国际骨科学杂志年月第卷第期,,,,
20151361IntJOrthopJanuary252015Vol.36No.1
··
17
[],,
stereolithographyJ.JMaterProcessTechnol2008208
现个体化治疗,还能减少人工成本和时间成本。对
():
1-3348-365.
复杂的足踝外科手术,打印模型和导向模板不仅
3D
[]
12HoqueME.AdvancedApplicationsofRapidPrototyping
能减少手术难度、减少术中透视次数,更能增强手术
[]:,
TechnologyinModernEngineeringM.RijekaInTech
精确性。此外,打印技术也可应用于制造个体化
3D
:
20111-21
植入物,随着打印模型表面处理和几何精确度
[],,,
3D13MavroidisCRankRGSivakMLetal.Patientsecific
yp
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3D
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Rehabil201181.
有巨大的发展空间。然而,目前打印技术仍存
3D
[],,,
14FaustiniMCNetuneRRCrawfordRHetal.Manufactureof
p
在一定的不足。首先,虽然随着技术的进步,打
3D
PassiveDynamicankle-footorthosesusingselectivelaser
印模型的成本逐年稳步下降,但仍相对稍高;其次,
[],,():
sinteringJ.IEEETransBiomedEng2008552Pt1
打印耗时仍过长,较难应用于急诊手术;最后,
3D
784-790.
[],,,
打印技术的应用仍处于试验阶段,其应用范围需
3D15CreylmanVMuraruLPallariJetal.Gaitassessment
duringtheinitialfittingofcustomizedselectivelasersintering
更多的探索,实际疗效需临床研究验证。若打
3D
[]
anklefootorthosesinsubjectswithdropfootJ.Prosthet
印技术能不断改进及继续发展,其在足踝外科的应
,,():
OrthotInt2013372132-138.
用前景将十分广阔。
[]陈雁西,俞光荣踝关节骨折的治疗策略与数字化临床路径
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