Digital Microfluidic Platform for Multiplexing Enzyme Assays: Implications for Lysosomal Storage Disease Screening in Newborns
Newborn screening for lysosomal storage diseases (LSDs) has been gaining considerable interest owing to the availability of enzyme replacement therapies. We present a digital microfluidic platform to perform rapid, multiplexed enzymatic analysis of acid α-glucosidase (GAA) and acid α-galactosidase t...
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| Vydáno v: | Clinical chemistry (Baltimore, Md.) Ročník 57; číslo 10; s. 1444 - 1451 |
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| Hlavní autoři: | , , , , , , , , , , , |
| Médium: | Journal Article |
| Jazyk: | angličtina |
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Washington, DC
American Association for Clinical Chemistry
01.10.2011
Oxford University Press |
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| ISSN: | 0009-9147, 1530-8561, 1530-8561 |
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| Abstract | Newborn screening for lysosomal storage diseases (LSDs) has been gaining considerable interest owing to the availability of enzyme replacement therapies. We present a digital microfluidic platform to perform rapid, multiplexed enzymatic analysis of acid α-glucosidase (GAA) and acid α-galactosidase to screen for Pompe and Fabry disorders. The results were compared with those obtained using standard fluorometric methods.
We performed bench-based, fluorometric enzymatic analysis on 60 deidentified newborn dried blood spots (DBSs), plus 10 Pompe-affected and 11 Fabry-affected samples, at Duke Biochemical Genetics Laboratory using a 3-mm punch for each assay and an incubation time of 20 h. We used a digital microfluidic platform to automate fluorometric enzymatic assays at Advanced Liquid Logic Inc. using extract from a single punch for both assays, with an incubation time of 6 h. Assays were also performed with an incubation time of 1 h.
Assay results were generally comparable, although mean enzymatic activity for GAA using microfluidics was approximately 3 times higher than that obtained using bench-based methods, which could be attributed to higher substrate concentration. Clear separation was observed between the normal and affected samples at both 6- and 1-h incubation times using digital microfluidics.
A digital microfluidic platform compared favorably with a clinical reference laboratory to perform enzymatic analysis in DBSs for Pompe and Fabry disorders. This platform presents a new technology for a newborn screening laboratory to screen LSDs by fully automating all the liquid-handling operations in an inexpensive system, providing rapid results. |
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| AbstractList | Newborn screening for lysosomal storage diseases (LSDs) has been gaining considerable interest owing to the availability of enzyme replacement therapies. We present a digital microfluidic platform to perform rapid, multiplexed enzymatic analysis of acid α-glucosidase (GAA) and acid α-galactosidase to screen for Pompe and Fabry disorders. The results were compared with those obtained using standard fluorometric methods.BACKGROUNDNewborn screening for lysosomal storage diseases (LSDs) has been gaining considerable interest owing to the availability of enzyme replacement therapies. We present a digital microfluidic platform to perform rapid, multiplexed enzymatic analysis of acid α-glucosidase (GAA) and acid α-galactosidase to screen for Pompe and Fabry disorders. The results were compared with those obtained using standard fluorometric methods.We performed bench-based, fluorometric enzymatic analysis on 60 deidentified newborn dried blood spots (DBSs), plus 10 Pompe-affected and 11 Fabry-affected samples, at Duke Biochemical Genetics Laboratory using a 3-mm punch for each assay and an incubation time of 20 h. We used a digital microfluidic platform to automate fluorometric enzymatic assays at Advanced Liquid Logic Inc. using extract from a single punch for both assays, with an incubation time of 6 h. Assays were also performed with an incubation time of 1 h.METHODSWe performed bench-based, fluorometric enzymatic analysis on 60 deidentified newborn dried blood spots (DBSs), plus 10 Pompe-affected and 11 Fabry-affected samples, at Duke Biochemical Genetics Laboratory using a 3-mm punch for each assay and an incubation time of 20 h. We used a digital microfluidic platform to automate fluorometric enzymatic assays at Advanced Liquid Logic Inc. using extract from a single punch for both assays, with an incubation