As the gold-standard method for single-cell analysis,flow cytometry enables high-throughput and multiple-parameter characterization of individual biological cells.This review highlights the demands for clinical flow c...As the gold-standard method for single-cell analysis,flow cytometry enables high-throughput and multiple-parameter characterization of individual biological cells.This review highlights the demands for clinical flow cytometry in laboratory hematology(e.g.,diagnoses of minimal residual disease and various types of leukemia),summarizes state-of-the-art clinical flow cytometers(e.g.,FACSLyricTMby Becton Dickinson,DxFLEX by Beckman Coulter),then considers innovative technical improvements in flow cytometry(including quantitative,spectral,and imaging approaches)to address the limitations of clinical flow cytometry in hematology diagnosis.Finally,driven by these clinical demands,future developments in clinical flow cytometry are suggested.展开更多
Acoustic tweezing cytometry(ATC)is a recently developed method for cell mechanics regulation.Tar-geted microbubbles,which are attached to integrins and subsequently the actin cytoskeleton,anchor,amplify and transmit t...Acoustic tweezing cytometry(ATC)is a recently developed method for cell mechanics regulation.Tar-geted microbubbles,which are attached to integrins and subsequently the actin cytoskeleton,anchor,amplify and transmit the mechanical energy in an acoustic field inside the cells,eliciting prominent cy-toskeleton contractile force increases in various cell types.We propose that a mechanochemical con-version mechanism is critical for the high efficiency of ATC to activate cell contractility responses.Our models predict key experimental observations.Moreover,we study the influences of ATC parameters(ul-trasound center frequency,pulse repetition frequency,duty cycle,and acoustic pressure),cell areas,the number of ATC stimuli,and extracellular matrix rigidity on cell contractility responses to ATC.The simu-lation results suggest that it is large molecules,rather than small ions,that facilitate global responses to the local ATC stimulation,and the incorporation of visible stress fiber bundles improves the accuracy of modeling.展开更多
Objective:To investigate the effect of combined detection of serum carcinoembryonic antigen(CEA),cytokeratin 19 fragment(CYFRA21-1),cancer antigen 125(CA125),and neuron-specific enolase(NSE)in patients with lung cance...Objective:To investigate the effect of combined detection of serum carcinoembryonic antigen(CEA),cytokeratin 19 fragment(CYFRA21-1),cancer antigen 125(CA125),and neuron-specific enolase(NSE)in patients with lung cancer by fluorescence flow cytometry.Methods:From August 2019 to July 2022,200 patients with lung cancer diagnosed by pathology in our hospital were retrospectively analyzed.2 mL venous blood was collected in a fasting state and centrifuged to separate the serum(containing human chorionic gonadotropin antibody[anti-hCG antibody],hepatitis B surface antibody[anti-HBs antibody],and CEA).Results:The sensitivities of CEA and CYFRA21-1 detected via enzyme-linked immunosorbent assay(ELISA)were 100%,and the detection limits were 0.5 ng/mL and 0.1 ng/mL,respectively;the sensitivities of CA125 and NSE detected via flow cytometry were 100%,and the detection limits were 10 U/mL and 2 ng/mL,respectively.Compared with ELISA,the sensitivities of CA125 and NSE detected via flow cytometry were higher.When the concentration of CEA was 10-40 ng/mL,the sensitivities of the three markers CYFRA21-1,CA125,and NSE showed no significant changes(P>0.05);when the concentration of CEA was 40-80 ng/mL,the sensitivity of CEA significantly decreased(P<0.01),but the sensitivities of the three markers CYFRA21-1,CA125,and NSE showed no significant changes(P>0.05);when the concentration of CEA was 80-200 ng/mL,the sensitivities of all four markers showed no significant changes(P>0.05).Conclusion:Compared with the double-antibody sandwich ELISA,fluorescence flow cytometry has certain advantages,including high sensitivity,good precision,short detection time,low sample usage,and low medical cost;thus,it is worthy of clinical promotion.展开更多
