Automated and scalable fabrication of scaffolded spheroids as building blocks for modular tissue engineering

3D Bioprinted osteochondral model based on hierarchical polymeric microarchitectures for in vitro osteoarthritis drug screening

Dual-controlled-release dual-antibiotic-loaded bone scaffolds: Development and in vivo/in vitro study

PAS-Na-encapsulated liposome 3D-printed aerogel scaffolds for intelligent drug delivery system

Converging Pvt1 signaling and 3D-bioprinting technology for next-generation biodegradable tracheal replacement constructs

3D-printed collagen scaffold and adipose tissue mesenchymal stem cells-derived limbal stem cells for the treatment of limbal stem cell deficiency

Integrating machine learning and finite element simulation for interpretable prediction of 3D-printed bone scaffold mechanics

Suspended 3D printing of polycaprolactone/hydroxyapatite composites for mimicking complex structured bone scaffolds

Bioprinting and in vitro characterization of alginate-gelatin constructs incorporating human umbilical vein endothelial cells for potential cardiac tissue engineering

Dual-nozzle 3D-printed calcium sulfate/poly (lactic acid) scaffold with linezolid microspheres for efficient repair of femoral condyle defects in rats

Thermally tunable and biodegradable copolymer polymer ink for fabricating 3D-printed implantable drug delivery depots

3D-printable alginate-MoS₂-AgNWs hydrogel bioink for dual-mode wearable capacitive biosensors

Pyridinium-based acrylate additives for multifunctional 3D-printable photosensitive resins with antibacterial, antistatic, and high-strength properties

Personalized 3D-printed tantalum-coated titanium alloy pelvic reconstruction prosthesis for complex pelvic defects: A prospective randomized controlled trial

Biomimetic and personalized optimization of additive-manufactured metallic bone implants: Design, simulation, and clinical outcomes

From cell to organ: The technical challenges in two-photon polymerization for biomedical engineering

From platelet-rich plasma to personalized implants: A commentary on “3D-printed vascularized biofunctional scaffolds for bone regeneration”

Bioprinting strategies for skeletal muscle regeneration: Advances in bioinks, technologies, and functional reconstruction

Advance in blood-brain barrier in vitro models: Integrating bioprinting with microfluidic chips for compound evaluation

Preparation and biocompatibility of partially degradable Ta-Mg interpenetrating composite materials

Customized 3D-printed prosthesis for reconstruction of complex bilateral traumatic knee bone defects: A case report

3D-bioprinted kartogenin-laden hydrogel promotes cartilage regeneration via smad1/5/9-mediated chondrogenesis of bone marrow stromal cells

A multidisciplinary review on footwear 3D printing: From biomechanics to therapeutics

Low-concentration GOQD-functionalized Ti6Al4V scaffolds enhance osteogenesis and angiogenesis for vascularized bone regeneration

3D-bioprinted placenta-on-a-chip platform for modeling the human maternal–fetal barrier

Inkjet bioprinting of NE-4C neural progenitor cells with enhanced neuronal differentiation via retinoic acid treatment

3D-printed patient-specific titanium implant for mandibular reconstruction with local drug release: Optimization, in vivo evaluation, and functional assessment

3D-printed PETG/BC for bone tissue repair

Macro–micro analysis of the physical and biological properties of 3D-printed hydroxyapatite/β-tricalcium phosphate scaffolds with varying polyvinyl alcohol concentrations

Advances in decellularized extracellular matrix bioinks for regenerative medicine applications

A 3D bioprinted alginate-MgP scaffold for superior regeneration  of calvarial bone defects in a rat model

Advances and challenges in three-dimensional bioprinting of bone organoids: Materials, techniques, and functionalization strategies

Multi-material bioprinting using a helical mixer for fabricating fibers with controlled composition

Three-dimensional-printed hydrogel scaffolds with neuregulin-1 sustained-release microspheres for enhanced dedifferentiation and myelin regeneration in peripheral nerve injury

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