Background: B-cell Acute lymphoblastic leukemia (B-ALL) is a neoplasm of lymphoblasts which are of B-cell lineage typically composed of small to medium sized blast cells, moderately condensed to dispersed chromatin wi...Background: B-cell Acute lymphoblastic leukemia (B-ALL) is a neoplasm of lymphoblasts which are of B-cell lineage typically composed of small to medium sized blast cells, moderately condensed to dispersed chromatin with scanty cytoplasm and inconspicuous nucleoli, involving the bone marrow and/or blood. Methods and materials: This is a prospective cross-sectional study in which 50 blood and/or bone marrow samples of newly diagnosed patients (B-ALL) were tested for immunophenotyping. All samples were prepared for surface and cytoplasmic markers including kappa and lambda human antibody for 10 minutes in dark place and then run by the Flow Cytometer. Results: 64% of the study populations were males and 36% were females. Cases were classified according to immunophenotype and the age into different subtypes and showed the following frequencies: Pro B-ALL (8%), early pre B-ALL (56%), common B-ALL (16%), Pre-B-ALL (14%) and Mature B-ALL (only 6%). Surface immunoglobulin was positive in 10% and negative in 90% of all patients, showing 100% positivity in mature B-ALL and totally negative in other subtypes. While cytoplasmic immunoglobulin was positive in 16% and negative in 84% of all patients and was positive in 100% of Pre-B-ALL and in 50% of mature B-ALL. Surface kappa was more expressed in mature B-ALL than lambda giving a ratio of 2:1, while cytoplasmic kappa:lambda was 6:1 in Pre-B-ALL. Conclusion: Kappa and lambda have important role in B-ALL classification which necessitates their presence in immunophenotyping of B-ALL.展开更多
Comprehensive Summary,Most conventional digital bioassays rely on the use of fully-sealed microchambers as independent units to compartmentalize the target molecules and the signal generation reaction,which require sp...Comprehensive Summary,Most conventional digital bioassays rely on the use of fully-sealed microchambers as independent units to compartmentalize the target molecules and the signal generation reaction,which require specialized equipment or proprietary reagents/consumables.Herein,we report a microchamber-free and spherical nucleic acid(SNA)-amplified digital flow cytometric bead assay(dFBA)for ultrasensitive protein and exosome analysis with simple workflows,easily accessible instruments/reagents,and high discriminating ability towards the fluorescence-positive and fluorescence-negative beads.In this dFBA,microbeads are employed as independent carriers to anchor the single target molecule-initiated signal amplification reaction,avoiding the use of sealed droplets or microwell microchambers.Meanwhile,antibody-functionalized SNAs(FSNAs)with a high density of DNA probes act as a bridge for efficiently amplified target-to-DNA signal conversion,which allows the use of DNA-based rolling circle amplification(RCA)as the fluorescence signal amplification technique to quantify non-nucleic acid targets.Even a single target-induced on-bead RCA and fluorescence enriching are sufficient to make the target-loaded bead bright enough to be clearly discriminated from the negative ones just by use of a most common flow cytometer(FCM).This dFBA has successfully realized the digital analysis of ultralow levels of protein and exosome biomarkers,enlarging the toolbox of digital bioassays for clinical applications.展开更多
Plankton size structure is crucial for understanding marine ecosystem dynamics and the associated biogeochemical processes.A fixation step by acid Lugol’s solution has been commonly employed to preserve plankton samp...Plankton size structure is crucial for understanding marine ecosystem dynamics and the associated biogeochemical processes.A fixation step by acid Lugol’s solution has been commonly employed to preserve plankton samples in the field.However,the acid Lugol’s solution can bias the estimation of size structure and the preserved plankton size structure can vary with time.Here,we explore the impact of sample storage time on the size-structure of the plankton community preserved by Lugol’s solution.Two short-term experiments and one long-term experiment were conducted to explore the change of plankton community size structure with the