Objective:To explore the value of flow cytometry(FCM)in detecting the level of exfoliated cells in pleural effusion in the differential diagnosis of non-small cell lung cancer and benign lung diseases.Methods:Clinical...Objective:To explore the value of flow cytometry(FCM)in detecting the level of exfoliated cells in pleural effusion in the differential diagnosis of non-small cell lung cancer and benign lung diseases.Methods:Clinical data of patients with non-small cell lung cancer who were hospitalized in Hebei hospital from June 2019 to March 2022 were collected.A total of 98 patients were included,and 63 patients with alveolar lung disease were screened during the same period,and the two groups of patients were analyzed.Results:Compared with alveolar lung disease group,FCM detection and analysis showed that the level of exfoliated cells in the pleural effusion of non-small cell lung cancer(NSCLC)patients was 99(3-969)/100,000,and patients with alveolar lung disease was 4(0~19)/100,000.Additionally,compared with the alveolar lung disease group,the level of exfoliated cells in the pleural effusion of patients with non-small cell lung cancer(NSCLC)was significantly increased(P<0.001).The diagnostic efficacy of FCM for detecting pleural fluid exfoliated cells in non-small cell lung cancer was assessed using ROC curves and using 95%CI(-11.1,-13.2)with a sensitivity of 0.75 and specificity of 0.94,and the diagnostic efficacy of FCM for detecting pleural fluid exfoliated cells in alveolar lung disease was assessed using 95%CI(-11.1,-13.2)with a sensitivity of 0.71 and specificity of 0.87.Conclusion:Flow cytometry has a wider range of clinical applications,simple operation,low cost,and high sensitivity,which makes it of great significance in disease diagnosis.展开更多
In order to study the significance of flow cytometry immunophenotyping in the diagnosis of acute leukemia, CD45/SSC gating multiparameter flow cytometry (FCM) was utilized to analyze the immunophenotypes of 139 cases ...In order to study the significance of flow cytometry immunophenotyping in the diagnosis of acute leukemia, CD45/SSC gating multiparameter flow cytometry (FCM) was utilized to analyze the immunophenotypes of 139 cases of acute leukemia. 139 cases of acute leukemia were enrolled in our hospital from April 1998 to April 2000. Morphological analysis and FCM immunophenotypic tests were conducted on all cases. Our results showed that CD45/SSC gating multiparameter flow cytometry immunophenotyping could reflect the origin of leukemic cells specifically. It is one of the important methods for the diagnosis of ALL, AML, and HAL. CD45/SSC gating multiparameter FCM analysis is a good technique for immunophenotyping. FCM immunophenotypic analysis can help improve the diagnosis and classification of acute leukemia, and extend the use of FCM in clinical practice.展开更多
Flow cytometry(FCM) technique has been widely applied to estimating the genome size of various higher plants. However, there is few report about its application in algae. In this study, an optimized procedure of FCM w...Flow cytometry(FCM) technique has been widely applied to estimating the genome size of various higher plants. However, there is few report about its application in algae. In this study, an optimized procedure of FCM was exploited to estimate the genome size of two eukaryotic algae. For analyzing Alexandrium catenella, an important red tide species, the whole cell instead of isolated nucleus was studied, and chicken erythrocytes were used as an internal reference. The genome size of A. catenella was estimated to be 56.48 ± 4.14 Gb(1C), approximately nineteen times larger than that of human genome. For analyzing Gracilariopsis lemaneiformis, an important economical red alga, the purified nucleus was employed, and Arabidopsis thaliana and Chondrus crispus were used as internal references, respectively. The genome size of Gp. lemaneiformis was 97.35 ± 2.58 Mb(1C) and 112.73 ± 14.00 Mb(1C), respectively, depending on the different internal references. The results of this research will promote the related studies on the genomics and evolution of these two species.展开更多
Gaining a full understanding of the mechanisms of action of natural products as therapeutic agents includes observing the effects of natural products on cellular morphology,because abnormal cellular morphology is an i...Gaining a full understanding of the mechanisms of action of natural products as therapeutic agents includes observing the effects of natural products on cellular morphology,because abnormal cellular morphology is an important aspect of cellular transformations that occur as part of disease states.In this study a set of natural products was examined in search of small molecules that influence the cylindrical morphology of fission yeast Schizosaccharomyces pombe.Imaging flow cytometry of large populations of S.pombe exposed to natural products captured cell images and revealed changes in mean length and aspect ratio of cells.Several natural products were found to alter S.pombe’s morphology relative to control,in terms of elongating cells,shrinking them,or making them more round.These results may facilitate future investigations into methods by which cells establish and maintain specific shapes.展开更多
