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J. Hoey  A. M. Todkill 《CMAJ》1997,156(9):1312
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Anne Gilmore 《CMAJ》1985,132(10):1198-1203
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H. E. Emson 《CMAJ》1973,109(8):687-688
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Large prospective biobanks are being established containing DNA, lifestyle and health information in order to study the relationship between diseases, genes and environment. Informed consent is a central component of research ethics protection. Disclosure of information about the research is an essential element of seeking informed consent. Within biobanks, it is not possible at recruitment to describe in detail the information that will subsequently be collected because people will not know which disease they will develop. It will also be difficult to describe the specific research that will be performed using the biobank, other than to stipulate categories of research or diseases that are not included. Potential subjects can only be given information about the sorts of research that will be performed and by whom. Organisations responsible for biobanks usually argue that this disclosure of information is adequate when seeking informed consent, especially if coupled with a right to withdraw, as it would not be feasible or it would be too expensive to seek consent renewal on a regular basis. However, there are concerns about this 'blanket consent' approach'. Consent waivers have also been proposed in which research subjects entrust their consent with an independent third party to decide whether subsequent research using the biobank is consistent with the original consent provided by the subject.  相似文献   

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Age of consent     
J. S. Bennett 《CMAJ》1975,112(4):423
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Informed consent     
J.A. Loeb 《CMAJ》1981,125(1):20
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Abstract

The ability of science and medicine to control the pathogen Mycobacterium tuberculosis (Mtb) requires an understanding of the complex host environment within which it resides. Pathological and biological evidence overwhelmingly demonstrate how the mammalian steroid cholesterol is present throughout the course of infection. Better understanding Mtb requires a more complete understanding of how it utilizes molecules like cholesterol in this environment to sustain the infection of the host. Cholesterol uptake, catabolism and broader utilization are important for maintenance of the pathogen in the host and it has been experimentally validated to contribute to virulence and pathogenesis. Cholesterol is catabolized by at least three distinct sub-pathways, two for the ring system and one for the side chain, yielding dozens of steroid intermediates with varying biochemical properties. Our ability to control this worldwide infectious agent requires a greater knowledge of how Mtb uses cholesterol to its advantage throughout the course of infection. Herein, the current state of knowledge of cholesterol metabolism by Mtb is reviewed from a biochemical perspective with a focus on the metabolic genes and pathways responsible for cholesterol steroid catabolism.  相似文献   

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