Objective:To detect the reliability of near-infrared parameters of blood oxygen of mammary gland phyma from the microvessel density of tumor.Methods:181 cases of mammary gland phyma who had accepted the examination of...Objective:To detect the reliability of near-infrared parameters of blood oxygen of mammary gland phyma from the microvessel density of tumor.Methods:181 cases of mammary gland phyma who had accepted the examination of the near-infrared TBO-I dual-wave length mammary gland phyma detector were classified by near-infrared parameters of blood oxygen,and were performed the pathologic examination to ascertain whether the tumor was benign or malignant.Among these cases,intratumoral microvessel density of 20 cases of malignant phyma and 20 cases of benign phyma were confirmed by S-P immunohistochemical method,then the relationship between near-infrared parameters and microvessel density were analyzed by medical statistics.Results:(1)The microvessel density and blood concentration of 28 cases of the"high blood" tumor were 24.56±8.110 and 1.891±0.850 respectively.The microvessel density and blood concentration of 12 cases of the"low blood"tumor were 17.98±8.729 and 0.698±0.283 respectively.There was significant difference between the"high blood"and"low blood"tumors(P<0.05).(2)The intratumoral microvessel density and blood concentration were linearly correlated respectively,and the linear correlation coefficient r=0.4208(P<0.05)in 40 cases of mammary gland phyma. Conclusion:The intratumoral microvessel density and blood concentration of benign or malignant mammary gland phyma were linearly correlated.Blood concentration(one of near-infrared parameters)is reliable to be used as diagnosis criterion of malignant mammary gland phyma.展开更多
Knowledge of the oxygen mass transfer of aerators under operational conditions in a full-scale wastewater treatment plant (WWTP) is meaningful for the optimization of WWTP, however, scarce to best of our knowledge. ...Knowledge of the oxygen mass transfer of aerators under operational conditions in a full-scale wastewater treatment plant (WWTP) is meaningful for the optimization of WWTP, however, scarce to best of our knowledge. Through analyzing a plug flow aeration tank in the Lucun WWTP, in Wuxi, China, the oxygenation capacity of fine-bubble aerators under process conditions have been measured in- situ using the off-gas method and the non-steady-state method. The off-gas method demonstrated that the aerators in different corridors in the aeration tank of WWTP had significantly different oxygen transfer performance; furthermore, the aerators in the same corridor shared almost equal oxygen transfer performance over the course of a day. Results measured by the two methods showed that the oxygen transfer performance of fine-bubble aerators in the aeration tank decreased dramatically compared with that in the clean water. The loss of oxygen transfer coefficient was over 50% under low-aeration conditions (aeration amount 〈 0.67 Nm 3 /hr). However, as the aeration amount reached 0.96 Nm 3 /hr, the discrepancy of oxygen transfer between the process condition and clean water was negligible. The analysis also indicated that the non-steady-state and off-gas methods resulted in comparable estimates of oxygen transfer parameters for the aerators under process conditions.展开更多
Three synthetic Fe3+ bearing λ-Fe2SiO4 were analyzed using electron probe method, and the M?ssbauer spectra of the samples at 298 K, 150 K, and 95 K were measured. Each spectrum at three temperatures is composed of t...Three synthetic Fe3+ bearing λ-Fe2SiO4 were analyzed using electron probe method, and the M?ssbauer spectra of the samples at 298 K, 150 K, and 95 K were measured. Each spectrum at three temperatures is composed of two doublets. These two doublets are assigned to Fe2+ in the octahedral sites and Fe3+ in the tetrahedral sites, respectively. Site occupancies were determined. The results show that Fe3+ and a small amount of Si4+ are in the tetrahedral and octahedral sites, respectively. The average bond lengths of the octahedral and tetrahedral sites were calculated according to the equations primarily given by Hill et al., O’Neill and Navrotsky and modified by the authors. Furthermore, the octahedral and tetrahedral bond lengths were used to calculate cell parameters and oxygen parameters. In addition, Fe3+ line broadening in the M?ssbauer spectra of Fe3+ bearing λ-Fe2SiO4 were interpreted by using the next nearest neighbor effects展开更多