Objective:To investigate the role of water-soluble extract of Salvia fruticosa(Creek sage)(S.fruticosa) leaves in reducing both intrinsic cellular and H_2O_2-induced DNA oxidation in cultured human embryonic kidney 29...Objective:To investigate the role of water-soluble extract of Salvia fruticosa(Creek sage)(S.fruticosa) leaves in reducing both intrinsic cellular and H_2O_2-induced DNA oxidation in cultured human embryonic kidney 293 cells.S.fruiicosa.native to the Eastern-Mediterranean basin,is widely used as a medicinal herb for treatment of various diseases.Methods:Dried leaves of 5.fruticosa were extracted in phosphate buffer saline and purified using both vacuum and high pressure filtrations.Each mL of the preparation contained(7.1±1.0)mg of extract.HEK-293 cells were incubated in one set with S.fruticosa extract in the presence of 0.1 mmol/L H_2O_2,and in the other set with the addition of the extract alone.The DNA oxidation was measured using fluorescence upon fluorescein isothiocyanate derivarization of 8-oxoguanine moieties.The fluorescence was measured using flow cytometry technique.Results:Cells incubated 3 h with 150μL extract and exposed to 0.1 mmol/L H_2O_2 showed lower intensity of fluorescence,and thus lower DNA oxidation.Moreover,cells incubated 3 h with 100μl.of the extract showed lower intensity of fluorescence,and thus lower intrinsic cellular DNA oxidation compared to control(without S.fruticosa).Conchisions:The results from this study suggest that the water-soluble extract of S.fruticosa leaves protects against both H_2O_2-induced and intrinsic cellular DNA oxidation in human embryonic kidney 293 cells.展开更多
Distribution of one group of marine viral particles along the Kuroshio Current and theadjacent area was investigated in June, 1998 using flow cytometry for the first time. The position of thisgroup of virioplankton in...Distribution of one group of marine viral particles along the Kuroshio Current and theadjacent area was investigated in June, 1998 using flow cytometry for the first time. The position of thisgroup of virioplankton in flow cytometry plots coincided with the position of the V-I group reported byMarie et al. (1999). Abundances of this group of virioplankton in the surface water ranged from 3.4×10<sup>5</sup> to 2. 3×10<sup>6</sup> ml<sup>-1</sup> in the investigated area. High abundance occurred in the shelf water and low abun-展开更多
Background:Genetic selection in cattle has been directed to increase milk production.This,coupled to the fact that the vast majority of bovine artificial inseminations(AI)are performed using cryopreserved sperm,have l...Background:Genetic selection in cattle has been directed to increase milk production.This,coupled to the fact that the vast majority of bovine artificial inseminations(AI)are performed using cryopreserved sperm,have led to a reduction of fertility rates over the years.Thus,seeking sensitive and specific sperm biomarkers able to predict fertility rates is of vital importance to improve cattle reproductive efficiency.In humans,sperm chromatin condensation evaluated through chromomycin A3(CMA3)has recently been purported to be a powerful biomarker for sperm functional status and male infertility.The objectives of the present study were:a)to set up a flow cytometry method for simultaneously evaluating chromatin condensation and sperm viability,and b)to test whether this parameter could be used as a predictor of in vivo fertility in bulls.The study included pools of three independent cryopreserved ejaculates per bull from 25 Holstein males.Reproductive outcomes of each sire were determined by non-return rates,which were used to classify bulls into two groups(highly fertile and subfertile).Results:Chromatin condensation status of bovine sperm was evaluated through the combination of CMA3 and Yo-Pro-1 staining and flow cytometry.Sperm quality parameters(morphology,viability,total and progressive motility)were also assessed.Pearson correlation coefficients and ROC curves were calculated to assess their capacity to predict in vivo fertility.Sperm morphology,viability and total motility presented an area under the ROC curve(AUC)of 0.54,0.64 and 0.68,respectively(P>0.05),and thus were not able to discriminate between fertile and subfertile individuals.Alternatively,while the percentage of progressively motile sperm showed a significant predictive value,with an AUC of 0.73(P=0.05),CMA3/Yo-Pro-1 staining even depicted superior results for the prediction of in vivo fertility in bulls.Specifically,the percentage of viable sperm with poor chromatin condensation showed better accuracy and precision to predict in vivo fertility,with an AUC of 0.78(P=0.02).Conclusions:Chromatin condensation evaluated through CMA3/Yo-Pro-1 and flow cytometry is defined here as a more powerful tool than conventional sperm parameters to predict bull in vivo fertility,with a potential ability to maximising the efficiency of dairy breeding industry.展开更多
