• slidebg1
    Technology
    The Bioink Solution's Gel4Cell is a gelatin-based hydrogel complex
    that is optimally formulated for 3D bioprinting of cells, tissues and organs.
    The Gel4cell bioink can be delivered through a fine nozzle onto substrates
    to form 3D tissue structures.
  • slidebg1
    3-D BIOPRINTING
    allows construction of biological tissue constructs that mimic
    the structure and function of native tissues or organs.
  • slidebg1
    Bioink Solutions
    committed to provide researchers with standardized bioinks that
    are optimally formulated for bioprinting of cells, tissues and organs.

Science & Technology

3-D
Bioprinting

Possible to precisely place various cell types with hydrogel-based bio-inks in a 3-D architecture

Bioink Solutions, inc.

3-D Bioprinting

3-D bioprinting technology allows construction of biological tissue constructs that mimic the structure and function of native tissues or organs

Bio-ink
for cell printing

Availability of hydrogel-based biomaterials that can serve as a cell delivery "bio-ink"

Bioink Solutions, inc.

Bio-ink for cell printing

A cell-laden "bio-ink" in the cartridge can be precisely dispensed by controlling actuating pressure or piston of the syringe pump

BIO-INKS FOR
POLYMER PRINTING

Controlled biodegradability, biomechanical, and biological properties can be provided.

Bioink Solutions, inc.

BIO-INKS FOR POLYMER PRINTING

Controlled biodegradability, biomechanical, and biological properties can be provided.

Applications
 

Bioprinting of implantable tissue-engineered constructs

Bioink Solutions, inc.

Applications

3-D human organoids that reflect human biology and key physiological features have been used for pharmacokinetic and toxicity testing.

Latest News

Products

  • The Gel4Cell ® kit is specifically developed and optimized for bioprinting of 3D structures. The Gel4Cell® kit includes optimally formulated gelatin-based hydrogel complex contained in syringes for easy dispensing. The kit also includes Gel-linker, which reinforces mechanical stability. A transparent hydrogel forms when contents are properly mixed and exposed to UV light.

  • The Gel4Cell®kit can be conjugated with growth factor-mimetic peptides for bioprinting of 3D structures. The Gel4Cell®-BMP has been developed for bone tissue engineering applications, the Gel4 Cell® -VEGF has been developed for accelerating vascularization when implanted, and the Gel4 Cell-TGF has been developed for cartilage tissue engineering applications.

  • The biodegradable polymeric filaments are available for 3D printing. Poly(ε-caprolactone) (PCL, PolyInks®-PCL) and polylactide (PLA, PolyInks®-PLA) have been used for a wider range of tissue engineering applications than any other type of biodegradable polymers.

  • The synthetic polymers with controlled biodegradation properties can be used as an important part of tissue engineering and drug delivery applications. These polymers have been synthesized with chemical structures tailored to optimize physical properties for 3D printing.