Khoobehi B, Peyman G A
LSU Eye Center, Louisiana State University Medical Center School of Medicine, New Orleans 70112-2234, USA.
Ophthalmic Surg Lasers. 1999 Feb;30(2):140-5.
To develop a method of staining and tracking cells in vivo with a scanning laser ophthalmoscope (SLO) to evaluate the retinal and choroidal circulations.
Twelve pigmented male rats were used. Staining of leukocytes. Two commercially available nucleic acid stains SYTO 16 and SYTO 59 (Molecular Probes, Eugene, OR) were used to stain leukocytes. Blood (0.5 mL) was withdrawn from the subject animal and placed in a heparinized tube to which phosphate buffered solution was added (1.0 mL buffer/0.5 mL blood). Ten microliters of solution of SYTO 16 or SYTO 59 in alcohol (5 mM) was added. Staining of Erythrocytes. The lipophilic carbocyanine dye indocarbocyanine (D-307, Molecular Probes) was used to stain erythrocytes. Blood (0.1 mL) was withdrawn from the subject and handled as above; plasma and leukocytes were removed with a pipette. HEPES buffer was added to the remaining erythrocytes (1.4 mL buffer added to 0.1 mL blood). Ten microliters of D-307 in alcohol (5 mM) was added to the 1.5 mL buffered blood. The final concentration of dyes in the buffered blood mixtures was 0.03 mM. The stained cells were injected intravenously in the subject animal. The eyes were observed with SLO; the resident helium-neon laser was used to excite the SYTO 59 and the resident argon laser for SYTO 16. The He-Ne laser was used to excite the D-307-stained erythrocytes.
The movement of the leukocytes and erythrocytes in the retinal and choroidal vessels was clearly distinguishable from the surrounding tissue.
By selecting different dyes for staining leukocytes or erythrocytes and choosing appropriate laser wavelengths, the hemodynamics of blood cells can be observed and evaluated in the retina and choroid.
开发一种利用扫描激光检眼镜(SLO)对体内细胞进行染色和追踪的方法,以评估视网膜和脉络膜循环。
使用12只雄性有色大鼠。白细胞染色。使用两种市售核酸染料SYTO 16和SYTO 59(Molecular Probes,俄勒冈州尤金市)对白细胞进行染色。从受试动物体内抽取血液(0.5 mL),置于肝素化管中,并加入磷酸盐缓冲溶液(1.0 mL缓冲液/0.5 mL血液)。加入10微升SYTO 16或SYTO 59的酒精溶液(5 mM)。红细胞染色。使用亲脂性碳菁染料吲哚菁绿(D - 307,Molecular Probes)对红细胞进行染色。从受试动物体内抽取血液(0.1 mL),并按上述方法处理;用移液器去除血浆和白细胞。向剩余的红细胞中加入HEPES缓冲液(1.4 mL缓冲液加入0.1 mL血液)。向1.5 mL缓冲血液中加入10微升D - 307的酒精溶液(5 mM)。缓冲血液混合物中染料的最终浓度为0.03 mM。将染色后的细胞静脉注射到受试动物体内。用SLO观察眼睛;使用内置的氦氖激光激发SYTO 59,使用内置的氩激光激发SYTO 16。使用氦氖激光激发D - 307染色的红细胞。
视网膜和脉络膜血管中白细胞和红细胞的运动与周围组织明显可区分。
通过选择不同的染料对白细胞或红细胞进行染色,并选择合适的激光波长,可以在视网膜和脉络膜中观察和评估血细胞的血流动力学。