The changes of cell surface markers before and after activation by IL-2were detected by flow cytometry (FCM) to establish a more convenient and pre-cise criterion for the judgment of the activation of bone marrow. By ...The changes of cell surface markers before and after activation by IL-2were detected by flow cytometry (FCM) to establish a more convenient and pre-cise criterion for the judgment of the activation of bone marrow. By using the measurement of the release of lactate dehydrogenase (LDH) the cytotoxicity of mononuclear cells (MNCs) from bone marrow, activated or inactivated, on tumor cell line K562 was evaluated, and at the same time the changes of surface markers on MNCs before and after activation were examined by using FCM. The results showed that the cytotoxicity of MNCs from bone marrow activated by IL-2 on tu-mor cell line K562 was increased obviously and the number of CD and CD posi-tive cells in bone marrow MNCs was higher than be fore activation. The enhanced cytotoxicity of MNCs on tumor cell line K562 was synchronous with the increaseof the number of CD and CD positive cells in 48 to 72 h. It is more direct, simple and precise to demonstrate the activation of IL-2 on bone marrow by detecting the changes of the amount of the CD and CD positive cells in bone marrow by FCM.展开更多
Objective:To elucidate whether DNA aneuploidy was an independent discriminator for carcinoma within oral potentially malignant disorders(OPMDs),and further establish and validate a risk model based on DNA aneuploidy f...Objective:To elucidate whether DNA aneuploidy was an independent discriminator for carcinoma within oral potentially malignant disorders(OPMDs),and further establish and validate a risk model based on DNA aneuploidy for the detection of oral cancer.Methods:A total of 810 consecutive patients with OPMD were prospectively enrolled from March 2013 to December 2018,and divided into a training set(n=608)and a test set(n=202).Brushing and biopsy samples from each patient were processed by DNADNA image cytometry and histopathological examination,respectively.Results:DNA aneuploidy of an outside DNA index≥3.5 in OPMD was an independent marker strongly associated with malignant risk[adjusted odds ratio:13.04;95%confidence interval(CI):5.46-31.14].In the training and test sets,the area under the curve(AUC)was 0.87(95%CI:0.82-0.91)and 0.77(95%CI:0.57-0.97),respectively,for detecting carcinoma in OPMD patients.The independent risk factors of lateral/ventral tongue and non-homogenous type combined with a risk model built with a multivariate logistic regression revealed a more favorable diagnostic efficacy associated with the training set(AUC:0.93;95%CI:0.91-0.96)and test set(AUC:0.94;95%CI:0.90-0.98).The sensitivity and specificity of carcinoma detection within OPMD was improved to 100%and 88.1%,respectively.Conclusions:This large-scale diagnostic study established a risk model based on DNA aneuploidy that consisted of a noninvasive strategy with lateral/ventral tongue and non-homogenous features.The results showed favorable diagnostic efficacy for detecting carcinoma within OPMD,irrespective of the clinical and pathological diagnoses of OPMD.Multicenter validation and longitudinal studies are warranted to evaluate community practices and clinical applications.展开更多
In microfluidic impedance cytometry,the change in impedance is recorded as an individual cell passes through a channel between electrodes deposited on its walls,and the particle size is inferred from the amplitude of ...In microfluidic impedance cytometry,the change in impedance is recorded as an individual cell passes through a channel between electrodes deposited on its walls,and the particle size is inferred from the amplitude of the impedance signal using calibration.However,because the current density is nonuniform between electrodes of finite width,there could be an error in the particle size measurement because of uncertainty about the location of the particle in the channel cross section.Here,a correlation is developed relating the particle size to the signal amplitude and the velocity of the particle through the channel.The latter is inferred from the time interval between the two extrema in the impedance curve as the particle passes through a channel with cross-sectional dimensions of 50μm(width)×30μm(height)with two pairs of parallel facing electrodes.The change in impedance is predicted using 3D COMSOL finite-element simulations,and a theoretical correlation that is independent of particle size is formulated to correct the particle diameter for variations in the cross-sectional location.With this correlation,the standard deviation in the experimental data is reduced by a factor of two to close to the standard deviation reported in the manufacturer specifications.展开更多
基金financial support of the National Natural Science Foundation of China(Grant Nos.61922079,61825107,and 62121003)the Chinese Academy of Sciences(Grant Nos.GJJSTD20210004 and Y201927)the National Key Research and Development Program of China(Grant No.2021YFC2500300).
