1.Combining back scattered and secondary emission scanning electron microscopy to study articular cartilage morphology on undecalcified unstained samples A descriptive study
Merolli ANTONIO ; Manunta ANDREA ; Phillips GARY ; Santin MATTEO ; Catalano FRANCESCO
Chinese Journal of Tissue Engineering Research 2010;14(33):6081-6086
BACKGROUND: The use of undecalcified and unstained samples for articular cartilage's study (as Authors suggest) will enable to better preserve its three-dimensional structure. Feasibility of such approach will reduce time and complexity when analyzing a great number of specimens.OBJECTIVE: To test the possibility of studying articular cartilage morphology on the undecalcified inclusion blocks, avoiding cutting and staining thin sections.METHODS: Femoral condyles were obtained from White New Zealand rabbits and from Sardinian sheep, fixed in paraformaldehyde, dehydrated in ethyl alcohol, and embedded into poly-methylmethacrylate. Blocks were cut and ground,sputter-coated with gold-palladium and analyzed by a Jeol JSM 6310 electron microscope, operated between 20 and 25 kV. Data from secondary emission scanning electron microscopy were combined with data from back scattered electron microscopy (BSEM), performed sequentially over the same area.RESULTS AND CONCLUSION: In the rabbit, it was easy to discern the passage between uncalcified and calcified cartilage but it was difficult to highlight the small chondrocytic lacunae in zones Ⅱ and Ⅲ. The sheep proved to be more suitable for easily discerning all the zones of articular cartilage and its cellularity; BSEM excelled in defining the structure of calcified cartilage and the "tidemark" front. Large canals could be demarcated, digged through subchondral bone and calcified cartilage, topped by non-calcified cartilage. The results suggested that the possibility of describing articular cartilage morphology on undecalcified and unstained embedding blocks, by avoiding the cutting of thin sections, was illustrated. This provides an obvious advantage in terms of less time needed and tess complexity required in comparison with classical histomorphology. It may be an opportunity when a relevant number of samples must be analyzed.
2.Effects of exposure to extremely low frequency electro-magnetic fields on circadian rhythms and distribution of some leukocyte differentiation antigens in dairy cows.
Calogero STELLETTA ; Paola De NARDO ; Francesco SANTIN ; Giuseppe BASSO ; Barbara MICHIELOTTO ; Giuseppe PICCIONE ; Massimo MORGANTE
Biomedical and Environmental Sciences 2007;20(2):164-170
OBJECTIVETo investigate the effects of extremely low frequency magnetic and electric fields (ELFEMFs) emitted from 380 kV transmission lines on some leukocyte differentiation antigens in dairy cows.
METHODSThe study was carried out in 5 cows exposed to 1.98-3.28 microT of ELFEMFs and in 5 control cows exposed to 0.2-0.7 microT of ELFEMFs. Following haematological and immunologic parameters were measured in both groups: WBC, CD45R, CD6, CD4, CD8, CD21, and CD11B leukocyte antigen expression.
RESULTSSome of the haematological and immunologic parameters under investigation were similar in both groups. However, CD8 (T lymphocyte surface antigen) was higher in the exposed group (1.35 +/- 0.120 vs. 0.50 +/- 0.14 x 10(3)/mL). Furthermore, the CD4/CD8 ratio (0.84 +/- 0.05 and 2.19 +/- 0.16 for exposed and not exposed cows respectively) and circadian rhythm were different between the two groups.
CONCLUSIONExposure to ELFEMFs is responsible of the abnormal temporal variations and distribution of some haematological and immunological parameters in dairy cows.
Animals ; Antigens, CD ; blood ; Cattle ; Circadian Rhythm ; radiation effects ; Electromagnetic Fields ; Environmental Exposure ; analysis ; Female ; Leukocytes ; immunology