ABSTRACT
<p><b>OBJECTIVE</b>To observe the characteristic morphological changes of corneal endothelial dysfunction induced by phacoemulcification in rhesus monkey models under confocal microscope.</p><p><b>METHODS</b>The corneal endothelial dysfunction models were established by phacoemulcification power on the central corneal of 7 to 9 mm diameter in the right eyes of 4 rhesus monkeys (the modeling group). The left eyes of 4 rhesus monkeys were set as blank control group. The structural changes in different corneal layers were evaluated by slit lamp microscope and in vivo confocal microscope before surgery and 1, 2, 3, and 4 weeks after surgery. SPSS 19.0 software was applied to analyze data. Paired-t test was used to compare the number of nerve plexus in Bowman's layer and corneal endothelial cell density. Analysis of variance (ANOVA) was used to analyze corneal thickness.</p><p><b>RESULTS</b>After phacoemulcification, the changes of cornea occurred gradually in the endothelial layer, stroma, Bowman's membrane, and basal epithelial layer. In the early stage, the interspace of corneal endothelial cells enlarged and few activated stromal cells were detected in the stroma. The cell morphology of stroma altered. The thickness of stroma increased. Two weeks after surgery, the nerve plexus in Bowman's layer decreased and edema of stroma and endothelial layer increased. Three weeks after surgery, the interspace of basal epithelial cells increased with a few Langerhans' cells infiltration and edema of stroma and endothelial layer increased. Four weeks after the surgery, a large amount of Langerhans' cells presented in basal epithelial layer. Only a few nerve lexus could be seen in Bowman's layer. The stroma and endothelial cells had severe edema. A large number of activated stromal cells could be found in stromal layer. Two weeks after the surgery, the number of nerve plexus in Bowman's layer (t=6.9192, P=0.002) and corneal endothelial cell density (t=7.8936, P<0.0001) in the modeling group were significantly lower than that in control group. Compared with corneal thickness in control group, it was significantly larger in the modeling group at 1 (t=28.31, P<0.0001), 2 (t=63.56, P<0.0001), 3 (t=123.22, P<0.0001), and 4 weeks (t=180.80, P<0.0001) after the surgery.</p><p><b>CONCLUSIONS</b>The changes in corneal endothelial dysfunction induced by phacoemulcification in rhesus monkey models can be clearly shown under in vivo confocal microscope. Gradual increase of endothelial cells interspace, activated stromal cells, increase of Langerhans' cells, and decrease of plexus in Bowman's layer are the main changes.</p>
Subject(s)
Animals , Corneal Diseases , Endothelial Cells , Langerhans Cells , Macaca mulatta , Microscopy, ConfocalABSTRACT
BackgroundThe quest to look for seed cells is a hot spot of cornea transplant research in solving the problem of the lack of donor. Bone marrow mesenchymal stem cells(BMSCs) have been successfully induced into retinal ganglion cells(RGCs) in vivo,but the successful induction of BMSCs into corneal endothelial cells has not been reported.Objective This experiment was to study the transplantation of BMSCs on corneal endothelial surface using the splitting Descemet's membrane. MethodsFour healthy adult rhesus monkeys were divided into the experimental group ( 3 monkeys) and control group ( 1 monkey). Mesenchymal stem cells (MSCs) were isolated from bone marrow by density gradient centrifugation combined with adhering means. The cultured cells were identified by flow cytometry and its ability to differentiate was determined by allowing them to differentiate into adipocytes in vitro and labeled by 5-bromodeoxyuridine ( BrdU ) for subsequent identification. Corneal grafts of 7 mm in size with tearing of the Descemet' s membrane were prepared in the experimental group and control group. After labeling by 5-bromodeoxyuridine( BrdU ) ,cultured cells were transplanted onto the endothelial surface of cornea grafts in the experimental group, but no cultured cells were seeded in the graft of the control group. The corneal grafts were then sutured in situ, and were removed 1,2 or 3 months after operation to examine the distribution and connection between transplanted cells and their morphologic changes under the electron microscope. Results High purity MSCs were harvested by density gradient centrifugation combined with adhering method. Cultured cells reached confluency after 12 to 16 days, presenting with a spindle shape and parallel or swirling arrangement. Flow cytometry analysis showed that 94.26% of cells were positive for CD29,7. 51% for CD34 and 4. 02% for CD45. Larger nuclei filled with plastosomes, golgiosomes and rough endoplasmic reticula were found on the graft under the transmission electron microscope( TEM ). After 3 weeks, MSCs were differentiated into adipocytes where Oil Red O staining resulted in an orange-red staining in the cytoplasm and blue staining in the nuclei. The transplanted cells attached loosely on the endothelial surface of the corneal graft and came in contact with each other in one month. The shape of the cells appeared as spindle-shaped and polygonal after 2 months and became tightly packed after 3 months. The positive cells retained the BrdU label and presented with brown nuclei. No endothelia cells grew in the cornea graft in the control group, with an absence of BrdU labeling. Conclusions Mesenchymal stem cells can be transplanted onto the corneal endothelial surface successfully and form a monolayer using the centrifugation method, and present with good survival and proliferation ability.
ABSTRACT
<p><b>OBJECTIVE</b>To establish a real-time RT-PCR based plasma virus quantification method and monitor the plasma viral load of SHIV-CN97001 during its in vivo passages in rhesus macaques.</p><p><b>METHODS</b>Viral RNA standards were prepared by in vitro transcription and one-tube real-time RT-PCR were established and optimized using TaqMan EZ RT-PCR CORE REAGENTS and TaqMan probes and primers directed to the 91 bases within the conserved gag region of SHIV. Plasma viral RNA of 126 plasma samples from rhesus macaques of different viral passages was quantified.</p><p><b>RESULTS</b>The PCR system was optimized by using serial dilution of standards, and the viral RNA load was detected. The lowest limit of the standard curve reached 2x10(-2) copies/ml. The correlation (r>0.99) and the repetition (CV=4.14 percent) also met the requirement. It was revealed that the viral RNA load of third passage was the highest. Generally, the viral load peaks (10(5)-10(6) copies/ml) appeared at the fourteenth day after the infection or inoculation.</p><p><b>CONCLUSION</b>The method of one-tube real-time RT-PCR was established successfully, which may provide a sensitive way to qualify SHIV viral load. This will contribute to the establishment and application of SHIV/rhesus macaque models. It was also found that the replicative ability of SHIV-CN97001 was enhanced during the first 2 in vivo passages.</p>