共查询到20条相似文献,搜索用时 31 毫秒
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The concept of muscle tuning suggests that vibrations of the soft tissue compartments of the leg initiated by impacts are minimized by muscular activity prior to heel-strike of heel-toe running. For the quantification of muscle tuning it has been assumed (1) that the soft tissue compartment acts as one lumped mass and (2) that vibration energy dissipation does occur within one muscle. The purpose of this study was to test these two assumptions. It was hypothesized that (H1) the movement of the soft tissue compartment is not homogeneous, (H2) the vibration frequencies for different muscles within one soft tissue compartment are different and (3) attenuation of vibration movement within one muscle does occur. Soft tissue vibrations were measured using accelerometers on four locations on the quadriceps soft tissue compartment during heel-toe running. There were differences in the peak soft tissue acceleration and time of peak acceleration between accelerometer locations. The dominant frequency was similar throughout the soft tissue compartment, however; there was an attenuation of high-frequency vibration energy between distal and proximal points overlying one muscle. This evidence suggests that accelerometer placement is important when quantifying the acceleration magnitude and timing of peak soft tissue compartment but not when estimating the resonant vibration characteristics of a soft tissue compartment. It also provides initial evidence to support the idea that vibration control through muscle tuning may be achieved through changes in energy dissipating properties within the soft tissue compartment. 相似文献
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Bova GS Eltoum IA Kiernan JA Siegal GP Frost AR Best CJ Gillespie JW Su GH Emmert-Buck MR 《Molecular biotechnology》2005,29(2):119-152
Isolation of well-preserved pure cell populations is a prerequisite for sound studies of the molecular basis of any tissue-based
biological phenomenon. This article reviews current methods for obtaining anatomically specific signals from molecules isolated
from tissues, a basic requirement for productive linking of phenotype and genotype. The quality of samples isolated from tissue
and used for molecular analysis is often glossed over or omitted from publications, making interpretation and replication
of data difficult or impossible. Fortunately, recently developed techniques allow life scientists to better document and control
the quality of samples used for a given assay, creating a foundation for improvement in this area. Tissue processing for molecular
studies usually involves some or all of the following steps: tissue collection, gross dissection/identification, fixation,
processing/embedding, storage/archiving, sectioning, staining, microdissection/annotation, and pure analyte labeling/identification
and quantification. We provide a detailed comparison of some current tissue microdissection technologies, and provide detailed
example protocols for tissue component handling upstream and downstream from microdissection. We also discuss some of the
physical and chemical issues related to optimal tissue processing, and include methods specific to cytology specimens. We
encourage each laboratory to use these as a starting point for optimization of their overall process of moving from collected
tissue to high quality, appropriately anatomically tagged scientific results. In optimized protocols is a source of inefficiency
in current life science research. Improvement in this area will significantly increase life science quality and productivity.
The article is divided into introduction, materials, protocols, and notes sections. Because many protocols are covered in
each of these sections, information relating to a single protocol is not contiguous. To get the greatest benefit from this
article, readers are advised to read through the entire article first, identify protocols appropriate to their laboratory
for each step in their workflow, and then reread entries in each section pertaining to each of these single protocols. 相似文献
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Y Kato 《Tanpakushitsu kakusan koso. Protein, nucleic acid, enzyme》1966,11(11):1022-1025
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Y Nagai 《Tanpakushitsu kakusan koso. Protein, nucleic acid, enzyme》1966,11(11):1081-1082
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Sia SK Gillette BM Yang GJ 《Birth defects research. Part C, Embryo today : reviews》2007,81(4):354-361
We propose the term "synthetic tissue biology" to describe the use of engineered tissues to form biological systems with metazoan-like complexity. The increasing maturity of tissue engineering is beginning to render this goal attainable. As in other synthetic biology approaches, the perspective is bottom-up; here, the premise is that complex functional phenotypes (on par with those in whole metazoan organisms) can be effected by engineering biology at the tissue level. To be successful, current efforts to understand and engineer multicellular systems must continue, and new efforts to integrate different tissues into a coherent structure will need to emerge. The fruits of this research may include improved understanding of how tissue systems can be integrated, as well as useful biomedical technologies not traditionally considered in tissue engineering, such as autonomous devices, sensors, and manufacturing. 相似文献
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Tupasela A 《New genetics and society》2006,25(1):33-49
This paper examines diverging notions of value in the use of tissue sample collections and other information resources using a case study of hereditary colorectal cancer research in Finland. Recent science and technology policies that emphasize the production of commercial value derived from tissue sample collections are challenged by varying conceptions of value, as well as structural factors that relate to the combination of different public population information systems in the Finnish research system. Such challenges reflect a tension in the economic aspirations of the ideology of the knowledge society in relation to the goals of national health care policies, as well as the role of the state as a mediator of knowledge production and commercial development. 相似文献
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No reliable connective tissue stains for GMA sections were available until recently. However, the use of toluidine blue in combination with basic fuchsin appeared to be a rapid and reliable connective tissue stain for glycol methacrylate (GMA) embedded tissue. 相似文献
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Following legislative changes in 2004 and the establishment of the Human Tissue Authority, access to human tissues for biomedical
research became a more onerous and tightly regulated process. Ethical Tissue was established to meet the growing demand for
human tissues, using a process that provided ease of access by researchers whilst maintaining the highest ethical and regulatory
standards. The establishment of a licensed research tissue bank entailed several key criteria covering ethical, legal, financial
and logistical issues being met. A wide range of stakeholders, including the HTA, University of Bradford, flagged LREC, hospital
trusts and clinical groups were also integral to the process. 相似文献
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LEVANDER G 《Acta pathologica et microbiologica Scandinavica》1949,26(1):113-141
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Elbert DL 《Current opinion in biotechnology》2011,22(5):674-680
Recapitulating the elegant structures formed during development is an extreme synthetic and biological challenge. Great progress has been made in developing materials to support transplanted cells, yet the complexity of tissues is far beyond that found in even the most advanced scaffolds. Self-assembly is a motif used in development and a route for the production of complex materials. Self-assembly of peptides, proteins and other molecules at the nanoscale is promising, but in addition, intriguing ideas are emerging for self-assembly of micron-scale structures. In this brief review, very recent advances in the assembly of micron-scale cell aggregates and microgels will be described and discussed. 相似文献
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Martinod E Zakine G Fornes P Zegdi R d'Audiffret A Aupecle B Goussef N Azorin J Chachques JC Fabiani JN Carpentier A 《Comptes rendus de l'Académie des sciences. Série III, Sciences de la vie》2000,323(5):455-460
Tracheal reconstruction after extensive resection remains an unsolved surgical problem. Numerous attempts have been made using tracheal grafts or prosthetic conduits with disappointing results. In this study, we propose a new alternative using an aortic autograft as tracheal substitute. In a first series of experiments, a half circumference of two rings was replaced with an autologous carotid artery patch. In a second series, a complete segment of trachea was replaced with an autologous aortic graft supported by an endoluminal tracheal stent. No dehiscence or stenosis was observed. Microscopic examinations at 3 and 6 months showed the replacement of the aortic tissue by tracheal tissue comprising neoformation of cartilage and mucociliary or non-keratinizing metaplastic polystratified squamous epithelium. Although these results need to be confirmed by a larger series of experiments, they showed that a vascular tissue placed in a different environment with a different function can be submitted to a metaplastic transformation which tends to restore a normal structure adapted to its new function. These remarkable findings offer new perspectives in tracheal reconstruction in human. 相似文献
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Engineering vascularized tissue 总被引:1,自引:0,他引:1