文摘As the gold-standard method for single-cell analysis,flow cytometry enables high-throughput and multiple-parameter characterization of individual biological cells.This review highlights the demands for clinical flow cytometry in laboratory hematology(e.g.,diagnoses of minimal residual disease and various types of leukemia),summarizes state-of-the-art clinical flow cytometers(e.g.,FACSLyricTMby Becton Dickinson,DxFLEX by Beckman Coulter),then considers innovative technical improvements in flow cytometry(including quantitative,spectral,and imaging approaches)to address the limitations of clinical flow cytometry in hematology diagnosis.Finally,driven by these clinical demands,future developments in clinical flow cytometry are suggested.
基金This work is supported by the National Natural Science Founda-tion of China(Grant No.11874280)the State Key Laboratory of Acoustics,Chinese Academy of Sciences(Grant No.SKLA202211).
文摘Acoustic tweezing cytometry(ATC)is a recently developed method for cell mechanics regulation.Tar-geted microbubbles,which are attached to integrins and subsequently the actin cytoskeleton,anchor,amplify and transmit the mechanical energy in an acoustic field inside the cells,eliciting prominent cy-toskeleton contractile force increases in various cell types.We propose that a mechanochemical con-version mechanism is critical for the high efficiency of ATC to activate cell contractility responses.Our models predict key experimental observations.Moreover,we study the influences of ATC parameters(ul-trasound center frequency,pulse repetition frequency,duty cycle,and acoustic pressure),cell areas,the number of ATC stimuli,and extracellular matrix rigidity on cell contractility responses to ATC.The simu-lation results suggest that it is large molecules,rather than small ions,that facilitate global responses to the local ATC stimulation,and the incorporation of visible stress fiber bundles improves the accuracy of modeling.
文摘Objective:To investigate the effect of combined detection of serum carcinoembryonic antigen(CEA),cytokeratin 19 fragment(CYFRA21-1),cancer antigen 125(CA125),and neuron-specific enolase(NSE)in patients with lung cancer by fluorescence flow cytometry.Methods:From August 2019 to July 2022,200 patients with lung cancer diagnosed by pathology in our hospital were retrospectively analyzed.2 mL venous blood was collected in a fasting state and centrifuged to separate the serum(containing human chorionic gonadotropin antibody[anti-hCG antibody],hepatitis B surface antibody[anti-HBs antibody],and CEA).Results:The sensitivities of CEA and CYFRA21-1 detected via enzyme-linked immunosorbent assay(ELISA)were 100%,and the detection limits were 0.5 ng/mL and 0.1 ng/mL,respectively;the sensitivities of CA125 and NSE detected via flow cytometry were 100%,and the detection limits were 10 U/mL and 2 ng/mL,respectively.Compared with ELISA,the sensitivities of CA125 and NSE detected via flow cytometry were higher.When the concentration of CEA was 10-40 ng/mL,the sensitivities of the three markers CYFRA21-1,CA125,and NSE showed no significant changes(P>0.05);when the concentration of CEA was 40-80 ng/mL,the sensitivity of CEA significantly decreased(P<0.01),but the sensitivities of the three markers CYFRA21-1,CA125,and NSE showed no significant changes(P>0.05);when the concentration of CEA was 80-200 ng/mL,the sensitivities of all four markers showed no significant changes(P>0.05).Conclusion:Compared with the double-antibody sandwich ELISA,fluorescence flow cytometry has certain advantages,including high sensitivity,good precision,short detection time,low sample usage,and low medical cost;thus,it is worthy of clinical promotion.
