LIFT-bioprinting, is it worth it?
Antoshin A. A., Churbanov S. N., Minaev N. V., Zhang D., Zhang Y., Shpichka A. I., Timashev P. S.
Bioprinting
Vol.15, Num.e00052
Опубликовано: 2019
Тип ресурса: Обзор
DOI:10.1016/j.bprint.2019.e00052
Аннотация:
To date, laser-induced forward transfer (LIFT) is one of the most developing areas in bioprinting. It is based on a precise nozzle-free laser-assisted hydrogel microdroplet transfer. Although this technique was first mentioned in the 1980s, it started to gain popularity in biomedicine only a decade ago. While the interest in LIFT bioprinting is constantly growing, it is essential to provide a framework of its possibilities and limitations. This review aims to facilitate the search for a common language between physicists and biologists and thus become a short guide to using LIFT technology for biomedicine. Here, we compared various points such as lasers, bioinks components, collector substrate, post-treatment, and printing processes that are crucial for LIFT bioprinting and applied in published studies on it. The core of this review is the discussion of biological and physical aspects to fabricate tissues and organs and the not-known difficulties that can be encountered during the lase
Ключевые слова:
Bioink; Bioprinting; Cell printing; Laser-assisted printing; Laser-induced forward transfer; Lasers; LIFT; Regenerative medicine; Tissue engineering
alginic acid; biomaterial; calcium alginate; gelatin; gold nanoparticle; hyaluronic acid; matrigel; polycaprolactone; polyethylene terephthalate; polyglactin; vasculotropin; bioprinting; bone regeneration; cell expansion; cell proliferation; cell survival; cell transfer; cell viability; computer aided design; cross linking; double stranded DNA break; electrospinning; extracellular matrix; human; hydrogel; laser induced forward transfer; microfluidics; nanofabrication; nonhuman; priority journal; regeneration; regenerative medicine; Review; spinal ganglion; three dimensional printing; tissue engineering; tumor microenvironment; vascular smooth muscle cell
Язык текста: Английский
ISSN: 2405-8866
Antoshin A. A. Artem Anatolyevich 1995-
Churbanov S. N. Semen Nikolaevich 1992-
Minaev N. V.
Zhang D.
Zhang Y.
Shpichka A. I. Anastasiya Iosifovna 1991-
Timashev P. S. Petr Sergeevich 1978-
Антошин А. А. Артем Анатольевич 1995-
Чурбанов С. Н. Семен Николаевич 1992-
Минаев Н. В.
Жанг Д.
Жанг Y.
Шпичка А. И. Анастасия Иосифовна 1991-
Тимашев П. С. Петр Сергеевич 1978-
LIFT-bioprinting, is it worth it?
Текст визуальный непосредственный
Bioprinting
Elsevier B.V.
Vol.15 Num.e00052
2019
Обзор
Bioink Bioprinting Cell printing Laser-assisted printing Laser-induced forward transfer Lasers LIFT Regenerative medicine Tissue engineering
alginic acid biomaterial calcium alginate gelatin gold nanoparticle hyaluronic acid matrigel polycaprolactone polyethylene terephthalate polyglactin vasculotropin bioprinting bone regeneration cell expansion cell proliferation cell survival cell transfer cell viability computer aided design cross linking double stranded DNA break electrospinning extracellular matrix human hydrogel laser induced forward transfer microfluidics nanofabrication nonhuman priority journal regeneration regenerative medicine Review spinal ganglion three dimensional printing tissue engineering tumor microenvironment vascular smooth muscle cell
To date, laser-induced forward transfer (LIFT) is one of the most developing areas in bioprinting. It is based on a precise nozzle-free laser-assisted hydrogel microdroplet transfer. Although this technique was first mentioned in the 1980s, it started to gain popularity in biomedicine only a decade ago. While the interest in LIFT bioprinting is constantly growing, it is essential to provide a framework of its possibilities and limitations. This review aims to facilitate the search for a common language between physicists and biologists and thus become a short guide to using LIFT technology for biomedicine. Here, we compared various points such as lasers, bioinks components, collector substrate, post-treatment, and printing processes that are crucial for LIFT bioprinting and applied in published studies on it. The core of this review is the discussion of biological and physical aspects to fabricate tissues and organs and the not-known difficulties that can be encountered during the lase