文摘Objective:To detect the reliability of near-infrared parameters of blood oxygen of mammary gland phyma from the microvessel density of tumor.Methods:181 cases of mammary gland phyma who had accepted the examination of the near-infrared TBO-I dual-wave length mammary gland phyma detector were classified by near-infrared parameters of blood oxygen,and were performed the pathologic examination to ascertain whether the tumor was benign or malignant.Among these cases,intratumoral microvessel density of 20 cases of malignant phyma and 20 cases of benign phyma were confirmed by S-P immunohistochemical method,then the relationship between near-infrared parameters and microvessel density were analyzed by medical statistics.Results:(1)The microvessel density and blood concentration of 28 cases of the"high blood" tumor were 24.56±8.110 and 1.891±0.850 respectively.The microvessel density and blood concentration of 12 cases of the"low blood"tumor were 17.98±8.729 and 0.698±0.283 respectively.There was significant difference between the"high blood"and"low blood"tumors(P<0.05).(2)The intratumoral microvessel density and blood concentration were linearly correlated respectively,and the linear correlation coefficient r=0.4208(P<0.05)in 40 cases of mammary gland phyma. Conclusion:The intratumoral microvessel density and blood concentration of benign or malignant mammary gland phyma were linearly correlated.Blood concentration(one of near-infrared parameters)is reliable to be used as diagnosis criterion of malignant mammary gland phyma.
基金supported by the Major Water Project of the National Science and Technology (No.2011ZX07319-001-004, 2011ZX07301-002)
文摘Knowledge of the oxygen mass transfer of aerators under operational conditions in a full-scale wastewater treatment plant (WWTP) is meaningful for the optimization of WWTP, however, scarce to best of our knowledge. Through analyzing a plug flow aeration tank in the Lucun WWTP, in Wuxi, China, the oxygenation capacity of fine-bubble aerators under process conditions have been measured in- situ using the off-gas method and the non-steady-state method. The off-gas method demonstrated that the aerators in different corridors in the aeration tank of WWTP had significantly different oxygen transfer performance; furthermore, the aerators in the same corridor shared almost equal oxygen transfer performance over the course of a day. Results measured by the two methods showed that the oxygen transfer performance of fine-bubble aerators in the aeration tank decreased dramatically compared with that in the clean water. The loss of oxygen transfer coefficient was over 50% under low-aeration conditions (aeration amount 〈 0.67 Nm 3 /hr). However, as the aeration amount reached 0.96 Nm 3 /hr, the discrepancy of oxygen transfer between the process condition and clean water was negligible. The analysis also indicated that the non-steady-state and off-gas methods resulted in comparable estimates of oxygen transfer parameters for the aerators under process conditions.
基金the National Natural Science Foundation of China(Grant No.40072019)the Japan Society for the Promotion of Science(JSPA)
文摘Three synthetic Fe3+ bearing λ-Fe2SiO4 were analyzed using electron probe method, and the M?ssbauer spectra of the samples at 298 K, 150 K, and 95 K were measured. Each spectrum at three temperatures is composed of two doublets. These two doublets are assigned to Fe2+ in the octahedral sites and Fe3+ in the tetrahedral sites, respectively. Site occupancies were determined. The results show that Fe3+ and a small amount of Si4+ are in the tetrahedral and octahedral sites, respectively. The average bond lengths of the octahedral and tetrahedral sites were calculated according to the equations primarily given by Hill et al., O’Neill and Navrotsky and modified by the authors. Furthermore, the octahedral and tetrahedral bond lengths were used to calculate cell parameters and oxygen parameters. In addition, Fe3+ line broadening in the M?ssbauer spectra of Fe3+ bearing λ-Fe2SiO4 were interpreted by using the next nearest neighbor effects