文摘Objective:To explore the value of flow cytometry(FCM)in detecting the level of exfoliated cells in pleural effusion in the differential diagnosis of non-small cell lung cancer and benign lung diseases.Methods:Clinical data of patients with non-small cell lung cancer who were hospitalized in Hebei hospital from June 2019 to March 2022 were collected.A total of 98 patients were included,and 63 patients with alveolar lung disease were screened during the same period,and the two groups of patients were analyzed.Results:Compared with alveolar lung disease group,FCM detection and analysis showed that the level of exfoliated cells in the pleural effusion of non-small cell lung cancer(NSCLC)patients was 99(3-969)/100,000,and patients with alveolar lung disease was 4(0~19)/100,000.Additionally,compared with the alveolar lung disease group,the level of exfoliated cells in the pleural effusion of patients with non-small cell lung cancer(NSCLC)was significantly increased(P<0.001).The diagnostic efficacy of FCM for detecting pleural fluid exfoliated cells in non-small cell lung cancer was assessed using ROC curves and using 95%CI(-11.1,-13.2)with a sensitivity of 0.75 and specificity of 0.94,and the diagnostic efficacy of FCM for detecting pleural fluid exfoliated cells in alveolar lung disease was assessed using 95%CI(-11.1,-13.2)with a sensitivity of 0.71 and specificity of 0.87.Conclusion:Flow cytometry has a wider range of clinical applications,simple operation,low cost,and high sensitivity,which makes it of great significance in disease diagnosis.
文摘In order to study the significance of flow cytometry immunophenotyping in the diagnosis of acute leukemia, CD45/SSC gating multiparameter flow cytometry (FCM) was utilized to analyze the immunophenotypes of 139 cases of acute leukemia. 139 cases of acute leukemia were enrolled in our hospital from April 1998 to April 2000. Morphological analysis and FCM immunophenotypic tests were conducted on all cases. Our results showed that CD45/SSC gating multiparameter flow cytometry immunophenotyping could reflect the origin of leukemic cells specifically. It is one of the important methods for the diagnosis of ALL, AML, and HAL. CD45/SSC gating multiparameter FCM analysis is a good technique for immunophenotyping. FCM immunophenotypic analysis can help improve the diagnosis and classification of acute leukemia, and extend the use of FCM in clinical practice.
基金supported by the National Natural Science Foundation of China (Nos.41176098 and 31372529)
文摘Flow cytometry(FCM) technique has been widely applied to estimating the genome size of various higher plants. However, there is few report about its application in algae. In this study, an optimized procedure of FCM was exploited to estimate the genome size of two eukaryotic algae. For analyzing Alexandrium catenella, an important red tide species, the whole cell instead of isolated nucleus was studied, and chicken erythrocytes were used as an internal reference. The genome size of A. catenella was estimated to be 56.48 ± 4.14 Gb(1C), approximately nineteen times larger than that of human genome. For analyzing Gracilariopsis lemaneiformis, an important economical red alga, the purified nucleus was employed, and Arabidopsis thaliana and Chondrus crispus were used as internal references, respectively. The genome size of Gp. lemaneiformis was 97.35 ± 2.58 Mb(1C) and 112.73 ± 14.00 Mb(1C), respectively, depending on the different internal references. The results of this research will promote the related studies on the genomics and evolution of these two species.
基金financial support from the University of North Florida.
文摘Gaining a full understanding of the mechanisms of action of natural products as therapeutic agents includes observing the effects of natural products on cellular morphology,because abnormal cellular morphology is an important aspect of cellular transformations that occur as part of disease states.In this study a set of natural products was examined in search of small molecules that influence the cylindrical morphology of fission yeast Schizosaccharomyces pombe.Imaging flow cytometry of large populations of S.pombe exposed to natural products captured cell images and revealed changes in mean length and aspect ratio of cells.Several natural products were found to alter S.pombe’s morphology relative to control,in terms of elongating cells,shrinking them,or making them more round.These results may facilitate future investigations into methods by which cells establish and maintain specific shapes.
