3D printing and modelling of customized implants and surgical guides for non-human primates

Graphical abstract

[1]  S D Cook,et al.  Hydroxylapatite coating of porous implants improves bone ingrowth and interface attachment strength. , 1992, Journal of biomedical materials research.

[2]  Emad N. Eskandar,et al.  An Open Source 3-D Printed Modular Micro-Drive System for Acute Neurophysiology , 2014, PloS one.

[3]  Detlef Wegener,et al.  Cortical and Subcortical Regions in Nonhuman Primates a System for Recording Neural Activity Chronically and Simultaneously from Multiple , 2022 .

[4]  Christopher Rorden,et al.  The first step for neuroimaging data analysis: DICOM to NIfTI conversion , 2016, Journal of Neuroscience Methods.

[5]  Anthony Atala,et al.  3D bioprinting of tissues and organs , 2014, Nature Biotechnology.

[6]  Sabine Kastner,et al.  A reversible system for chronic recordings in macaque monkeys , 1997, Journal of Neuroscience Methods.

[7]  Benjamin M Wu,et al.  Recent advances in 3D printing of biomaterials , 2015, Journal of Biological Engineering.

[8]  Caroline E. Webster,et al.  Pre-operative simulation of pediatric mastoid surgery with 3D-printed temporal bone models. , 2015, International journal of pediatric otorhinolaryngology.

[9]  Paul G. McMenamin,et al.  Emerging Applications of Bedside 3D Printing in Plastic Surgery , 2015, Front. Surg..

[10]  Caroline E. Webster,et al.  Multi-material 3D Models for Temporal Bone Surgical Simulation , 2015, The Annals of otology, rhinology, and laryngology.

[11]  A. Schwartz,et al.  High-performance neuroprosthetic control by an individual with tetraplegia , 2013, The Lancet.

[12]  Patrick F. Sullivan,et al.  Quantifying prion disease penetrance using large population control cohorts , 2016, Science Translational Medicine.

[13]  Gordon M. Shepherd,et al.  3D-printer visualization of neuron models , 2015, Front. Neuroinform..

[14]  Frederik L. Giesel,et al.  3D printing based on imaging data: review of medical applications , 2010, International Journal of Computer Assisted Radiology and Surgery.

[15]  Yale E. Cohen,et al.  Recent refinements to cranial implants for rhesus macaques (Macaca mulatta) , 2016, Lab Animal.

[16]  Lucia L. Prieto-Godino,et al.  Open Labware: 3-D Printing Your Own Lab Equipment , 2015, PLoS biology.

[17]  K. F. Betelak,et al.  The use of titanium implants and prosthodontic techniques in the preparation of non-human primates for long-term neuronal recording studies , 2001, Journal of Neuroscience Methods.

[18]  Stephen T. Foldes,et al.  Intracortical microstimulation of human somatosensory cortex , 2016, Science Translational Medicine.

[19]  Shan-hui Hsu,et al.  Review: Polymeric-Based 3D Printing for Tissue Engineering , 2015, Journal of Medical and Biological Engineering.

[20]  A. Toga,et al.  The Rhesus Monkey Brain in Stereotaxic Coordinates , 1999 .

[21]  R. M. McAndrew,et al.  Individualized recording chambers for non-human primate neurophysiology , 2012, Journal of Neuroscience Methods.

[22]  C. Bünger,et al.  Hydroxyapatite coating enhances fixation of porous coated implants. A comparison in dogs between press fit and noninterference fit. , 1990, Acta orthopaedica Scandinavica.

[23]  K. Horch,et al.  A silicon-based, three-dimensional neural interface: manufacturing processes for an intracortical electrode array , 1991, IEEE Transactions on Biomedical Engineering.

[24]  D. L. Adams,et al.  A biocompatible titanium headpost for stabilizing behaving monkeys. , 2007, Journal of neurophysiology.

[25]  Stuart R. Stock,et al.  Hyperelastic “bone”: A highly versatile, growth factor–free, osteoregenerative, scalable, and surgically friendly biomaterial , 2016, Science Translational Medicine.

[26]  Jerald D. Kralik,et al.  Chronic, multisite, multielectrode recordings in macaque monkeys , 2003, Proceedings of the National Academy of Sciences of the United States of America.

[27]  Craig T. Nordhausen,et al.  Optimizing recording capabilities of the Utah Intracortical Electrode Array , 1994, Brain Research.

[28]  J. M. Parker,et al.  A watertight acrylic-free titanium recording chamber for electrophysiology in behaving monkeys. , 2011, Journal of neurophysiology.

[29]  E. Cook,et al.  Surface roughness enhances the osseointegration of titanium headposts in non-human primates , 2012, Journal of Neuroscience Methods.

[30]  Mark Holodniy,et al.  Multifunctional coatings to simultaneously promote osseointegration and prevent infection of orthopaedic implants. , 2016, Biomaterials.

[31]  Luke Bloy,et al.  A method for localizing microelectrode trajectories in the macaque brain using MRI , 2009, Journal of Neuroscience Methods.

[32]  L. Toth,et al.  Stereotactic Surgery and Long-Term Maintenance of Cranial Implants in Research Animals. , 1999, Contemporary topics in laboratory animal science.

[33]  Jayanthi Parthasarathy,et al.  3D modeling, custom implants and its future perspectives in craniofacial surgery , 2014, Annals of maxillofacial surgery.

[34]  R. Legeros,et al.  Properties of osteoconductive biomaterials: calcium phosphates. , 2002, Clinical orthopaedics and related research.

[35]  E. M. Rouiller,et al.  Refined methodology for implantation of a head fixation device and chronic recording chambers in non-human primates , 2013, Journal of Neuroscience Methods.

[36]  Narumi Katsuyama,et al.  Design of a head fixation device for experiments in behaving monkeys , 2005, Journal of Neuroscience Methods.

[37]  Johannes Reichold,et al.  The microvascular system of the striate and extrastriate visual cortex of the macaque. , 2008, Cerebral cortex.

[38]  Denis Evseenko,et al.  TGF-β1 conjugated chitosan collagen hydrogels induce chondrogenic differentiation of human synovium-derived stem cells , 2015, Journal of Biological Engineering.

[39]  Kai-Ming Chan,et al.  From the printer: Potential of three-dimensional printing for orthopaedic applications , 2016, Journal of orthopaedic translation.

[40]  Marcello Imbriani,et al.  A Novel Antibacterial Modification Treatment of Titanium Capable to Improve Osseointegration , 2012, The International journal of artificial organs.

[41]  R. Shayan,et al.  Adipose-Derived Stem Cells in Radiotherapy Injury: A New Frontier , 2014, Front. Surg..

[42]  Anna A. Ivanova,et al.  Significance of calcium phosphate coatings for the enhancement of new bone osteogenesis--a review. , 2014, Acta biomaterialia.

[43]  David T. Eddington,et al.  Rapid prototyping for neuroscience and neural engineering , 2008, Journal of Neuroscience Methods.

[44]  Robert Desimone,et al.  Custom-fit radiolucent cranial implants for neurophysiological recording and stimulation , 2014, Journal of Neuroscience Methods.

[45]  D Buser,et al.  Influence of surface characteristics on bone integration of titanium implants. A histomorphometric study in miniature pigs. , 1991, Journal of biomedical materials research.