storage time:covering from a week to a month,and to nearly seven months based on particle-size data obtained by continuous Flow Cytometer and Microscope(FlowCAM)measurements.We found a linear change of plankton size with the storage time in short-term periods(less than 3 months)with a decrease of the slope but an increase of the intercept for the normalized biomass size spectrum(NBS S).However,there were opposite trends for NBSS with increasing slope but decreasing intercept after3 months.The potential causes of the distinct patterns of the NBSS parameters are addressed in terms of the interplay between particle aggregation and fragmentation.We found large changes in plankton biovolume and abundance among different size classes,which may indicate a distinct effect of acid Lugol’s solution on various plankton size classes.The mechanism driving temporal change in the size-structure of the Lugolfixed plankton community was further discussed in terms of particle aggregation and fragmentation.Finally,we emphasize that the effect of storage time should be taken into account when interpreting or comparing data of plankton community acquired from samples with various storage durations.展开更多
The Microchip Imaging Cytometer(MIC)is a class of integrated point-of-care detection systems based on the combination of optical microscopy and flow cytometry.MIC devices have the attributes of portability,cost-effect...The Microchip Imaging Cytometer(MIC)is a class of integrated point-of-care detection systems based on the combination of optical microscopy and flow cytometry.MIC devices have the attributes of portability,cost-effectiveness,and adaptability while providing quantitative measurements to meet the needs of laboratory testing in a variety of healthcare settings.Based on the use of microfluidic chips,MIC requires less sample and can complete sample preparation automatically.Therefore,they can provide quantitative testing results simply using a finger prick specimen.The decreased reagent consumption and reduced form factor also help improve the accessibility and affordability of healthcare services in remote and resource-limited settings.In this article,we review recent developments of the Microchip Imaging Cytometer from the following aspects:clinical applications,microfluidic chip integration,imaging optics,and image acquisition.Following,we provide an outlook of the field and remark on promising technologies that may enable significant progress in the near future.展开更多
文摘Background: B-cell Acute lymphoblastic leukemia (B-ALL) is a neoplasm of lymphoblasts which are of B-cell lineage typically composed of small to medium sized blast cells, moderately condensed to dispersed chromatin with scanty cytoplasm and inconspicuous nucleoli, involving the bone marrow and/or blood. Methods and materials: This is a prospective cross-sectional study in which 50 blood and/or bone marrow samples of newly diagnosed patients (B-ALL) were tested for immunophenotyping. All samples were prepared for surface and cytoplasmic markers including kappa and lambda human antibody for 10 minutes in dark place and then run by the Flow Cytometer. Results: 64% of the study populations were males and 36% were females. Cases were classified according to immunophenotype and the age into different subtypes and showed the following frequencies: Pro B-ALL (8%), early pre B-ALL (56%), common B-ALL (16%), Pre-B-ALL (14%) and Mature B-ALL (only 6%). Surface immunoglobulin was positive in 10% and negative in 90% of all patients, showing 100% positivity in mature B-ALL and totally negative in other subtypes. While cytoplasmic immunoglobulin was positive in 16% and negative in 84% of all patients and was positive in 100% of Pre-B-ALL and in 50% of mature B-ALL. Surface kappa was more expressed in mature B-ALL than lambda giving a ratio of 2:1, while cytoplasmic kappa:lambda was 6:1 in Pre-B-ALL. Conclusion: Kappa and lambda have important role in B-ALL classification which necessitates their presence in immunophenotyping of B-ALL.
基金supported by the National Natural Science Foundation of China(22074088,21622507)the Program for Changjiang Scholars and Innovative Research Team in University(IRT_15R43)+1 种基金the Fundamental Research Funds for the Central Universities(GK202101001,GK202206040)Innovation Capability Support Program of Shaanxi(2021TD-42).