基金Supported by Cleveland State University and Jordan University of Science and Technologygrant number 20130097
文摘Objective:To investigate the role of water-soluble extract of Salvia fruticosa(Creek sage)(S.fruticosa) leaves in reducing both intrinsic cellular and H_2O_2-induced DNA oxidation in cultured human embryonic kidney 293 cells.S.fruiicosa.native to the Eastern-Mediterranean basin,is widely used as a medicinal herb for treatment of various diseases.Methods:Dried leaves of 5.fruticosa were extracted in phosphate buffer saline and purified using both vacuum and high pressure filtrations.Each mL of the preparation contained(7.1±1.0)mg of extract.HEK-293 cells were incubated in one set with S.fruticosa extract in the presence of 0.1 mmol/L H_2O_2,and in the other set with the addition of the extract alone.The DNA oxidation was measured using fluorescence upon fluorescein isothiocyanate derivarization of 8-oxoguanine moieties.The fluorescence was measured using flow cytometry technique.Results:Cells incubated 3 h with 150μL extract and exposed to 0.1 mmol/L H_2O_2 showed lower intensity of fluorescence,and thus lower DNA oxidation.Moreover,cells incubated 3 h with 100μl.of the extract showed lower intensity of fluorescence,and thus lower intrinsic cellular DNA oxidation compared to control(without S.fruticosa).Conchisions:The results from this study suggest that the water-soluble extract of S.fruticosa leaves protects against both H_2O_2-induced and intrinsic cellular DNA oxidation in human embryonic kidney 293 cells.
基金This study was supported by the 863 project No.2001AA630509-2,NSFC project No.40232021,30170189 and 4017603
文摘Distribution of one group of marine viral particles along the Kuroshio Current and theadjacent area was investigated in June, 1998 using flow cytometry for the first time. The position of thisgroup of virioplankton in flow cytometry plots coincided with the position of the V-I group reported byMarie et al. (1999). Abundances of this group of virioplankton in the surface water ranged from 3.4×10<sup>5</sup> to 2. 3×10<sup>6</sup> ml<sup>-1</sup> in the investigated area. High abundance occurred in the shelf water and low abun-
基金the support from the Ministry of ScienceInnovation and Universities,Spain (AGL2017–88329-R and FPU18/00666)+1 种基金Regional Government of Catalonia,Spain (2017-SGR-1229)University of Girona (Postdoc-Ud G2020)。
文摘Background:Genetic selection in cattle has been directed to increase milk production.This,coupled to the fact that the vast majority of bovine artificial inseminations(AI)are performed using cryopreserved sperm,have led to a reduction of fertility rates over the years.Thus,seeking sensitive and specific sperm biomarkers able to predict fertility rates is of vital importance to improve cattle reproductive efficiency.In humans,sperm chromatin condensation evaluated through chromomycin A3(CMA3)has recently been purported to be a powerful biomarker for sperm functional status and male infertility.The objectives of the present study were:a)to set up a flow cytometry method for simultaneously evaluating chromatin condensation and sperm viability,and b)to test whether this parameter could be used as a predictor of in vivo fertility in bulls.The study included pools of three independent cryopreserved ejaculates per bull from 25 Holstein males.Reproductive outcomes of each sire were determined by non-return rates,which were used to classify bulls into two groups(highly fertile and subfertile).Results:Chromatin condensation status of bovine sperm was evaluated through the combination of CMA3 and Yo-Pro-1 staining and flow cytometry.Sperm quality parameters(morphology,viability,total and progressive motility)were also assessed.Pearson correlation coefficients and ROC curves were calculated to assess their capacity to predict in vivo fertility.Sperm morphology,viability and total motility presented an area under the ROC curve(AUC)of 0.54,0.64 and 0.68,respectively(P>0.05),and thus were not able to discriminate between fertile and subfertile individuals.Alternatively,while the percentage of progressively motile sperm showed a significant predictive value,with an AUC of 0.73(P=0.05),CMA3/Yo-Pro-1 staining even depicted superior results for the prediction of in vivo fertility in bulls.Specifically,the percentage of viable sperm with poor chromatin condensation showed better accuracy and precision to predict in vivo fertility,with an AUC of 0.78(P=0.02).Conclusions:Chromatin condensation evaluated through CMA3/Yo-Pro-1 and flow cytometry is defined here as a more powerful tool than conventional sperm parameters to predict bull in vivo fertility,with a potential ability to maximising the efficiency of dairy breeding industry.
