AIM: The purpose of the present study is to compare the optical properties of normal human colon mucosa/submucosa and muscle layer/chorion, and adenomatous human colon mucosa/submucosa and muscle layer/chorion in vitr...AIM: The purpose of the present study is to compare the optical properties of normal human colon mucosa/submucosa and muscle layer/chorion, and adenomatous human colon mucosa/submucosa and muscle layer/chorion in vitro at 476.5, 488, 496.5, 514.5 and 532 nm. We believe these differences in optical properties should help differential diagnosis of human colon tissues by using optical methods.METHODS: In vitro optical properties were investigated for four kinds of tissues: normal human colon mucosa/submucosa and muscle layer/chorion, and adenomatous human colon mucosa/submucosa and muscle layer/chorion. Tissue samples were taken from 13 human colons (13 adenomatous, 13 normal). From the normal human colons a total of 26 tissue samples, with a mean thickness of 0.40 mm, were used (13 from mucosa/submucosa and 13 from muscle layer/chorion), and from the adenomatous human bladders a total of 26 tissue samples, with a mean thickness of 0.40 mm, were used (13 from mucosa/submucosa and 13 from muscle layer/chorion). The measurements were performed using a double-integratingsphere setup and the optical properties were assessed from these measurements using the adding-doubling method that was considered reliable.RESULTS: The results of measurement showed that there were significant differences in the absorption coefficients and scattering coefficients between normal and adenomatous human colon mucosa/submucosa at the same wavelength,and there were also significant differences in the two optical parameters between both colon muscle layer/chorion at the same wavelength. And there were large differences in the anisotropy factors between both colon mucosa/submucosa at the same wavelength, there were also large differences in the anisotropy factors between both colon muscle layer/chorion at the same wavelength.There were large differences in the value ranges of the absorption coefficients, scattering coefficients and anisotropy factors between both colon mucosa/submucosa,and there were also large differences in these value ranges between both colon muscle layer/chorion. There are the same orders of magnitude in the absorption coefficients for four kinds of colon tissues. The scattering coefficients of these tissues exceed the absorption coefficients by at least two orders of magnitude.CONCLUSION: There were large differences in the three optical parameters between normal and adenomatous human colon mucosa/submucosa at the same laser wavelength, and there were also large differences in these parameters between both colon muscle layer/chorion at the same laser wavelength. Large differences in optical parameters indicate that there were large differences in compositions and structures between both colon mucosa/submucosa, and between both colon muscle layer/chorion.Optical parameters for four kinds of colon tissues are wavelength dependent, and these differences would be useful and helpful in clinical applications of laser and tumors photodynamic therapy (PDT).展开更多
Objective Using template switch mechanism at the 5’ end of mRNA technique (SMART) to construct a full length cDNA library of human normal bladder tissue. Methods The novel procedures used the template switchin...Objective Using template switch mechanism at the 5’ end of mRNA technique (SMART) to construct a full length cDNA library of human normal bladder tissue. Methods The novel procedures used the template switching activity of powerscript reverse transcriptase to synthesize and anchor first strand cDNA in one step. Following reverse transcription, 5 cycles of PCR were performed using a modified oligo(dT) primer and an anchor primer to enrich the full length cDNA population with 1.0 g human normal bladder poly(A) + RNA, then double strand cDNA was synthesized. After digestion with sfiI and size fractionation by CHROMA SPIN 400 columns, double strand cDNA was ligated into λ TripIEx 2 vector and was packaged. We determined the titer of the primary library and the percentage of recombinant clones and finally amplified the library. Results The titer of the cDNA library constructed was 2.1×10 6 pfu·mL -1 , and the amplified cDNA library was 6×10 11 pfu·mL -1 , the percentage of recombination clones was 99%. Conclusion Using SMART technique helps us to construct full length cDNA library with high efficiency and high capacity which lays solid foundation for screening target genes of bladder diseases with probes and antibodies.展开更多