文摘Comprehensive Summary,Most conventional digital bioassays rely on the use of fully-sealed microchambers as independent units to compartmentalize the target molecules and the signal generation reaction,which require specialized equipment or proprietary reagents/consumables.Herein,we report a microchamber-free and spherical nucleic acid(SNA)-amplified digital flow cytometric bead assay(dFBA)for ultrasensitive protein and exosome analysis with simple workflows,easily accessible instruments/reagents,and high discriminating ability towards the fluorescence-positive and fluorescence-negative beads.In this dFBA,microbeads are employed as independent carriers to anchor the single target molecule-initiated signal amplification reaction,avoiding the use of sealed droplets or microwell microchambers.Meanwhile,antibody-functionalized SNAs(FSNAs)with a high density of DNA probes act as a bridge for efficiently amplified target-to-DNA signal conversion,which allows the use of DNA-based rolling circle amplification(RCA)as the fluorescence signal amplification technique to quantify non-nucleic acid targets.Even a single target-induced on-bead RCA and fluorescence enriching are sufficient to make the target-loaded bead bright enough to be clearly discriminated from the negative ones just by use of a most common flow cytometer(FCM).This dFBA has successfully realized the digital analysis of ultralow levels of protein and exosome biomarkers,enlarging the toolbox of digital bioassays for clinical applications.
基金Supported by the Guangdong Province Special Support Plan for Leading Talents(No.2019TX05H216)the Key Special Project for Introduced Talents Team of Southern Marine Science and Engineering Guangdong Laboratory(Guangzhou)(No.GML2019ZD0305)+1 种基金the National Natural Science Foundation of China(No.41906132)the Science and Technology Program of Guangzhou(No.202102021229)。
文摘Plankton size structure is crucial for understanding marine ecosystem dynamics and the associated biogeochemical processes.A fixation step by acid Lugol’s solution has been commonly employed to preserve plankton samples in the field.However,the acid Lugol’s solution can bias the estimation of size structure and the preserved plankton size structure can vary with time.Here,we explore the impact of sample storage time on the size-structure of the plankton community preserved by Lugol’s solution.Two short-term experiments and one long-term experiment were conducted to explore the change of plankton community size structure with the storage time:covering from a week to a month,and to nearly seven months based on particle-size data obtained by continuous Flow Cytometer and Microscope(FlowCAM)measurements.We found a linear change of plankton size with the storage time in short-term periods(less than 3 months)with a decrease of the slope but an increase of the intercept for the normalized biomass size spectrum(NBS S).However,there were opposite trends for NBSS with increasing slope but decreasing intercept after3 months.The potential causes of the distinct patterns of the NBSS parameters are addressed in terms of the interplay between particle aggregation and fragmentation.We found large changes in plankton biovolume and abundance among different size classes,which may indicate a distinct effect of acid Lugol’s solution on various plankton size classes.The mechanism driving temporal change in the size-structure of the Lugolfixed plankton community was further discussed in terms of particle aggregation and fragmentation.Finally,we emphasize that the effect of storage time should be taken into account when interpreting or comparing data of plankton community acquired from samples with various storage durations.
基金Natural Sciences and Engineering Research Council of Canada (NSERC)Ontario Research Fund (ORF)the India-Canada Centre for Innovative Multidisciplinary Partnerships to Accelerate Community Transformation and Sustainability (IC-IM-PACTS)
文摘The Microchip Imaging Cytometer(MIC)is a class of integrated point-of-care detection systems based on the combination of optical microscopy and flow cytometry.MIC devices have the attributes of portability,cost-effectiveness,and adaptability while providing quantitative measurements to meet the needs of laboratory testing in a variety of healthcare settings.Based on the use of microfluidic chips,MIC requires less sample and can complete sample preparation automatically.Therefore,they can provide quantitative testing results simply using a finger prick specimen.The decreased reagent consumption and reduced form factor also help improve the accessibility and affordability of healthcare services in remote and resource-limited settings.In this article,we review recent developments of the Microchip Imaging Cytometer from the following aspects:clinical applications,microfluidic chip integration,imaging optics,and image acquisition.Following,we provide an outlook of the field and remark on promising technologies that may enable significant progress in the near future.