文摘The changes of cell surface markers before and after activation by IL-2were detected by flow cytometry (FCM) to establish a more convenient and pre-cise criterion for the judgment of the activation of bone marrow. By using the measurement of the release of lactate dehydrogenase (LDH) the cytotoxicity of mononuclear cells (MNCs) from bone marrow, activated or inactivated, on tumor cell line K562 was evaluated, and at the same time the changes of surface markers on MNCs before and after activation were examined by using FCM. The results showed that the cytotoxicity of MNCs from bone marrow activated by IL-2 on tu-mor cell line K562 was increased obviously and the number of CD and CD posi-tive cells in bone marrow MNCs was higher than be fore activation. The enhanced cytotoxicity of MNCs on tumor cell line K562 was synchronous with the increaseof the number of CD and CD positive cells in 48 to 72 h. It is more direct, simple and precise to demonstrate the activation of IL-2 on bone marrow by detecting the changes of the amount of the CD and CD positive cells in bone marrow by FCM.
基金supported by the National Natural Science Foundation of China(Grant No.82074502)the Science and Technology Commission of Shanghai Municipality(Grant No.20Y11903700)+3 种基金the Shanghai Hospital Development Center(Grant No.SHDC2020CR4082)the Shanghai Municipal Health Committee(Grant No.202040457)the Innovative Research Team of High-level Local Universities in Shanghai(Grant No.SSMU-ZDCX20180901)the SHIPM-mu Fund from the Shanghai Institute of Precision Medicine(Grant No.JC201807)。
文摘Objective:To elucidate whether DNA aneuploidy was an independent discriminator for carcinoma within oral potentially malignant disorders(OPMDs),and further establish and validate a risk model based on DNA aneuploidy for the detection of oral cancer.Methods:A total of 810 consecutive patients with OPMD were prospectively enrolled from March 2013 to December 2018,and divided into a training set(n=608)and a test set(n=202).Brushing and biopsy samples from each patient were processed by DNADNA image cytometry and histopathological examination,respectively.Results:DNA aneuploidy of an outside DNA index≥3.5 in OPMD was an independent marker strongly associated with malignant risk[adjusted odds ratio:13.04;95%confidence interval(CI):5.46-31.14].In the training and test sets,the area under the curve(AUC)was 0.87(95%CI:0.82-0.91)and 0.77(95%CI:0.57-0.97),respectively,for detecting carcinoma in OPMD patients.The independent risk factors of lateral/ventral tongue and non-homogenous type combined with a risk model built with a multivariate logistic regression revealed a more favorable diagnostic efficacy associated with the training set(AUC:0.93;95%CI:0.91-0.96)and test set(AUC:0.94;95%CI:0.90-0.98).The sensitivity and specificity of carcinoma detection within OPMD was improved to 100%and 88.1%,respectively.Conclusions:This large-scale diagnostic study established a risk model based on DNA aneuploidy that consisted of a noninvasive strategy with lateral/ventral tongue and non-homogenous features.The results showed favorable diagnostic efficacy for detecting carcinoma within OPMD,irrespective of the clinical and pathological diagnoses of OPMD.Multicenter validation and longitudinal studies are warranted to evaluate community practices and clinical applications.
基金the Polish grant committee for funding the“Bridge Alpha”grant for this project。
文摘In microfluidic impedance cytometry,the change in impedance is recorded as an individual cell passes through a channel between electrodes deposited on its walls,and the particle size is inferred from the amplitude of the impedance signal using calibration.However,because the current density is nonuniform between electrodes of finite width,there could be an error in the particle size measurement because of uncertainty about the location of the particle in the channel cross section.Here,a correlation is developed relating the particle size to the signal amplitude and the velocity of the particle through the channel.The latter is inferred from the time interval between the two extrema in the impedance curve as the particle passes through a channel with cross-sectional dimensions of 50μm(width)×30μm(height)with two pairs of parallel facing electrodes.The change in impedance is predicted using 3D COMSOL finite-element simulations,and a theoretical correlation that is independent of particle size is formulated to correct the particle diameter for variations in the cross-sectional location.With this correlation,the standard deviation in the experimental data is reduced by a factor of two to close to the standard deviation reported in the manufacturer specifications.
