Lajos Kolozsvári scite author profile

The survival, proliferation, and differentiation of freshly isolated and cultured cells were studied after absorbing film-assisted laser-induced forward transfer. Rat Schwann and astroglial cells and pig lens epithelial cells were used for transfer and the cells were cultured for 2 weeks after laser-pulsed transfer. All three cell types survived, proliferated, and differentiated under cell culture conditions and regained their original phenotype a few days after cell transfer. Time resolution studies have shown that the time required to accelerate the jets and droplets containing the cells was less than 1 micros and that the estimated minimum average acceleration of those ejected cells that reached a constant velocity was approximately 10(7) x g. This suggests that the majority of studied cells tolerated the extremely high acceleration at the beginning of the ejection and the deceleration during impact on the acceptor plate without significant damage to the original phenotype. These results suggest that the absorbing film-assisted laser-induced forward transfer technique appears to be suitable for several potential applications in tissue engineering and the biomedical tissue repair technologies.

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Femtosecond laser printing of living cells using absorbing film-assisted laser-induced forward transfer

Hopp

Smausz

Szabó

et al. 2012

Opt. Eng

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Atomic Force Microscopic Study of the Human Cornea Following Excimer Laser Keratectomy

Nógrádi

Hopp

Révész

et al. 2000

Experimental Eye Research

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Role of Ultrasound Biomicroscopy in Diagnosis and Treatment of Terrien Disease

Sohár¹,

Gyetvai²,

Nógrádi³

et al. 2008

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Hemodynamic Changes after Ruthenium Irradiation of Hippel’s Angiomatosis

Balázs¹,

Berta²,

Rózsa

et al. 1990

Ophthalmologica

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The authors report a case of Hippel’s angiomatosis successfully treated with contact Β irradiation. The area of the multiplex retinal angioma and the accompanying retinal detachment was irradiated with a ¹⁰⁶Ru/¹⁰⁶Rh radioactive applicator. Hemodynamic changes due to irradiation were followed up in the ipsilateral ophthalmic artery with transcranial Doppler sonography. Scarring was also demonstrated by fluorescein angiography and A- and B-scan ultrasonography. Irradiation caused the narrowing and later the occlusion of the precapillaries and capillaries (i.e. the resistance vessels) and that of the shunts inside the angioma; consequently, vascular resistance increased. Transcranial Doppler sonographic recordings showed a decrease in blood flow velocity as compared to pathologically increased blood flow velocity in angiomas, and a gradual increase in vascular resistance which was lower before treatment.

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