Fibrous components and structural morphology of the connective tissue of the lamina cribrosa obtained from 35 normal human autopsy eyes were examined by histochemical staining, transmission electron microscopic and co...Fibrous components and structural morphology of the connective tissue of the lamina cribrosa obtained from 35 normal human autopsy eyes were examined by histochemical staining, transmission electron microscopic and computer-展开更多
基金Supported by the National Major Fundamental Research Project of China 2002CCC00400the Team Project of Natural Science Foundation of Guangdong Province 015012
文摘AIM: The purpose of the present study is to compare the optical properties of normal human colon mucosa/submucosa and muscle layer/chorion, and adenomatous human colon mucosa/submucosa and muscle layer/chorion in vitro at 476.5, 488, 496.5, 514.5 and 532 nm. We believe these differences in optical properties should help differential diagnosis of human colon tissues by using optical methods.METHODS: In vitro optical properties were investigated for four kinds of tissues: normal human colon mucosa/submucosa and muscle layer/chorion, and adenomatous human colon mucosa/submucosa and muscle layer/chorion. Tissue samples were taken from 13 human colons (13 adenomatous, 13 normal). From the normal human colons a total of 26 tissue samples, with a mean thickness of 0.40 mm, were used (13 from mucosa/submucosa and 13 from muscle layer/chorion), and from the adenomatous human bladders a total of 26 tissue samples, with a mean thickness of 0.40 mm, were used (13 from mucosa/submucosa and 13 from muscle layer/chorion). The measurements were performed using a double-integratingsphere setup and the optical properties were assessed from these measurements using the adding-doubling method that was considered reliable.RESULTS: The results of measurement showed that there were significant differences in the absorption coefficients and scattering coefficients between normal and adenomatous human colon mucosa/submucosa at the same wavelength,and there were also significant differences in the two optical parameters between both colon muscle layer/chorion at the same wavelength. And there were large differences in the anisotropy factors between both colon mucosa/submucosa at the same wavelength, there were also large differences in the anisotropy factors between both colon muscle layer/chorion at the same wavelength.There were large differences in the value ranges of the absorption coefficients, scattering coefficients and anisotropy factors between both colon mucosa/submucosa,and there were also large differences in these value ranges between both colon muscle layer/chorion. There are the same orders of magnitude in the absorption coefficients for four kinds of colon tissues. The scattering coefficients of these tissues exceed the absorption coefficients by at least two orders of magnitude.CONCLUSION: There were large differences in the three optical parameters between normal and adenomatous human colon mucosa/submucosa at the same laser wavelength, and there were also large differences in these parameters between both colon muscle layer/chorion at the same laser wavelength. Large differences in optical parameters indicate that there were large differences in compositions and structures between both colon mucosa/submucosa, and between both colon muscle layer/chorion.Optical parameters for four kinds of colon tissues are wavelength dependent, and these differences would be useful and helpful in clinical applications of laser and tumors photodynamic therapy (PDT).
文摘Objective Using template switch mechanism at the 5’ end of mRNA technique (SMART) to construct a full length cDNA library of human normal bladder tissue. Methods The novel procedures used the template switching activity of powerscript reverse transcriptase to synthesize and anchor first strand cDNA in one step. Following reverse transcription, 5 cycles of PCR were performed using a modified oligo(dT) primer and an anchor primer to enrich the full length cDNA population with 1.0 g human normal bladder poly(A) + RNA, then double strand cDNA was synthesized. After digestion with sfiI and size fractionation by CHROMA SPIN 400 columns, double strand cDNA was ligated into λ TripIEx 2 vector and was packaged. We determined the titer of the primary library and the percentage of recombinant clones and finally amplified the library. Results The titer of the cDNA library constructed was 2.1×10 6 pfu·mL -1 , and the amplified cDNA library was 6×10 11 pfu·mL -1 , the percentage of recombination clones was 99%. Conclusion Using SMART technique helps us to construct full length cDNA library with high efficiency and high capacity which lays solid foundation for screening target genes of bladder diseases with probes and antibodies.
文摘Fibrous components and structural morphology of the connective tissue of the lamina cribrosa obtained from 35 normal human autopsy eyes were examined by histochemical staining, transmission electron microscopic and computer-
