Over the last decade, 3D bioprinting has received immense attention from research
communities for developing functional tissues. Thanks to the complexity of tissues, various …

Highlights•An overview of different bioprinting techniques and their applications.•Two ways
in which bioprinting may prospectively impact patient care.•Bioprinting of implantable …

Three-dimensional (3D) printing of biomaterials provides an interesting alternative for the
production of allograft tissues and organs to circumvent the incidences of donor scarcity and …

Abstract Three-dimensional (3D) printing of hydrogels is now an attractive area of research
due to its capability to fabricate intricate, complex and highly customizable scaffold …

Abstract Three-dimensional (3D) bioprinting is a promising and innovative biomanufacturing
technology, which can achieve precise position controlling of cells and extracellular matrix …

Bioprinting has gained immense attention and achieved the revolutionized progress for
application in the multifunctional tissue regeneration. On account of the precise structural …

Three-dimensional (3D) bioprinting has played an increasingly crucial role in the
manufacturing of organized complex tissues and organs, which has shown tremendous …

As a milestone in soft and hard tissue engineering, a precise control over the micropatterns
of scaffolds has lightened new opportunities for the recapitulation of native body organs …

The use of three-dimensional bioprinting technology combined with the principle of tissue
engineering is important for the construction of tissue or organ regeneration …

Tremendous advances in tissue engineering and regenerative medicine have revealed the
potential of fabricating biomaterials to solve the dilemma of bone and articular defects by …