| Record ID | marc_nuls/NULS_PHC_180925.mrc:316250408:4781 |
| Source | marc_nuls |
| Download Link | /show-records/marc_nuls/NULS_PHC_180925.mrc:316250408:4781?format=raw |
LEADER: 04781cam 2200361 i 4500
001 9925322976901661
005 20181003120337.0
007 ta
008 170830s2017 enka b 001 0 eng
020 $a9780081007174$q(print)
020 $a0081007175
020 $z9780081007266 (online)
035 $a99977544495
035 $a(OCoLC)960845173
035 $a(OCoLC)ocn960845173
040 $aNLM$beng$erda$cNLM$dYDX$dBDX$dBTCTA$dU3G$dOCLCO
042 $apcc
050 4 $aR857.M3$bA15 2017
082 04 $a610.28$223
245 00 $a3D printing in medicine /$cedited by Dr. Deepak M. Kalaskar.
264 1 $aDuxford, United Kingdom :$bElsevier/Woodhead Publishing,$c[2017]
300 $avii, 226 pages :$billustrations (chiefly color) ;$c24.
336 $atext$btxt$2rdacontent
337 $aunmediated$bn$2rdamedia
338 $avolume$bnc$2rdacarrier
490 1 $aWoodhead Publishing series in biomaterials
504 $aIncludes bibliographical references and index.
505 00 $aMachine generated contents note:$g1.$tIntroduction to 3D printing in medicine /$rDeepak M. Kalaskar --$g1.1.$t3D printing is the latest industrial revolution --$g1.2.$t3D bioprinting in medicine --$g1.3.$tAdvantages of 3D printing for medicine --$g1.4.$tFuture of 3D printing in medicine --$tReferences --$g2.$t3D printing families: laser, powder, nozzle based techniques /$rDeepak M. Kalaskar --$g2.1.$tIntroduction --$g2.2.$tClassification of 3D printing techniques --$g2.3.$tConclusions and future trends --$tReferences --$g3.$tMaterials for 3D printing in medicine: metals, polymers, ceramics, hydrogels /$rAmy Nommeots-Nomm --$g3.1.$tIntroduction --$g3.2.$tMetals --$g3.3.$tBio-ceramics and bioactive glasses --$g3.4.$tPolymers --$g3.5.$tHydrogels --$g3.6.$tSummary and outlook --$tAcknowledgments --$tReferences --$g4.$tComputational analyses and 3D printed models: a combined approach for patient-specific studies /$rSilvia Schievano --$g4.1.$tIntroduction --$g4.2.$tPatient specific models: image reconstruction --$g4.3.$tPatient specific models: 3D Manufacturing --$g4.4.$tComputer simulations of patient specific cardiac models --$g4.5.$tPatient specific models: the current regulatory perspective --$g4.6.$tFuture perspective of patient specific models in cardiovascular applications --$tReferences --$g5.$tPatient specific in situ 3D printing /$rDarnel Mektepbayeva --$g5.1.$tPatient specific 3D printing --$g5.2.$tCurrent medical applications for 3D printing --$g5.3.$tChallenges and future advances --$g5.4.$tSummary --$tReferences --$g6.$t3D printed in vitro disease models /$rFalguni Pati --$g6.1.$tIntroduction --$g6.2.$tRecent in vitro disease models --$g6.3.$tChallenges in developing in vitro disease models --$g6.4.$t3D printing technologies: strategies, key attributes, and advantages --$g6.5.$tFuture scope --$g6.6.$tConclusion --$tAcknowledgments --$tReferences --$g7.$t3D printers for surgical practice /$rSharanya Sankar --$g7.1.$tIntroduction --$g7.2.$tImaging to printed model: steps involved --$g7.3.$tLimitations of CT and MRI images for surgical planning --$g7.4.$t3D printed models for anatomical simulation for surgeons --$g7.5.$tSurgical planning of congenital anomalies --$g7.6.$t3D printed models for anatomical teaching --$g7.7.$tTissue defect specific implant design --$g7.8.$t3D printing for surgical templates and diagnostic tools --$g7.9.$tAdvantages of 3D printed models --$g7.10.$tChallenges for 3D printed models --$g7.11.$tLegal and ethical issues for 3D printing in surgery --$g7.12.$tConclusion --$tReferences --$g8.$t3D printed pharmaceutical products /$rSimon Gaisford --$g8.1.$tIntroduction --$g8.2.$tPharmaceutical inkjet printing --$g8.3.$tPharmaceutical 3D printing --$g8.4.$tSummary --$tReferences --$g9.$tHigh-resolution 3D printing for healthcare underpinned by small-scale fluidics /$rManish K. Tiwari --$g9.1.$tClinical need and context --$g9.2.$tHigh-resolution 3D printing --$g9.3.$tTypes of high-resolution 3D printing --$g9.4.$tFundamentals of micro/nanofluidics --$g9.5.$tPrinting materials --$g9.6.$tExemplar functional devices --$g9.7.$tConclusion and future directions --$tReferences --$g10.$tFour dimensional printing in healthcare /$rApurba K. Das --$g10.1.$tIntroduction --$g10.2.$tNature inspired stimuli responsive materials for 4D printing --$g10.3.$t4D bioprinting --$g10.4.$tStimuli responsive biomaterials for 4D bioprinting in medicine --$g10.5.$tApplications and examples of 4D printing in healthcare --$g10.6.$tSummary and outlook --$tAcknowledgments --$tReferences.
650 0 $aBiomedical materials$xTechnological innovations.
700 1 $aKalaskar, Deepak M.,$eeditor.
830 0 $aWoodhead Publishing series in biomaterials.$x2049-9485
947 $hCIRCSTACKS$r31786103087125
980 $a99977544495