Multimodal 3D printing of biodegradable shape memory elastomer resins for patient specific soft tissue repair

[1]  Suraj Kumar Singh,et al.  Printing parameters and materials affecting mechanical properties of FDM-3D printed Parts: Perspective and prospects , 2021, Materials Today: Proceedings.

[2]  A. Hotta,et al.  Mechanical Property of Polypropylene Gels Associated with That of Molten Polypropylenes , 2021, Gels.

[3]  S. Hollister,et al.  Development of Photocrosslinked Poly(glycerol dodecanedioate)—A Biodegradable Shape Memory Polymer for 3D‐Printed Tissue Engineering Applications , 2021, Advanced Engineering Materials.

[4]  J. Ostrauskaite,et al.  Influence of photoinitiator and temperature on photocross-linking kinetics of acrylated epoxidized soybean oil and properties of the resulting polymers , 2021 .

[5]  Daniel J. Shiwarski,et al.  Emergence of FRESH 3D printing as a platform for advanced tissue biofabrication , 2021, APL bioengineering.

[6]  M. D. dos Santos,et al.  Comparison of material properties and biofilm formation in interim single crowns obtained by 3D printing and conventional methods. , 2020, The Journal of prosthetic dentistry.

[7]  A. D'Amato,et al.  Three-Dimensional Printing of Poly(glycerol sebacate) Acrylate Scaffolds via Digital Light Processing. , 2020, ACS applied bio materials.

[8]  S. Hollister,et al.  Modulating nonlinear elastic behavior of biodegradable shape memory elastomer and small intestinal submucosa(SIS) composites for soft tissue repair. , 2020, Journal of the mechanical behavior of biomedical materials.

[9]  S. Hollister,et al.  Designing Biodegradable Shape Memory Polymers for Tissue Repair , 2020, Advanced Functional Materials.

[10]  M. Mohammed,et al.  Effect of layer thickness and cross-section geometry on the tensile and compression properties of 3D printed ABS , 2020 .

[11]  S. Hollister,et al.  Degradation properties of a biodegradable shape memory elastomer, poly(glycerol dodecanoate), for soft tissue repair , 2020, PloS one.

[12]  Elisa Aznarte Garcia,et al.  Material Property-Manufacturing Process Optimization for Form 2 Vat-Photo Polymerization 3D Printers , 2020 .

[13]  Wei Long Ng,et al.  Vat polymerization-based bioprinting—process, materials, applications and regulatory challenges , 2019, Biofabrication.

[14]  S. Hollister,et al.  Evaluation of human nasal cartilage nonlinear and rate dependent mechanical properties. , 2019, Journal of biomechanics.

[15]  Shuai Wang,et al.  Digital Light Processing Based Three-dimensional Printing for Medical Applications , 2019, International journal of bioprinting.

[16]  Mark A. Skylar-Scott,et al.  Voxelated soft matter via multimaterial multinozzle 3D printing , 2019, Nature.

[17]  J. Fisher,et al.  Hybrid 3D Printing of Synthetic and Cell‐Laden Bioinks for Shape Retaining Soft Tissue Grafts , 2019, Advanced functional materials.

[18]  Mark W. Tibbitt,et al.  Additive Manufacturing of Precision Biomaterials , 2019, Advanced materials.

[19]  S. Heo,et al.  Effects of Printing Parameters on the Fit of Implant-Supported 3D Printing Resin Prosthetics , 2019, Materials.

[20]  Arup Dey,et al.  A Systematic Survey of FDM Process Parameter Optimization and Their Influence on Part Characteristics , 2019, Journal of Manufacturing and Materials Processing.

[21]  Z. Deng,et al.  A method to predict the ultimate tensile strength of 3D printing polylactic acid (PLA) materials with different printing orientations , 2019, Composites Part B: Engineering.

[22]  Xiangsong Lin,et al.  Effects of Cross-Link Density and Distribution on Static and Dynamic Properties of Chemically Cross-Linked Polymers , 2019, Macromolecules.

[23]  Peng Liu,et al.  What makes a material printable? A viscoelastic model for extrusion-based 3D printing of polymers , 2018, Journal of Manufacturing Processes.

[24]  Dayakar L. Naik,et al.  On anisotropy, strain rate and size effects in vat photopolymerization based specimens , 2018, Additive Manufacturing.

[25]  Natalia Majca-Nowak,et al.  The Accuracy and the Printing Resolution Comparison of Different 3D Printing Technologies , 2018, Transactions on Aerospace Research.

[26]  Sok-Leng Kang,et al.  Recent advances in cardiac catheterization for congenital heart disease , 2018, F1000Research.

[27]  C. Yeoh,et al.  Effect of Printing Parameters on Tensile, Dynamic Mechanical, and Thermoelectric Properties of FDM 3D Printed CABS/ZnO Composites , 2018, Materials.

[28]  Soo-Yeon Shin,et al.  Three‐dimensional comparative study on the accuracy and reproducibility of dental casts fabricated by 3D printers , 2018, The Journal of prosthetic dentistry.

[29]  Wei Zhu,et al.  3D-Printing of Functional Biomedical Microdevices via Light- and Extrusion-Based Approaches. , 2018, Small methods.

[30]  T. Bass,et al.  Challenges for Expanded Use of Transcatheter Aortic Valve Replacement. , 2017, Circulation. Cardiovascular interventions.

[31]  T. R. Souza,et al.  Non-linear finite element model to assess the effect of tendon forces on the foot-ankle complex. , 2017, Medical engineering & physics.

[32]  Masimba Nyandowe,et al.  A New Era of Minimally Invasive Surgery: Progress and Development of Major Technical Innovations in General Surgery Over the Last Decade , 2017, The Surgery Journal.

