/métodos
Seres Humanos
Campos Magnéticos
Estimulação Magnética Transcraniana/métodos
Estimulação Magnética Transcraniana/normas
[Pt] Tipo de publicação:JOURNAL ARTICLE
[Em] Mês de entrada:1802
[Cu] Atualização por classe:180205
[Lr] Data última revisão:
180205
[Sb] Subgrupo de revista:IM
[Da] Data de entrada para processamento:170503
[St] Status:MEDLINE


  10 / 3053 MEDLINE  
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[PMID]:28459073
[Au] Autor:Zhao J; Li YG; Deng KQ; Yun P; Gong T
[Ad] Endereço:Central Laboratory, Medical School of Yangtze University, Hubei 434003, China.
[Ti] Título:Therapeutic Effects of Static Magnetic Field on Wound Healing in Diabetic Rats.
[So] Source:J Diabetes Res;2017:6305370, 2017.
[Is] ISSN:2314-6753
[Cp] País de publicação:Egypt
[La] Idioma:eng
[Ab] Resumo:. To investigate the effects of static magnetic field (SMF) on cutaneous wound healing of Streptozotocin- (STZ-) induced diabetic rats. . 20 STZ-induced diabetic rats were randomly divided into two groups (10 in each group): diabetic rats with SMF exposure group which were exposed to SMF by gluing one magnetic disk of 230 mT intensity and diabetic rats with sham SMF exposure group (sham group). 10 normal Wistar rats were used as the control group. One open circular wound with 2 cm diameter in the dorsum was generated on both normal and diabetic rats and then covered with sterile gauzes. Wound healing was evaluated by wound area reduction rate, mean time to wound closure, and wound tensile strength. . The wound area reduction rate in diabetic rats in comparison with the control group was significantly decreased ( < 0.01). Compared with sham magnet group, diabetic rats under 230 mT SMF exposure demonstrated significantly accelerated wound area reduction rate on postoperative days 7, 14, and 21 and decreased gross time to wound closure ( < 0.05), as well as dramatically higher wound tissue strength ( < 0.05) on 21st day. . 230 mT SMF promoted the healing of skin wound in diabetic rats and may provide a non-invasive therapeutic tool for impaired wound healing of diabetic patients.
[Mh] Termos MeSH primário: Diabetes Mellitus Experimental
Terapia de Campo Magnético
Pele/lesões
Cicatrização
[Mh] Termos MeSH secundário: Animais
Estudos de Casos e Controles
Campos Magnéticos
Masculino
Ratos
Ratos Wistar
[Pt] Tipo de publicação:JOURNAL ARTICLE
[Em] Mês de entrada:1801
[Cu] Atualização por classe:180130
[Lr] Data última revisão:
180130
[Sb] Subgrupo de revista:IM
[Da] Data de entrada para processamento:170502
[St] Status:MEDLINE
[do] DOI:10.1155/2017/6305370



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