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Title

3-D Bioprinting Technology in Veterinary Medicine : A Mini-Review

Author

, Fahadul Islam,

Email

Abstract

 

to generate a wide range of tissues and organs.

Access to bioprinted organs could help to

alleviate the present animal organ shortage

challenge. In combination with developments

in tissue engineering, these technologies could

also help in the treatment of several problems

within veterinary medicine including horse

bone fractures, articular cartilage healing, or

the generation of more realistic disease models.

The driving force behind recent breakthroughs

in 3D bioprinting has been its value in animal

treatment. Research projects targeting human

applications have leveraged companion animal

models to examine the safety and efcacy of

bioprinted tissues.Bioprinting is a versatile tool, which is capable

to generate a wide range of tissues and organs.

Access to bioprinted organs could help to

alleviate the present animal organ shortage

challenge. In combination with developments

in tissue engineering, these technologies could

also help in the treatment of several problems

within veterinary medicine including horse

bone fractures, articular cartilage healing, or

the generation of more realistic disease models.

The driving force behind recent breakthroughs

in 3D bioprinting has been its value in animal

treatment. Research projects targeting human

applications have leveraged companion animal

models to examine the safety and efcacy of

bioprinted tissues.Bioprinting is a versatile tool, which is capable

to generate a wide range of tissues and organs.

Access to bioprinted organs could help to

alleviate the present animal organ shortage

challenge. In combination with developments

in tissue engineering, these technologies could

also help in the treatment of several problems

within veterinary medicine including horse

bone fractures, articular cartilage healing, or

the generation of more realistic disease models.

The driving force behind recent breakthroughs

in 3D bioprinting has been its value in animal

treatment. Research projects targeting human

applications have leveraged companion animal

models to examine the safety and efcacy of

bioprinted tissues.Bioprinting is a versatile tool, which is capable

to generate a wide range of tissues and organs.

Access to bioprinted organs could help to

alleviate the present animal organ shortage

challenge. In combination with developments

in tissue engineering, these technologies could

also help in the treatment of several problems

within veterinary medicine including horse

bone fractures, articular cartilage healing, or

the generation of more realistic disease models.

The driving force behind recent breakthroughs

in 3D bioprinting has been its value in animal

treatment. Research projects targeting human

applications have leveraged companion animal

models to examine the safety and efcacy of

bioprinted tissues.Bioprinting is a versatile tool, which is capable

to generate a wide range of tissues and organs.

Access to bioprinted organs could help to

alleviate the present animal organ shortage

challenge. In combination with developments

in tissue engineering, these technologies could

also help in the treatment of several problems

within veterinary medicine including horse

bone fractures, articular cartilage healing, or

the generation of more realistic disease models.

The driving force behind recent breakthroughs

in 3D bioprinting has been its value in animal

treatment. Research projects targeting human

applications have leveraged companion animal

models to examine the safety and efcacy of

bioprinted tissues.Bioprinting is a versatile tool, which is capable

to generate a wide range of tissues and organs.

Access to bioprinted organs could help to

alleviate the present animal organ shortage

challenge. In combination with developments

in tissue engineering, these technologies could

also help in the treatment of several problems

within veterinary medicine including horse

bone fractures, articular cartilage healing, or

the generation of more realistic disease models.

The driving force behind recent breakthroughs

in 3D bioprinting has been its value in animal

treatment. Research projects targeting human

applications have leveraged companion animal

models to examine the safety and efcacy of

bioprinted tissues.

Keywords

Bioprinting, tissue engineering, veterinary medicine, animal models

Journal or Conference Name

Indian Veterinary Journal

Publication Year

2021

Indexing

scopus