[33]  Chee Kai Chua,et al.  Comparison of solid, liquid and powder forms of 3D printing techniques in membrane spacer fabrication , 2017 .

[34]  Thomas J. Wallin,et al.  Highly Elastic, Transparent, and Conductive 3D‐Printed Ionic Composite Hydrogels , 2017 .

[35]  S. Hollister,et al.  Tailoring the physicochemical and shape memory properties of the biodegradable polymer poly(glycerol dodecanoate) via curing conditions. , 2017, Journal of biomedical materials research. Part A.

[36]  Thomas Eschenhagen,et al.  Engineering Cardiac Muscle Tissue: A Maturating Field of Research. , 2017, Circulation research.

[37]  Marc Behl,et al.  Recent advances in degradable lactide-based shape-memory polymers. , 2016, Advanced drug delivery reviews.

[38]  Liliang Ouyang,et al.  3D printing of photocurable poly(glycerol sebacate) elastomers , 2016, Biofabrication.

[39]  Matthew B. Wheeler,et al.  Integrating Image-Based Design and 3D Biomaterial Printing to create Patient Specific Devices within a Design Control Framework for Clinical Translation. , 2016, ACS biomaterials science & engineering.

[40]  Madhurima Vardhan,et al.  Surgical mesh for ventral incisional hernia repairs: Understanding mesh design , 2016, Plastic surgery.

[41]  Randall J. Lee,et al.  One‐year follow‐up results from AUGMENT‐HF: a multicentre randomized controlled clinical trial of the efficacy of left ventricular augmentation with Algisyl in the treatment of heart failure , 2016, European journal of heart failure.

[42]  Colleen L Flanagan,et al.  Biomechanical evaluation of human and porcine Auricular cartilage , 2015, The Laryngoscope.

[43]  P. Tran,et al.  Metal-on-Metal Hip Arthroplasty: A Review of Adverse Reactions and Patient Management , 2015, Journal of functional biomaterials.

[44]  T. Scherzer,et al.  Monitoring of the shrinkage during the photopolymerization of acrylates using hyphenated photorheometry/near‐infrared spectroscopy , 2015 .

[45]  Scott J. Hollister,et al.  Mitigation of tracheobronchomalacia with 3D-printed personalized medical devices in pediatric patients , 2015, Science Translational Medicine.

[46]  Hiroshi Ito,et al.  Long-term outcome after transcatheter closure of atrial septal defect in older patients: impact of age at procedure. , 2015, JACC. Cardiovascular interventions.

[47]  S. Hollister,et al.  Computer Aided–Designed, 3-Dimensionally Printed Porous Tissue Bioscaffolds for Craniofacial Soft Tissue Reconstruction , 2013, Otolaryngology--head and neck surgery : official journal of American Academy of Otolaryngology-Head and Neck Surgery.

[48]  C. Tsui,et al.  Minimally invasive surgery: national trends in adoption and future directions for hospital strategy , 2013, Surgical Endoscopy.

[49]  B. Bach,et al.  The role of platelet-rich plasma in arthroscopic rotator cuff repair: a systematic review with quantitative synthesis. , 2012, Arthroscopy : the journal of arthroscopic & related surgery : official publication of the Arthroscopy Association of North America and the International Arthroscopy Association.

[50]  S. Hollister,et al.  Mechanical characterization and non-linear elastic modeling of poly(glycerol sebacate) for soft tissue engineering. , 2012, Journal of the mechanical behavior of biomedical materials.

[51]  Spencer E. Szczesny,et al.  Biaxial tensile testing and constitutive modeling of human supraspinatus tendon , 2012, 2012 38th Annual Northeast Bioengineering Conference (NEBEC).

[52]  A. Pasquet,et al.  Percutaneous transcatheter closure of interatrial septal defect in adults: Procedural outcome and long‐term results , 2012, Catheterization and cardiovascular interventions : official journal of the Society for Cardiac Angiography & Interventions.

[53]  Chengli Song,et al.  History and Current Situation of Shape Memory Alloys Devices for Minimally Invasive Surgery , 2010 .

[54]  Scott J Hollister,et al.  Poly(glycerol-dodecanoate), a biodegradable polyester for medical devices and tissue engineering scaffolds. , 2009, Biomaterials.

[55]  Ken Gall,et al.  Effect of chemical structure and crosslinking density on the thermo-mechanical properties and toughness of (meth)acrylate shape-memory polymer networks , 2008 .

[56]  J. Karp,et al.  Synthesis and characterization of photocurable elastomers from poly(glycerol-co-sebacate). , 2007, Biomacromolecules.

[57]  Bernhard Meier,et al.  Percutaneous coronary interventions in Europe , 2007, Clinical Research in Cardiology.

[58]  Patrick T. Mather,et al.  Review of progress in shape-memory polymers , 2007 .

[59]  Yiping Liu,et al.  Thermomechanics of the shape memory effect in polymers for biomedical applications. , 2005, Journal of biomedical materials research. Part A.

[60]  B Jaffray,et al.  Minimally invasive surgery , 2005, Archives of Disease in Childhood.

[61]  A. Lendlein,et al.  Shape-memory polymers , 2002 .

[62]  Jack G. Zhou,et al.  PARAMETRIC PROCESS OPTIMIZATION TO IMPROVE THE ACCURACY OF RAPID PROTOTYPED STEREOLITHOGRAPHY PARTS , 2000 .

[63]  Debasish Dutta,et al.  Deposition Strategies and Resulting Part Stiffnesses in Fused Deposition Modeling , 1999 .

[64]  E. Yoshii Cytotoxic effects of acrylates and methacrylates: relationships of monomer structures and cytotoxicity. , 1997, Journal of biomedical materials research.