time of 6 h. Assays were also performed with an incubation time of 1 h.Assay results were generally comparable, although mean enzymatic activity for GAA using microfluidics was approximately 3 times higher than that obtained using bench-based methods, which could be attributed to higher substrate concentration. Clear separation was observed between the normal and affected samples at both 6- and 1-h incubation times using digital microfluidics.RESULTSAssay results were generally comparable, although mean enzymatic activity for GAA using microfluidics was approximately 3 times higher than that obtained using bench-based methods, which could be attributed to higher substrate concentration. Clear separation was observed between the normal and affected samples at both 6- and 1-h incubation times using digital microfluidics.A digital microfluidic platform compared favorably with a clinical reference laboratory to perform enzymatic analysis in DBSs for Pompe and Fabry disorders. This platform presents a new technology for a newborn screening laboratory to screen LSDs by fully automating all the liquid-handling operations in an inexpensive system, providing rapid results.CONCLUSIONSA digital microfluidic platform compared favorably with a clinical reference laboratory to perform enzymatic analysis in DBSs for Pompe and Fabry disorders. This platform presents a new technology for a newborn screening laboratory to screen LSDs by fully automating all the liquid-handling operations in an inexpensive system, providing rapid results. Newborn screening for lysosomal storage diseases (LSDs) has been gaining considerable interest owing to the availability of enzyme replacement therapies. We present a digital microfluidic platform to perform rapid, multiplexed enzymatic analysis of acid α-glucosidase (GAA) and acid α-galactosidase to screen for Pompe and Fabry disorders. The results were compared with those obtained using standard fluorometric methods. We performed bench-based, fluorometric enzymatic analysis on 60 deidentified newborn dried blood spots (DBSs), plus 10 Pompe-affected and 11 Fabry-affected samples, at Duke Biochemical Genetics Laboratory using a 3-mm punch for each assay and an incubation time of 20 h. We used a digital microfluidic platform to automate fluorometric enzymatic assays at Advanced Liquid Logic Inc. using extract from a single punch for both assays, with an incubation time of 6 h. Assays were also performed with an incubation time of 1 h. Assay results were generally comparable, although mean enzymatic activity for GAA using microfluidics was approximately 3 times higher than that obtained using bench-based methods, which could be attributed to higher substrate concentration. Clear separation was observed between the normal and affected samples at both 6- and 1-h incubation times using digital microfluidics. A digital microfluidic platform compared favorably with a clinical reference laboratory to perform enzymatic analysis in DBSs for Pompe and Fabry disorders. This platform presents a new technology for a newborn screening laboratory to screen LSDs by fully automating all the liquid-handling operations in an inexpensive system, providing rapid results. Newborn screening for lysosomal storage diseases (LSDs) has been gaining considerable interest owing to the availability of enzyme replacement therapies. We present a digital microfluidic platform to perform rapid, multiplexed enzymatic analysis of acid α-glucosidase (GAA) and acid α-galactosidase to screen for Pompe and Fabry disorders. The results were compared with those obtained using standard fluorometric methods. We performed bench-based, fluorometric enzymatic analysis on 60 deidentified newborn dried blood spots (DBSs), plus 10 Pompe-affected and 11 Fabry-affected samples, at Duke Biochemical Genetics Laboratory using a 3-mm punch for each assay and an incubation time of 20 h. We used a digital microfluidic platform to automate fluorometric enzymatic assays at Advanced Liquid Logic Inc. using extract from a single punch for both assays, with an incubation time of 6 h. Assays were also performed with an incubation time of 1 h. Assay results were generally comparable, although mean enzymatic activity for GAA using microfluidics was approximately 3 times higher than that obtained using bench-based methods, which could be attributed to higher substrate concentration. Clear separation was observed between the normal and affected samples at both 6- and 1-h incubation times using digital microfluidics. A digital microfluidic platform compared favorably with a clinical reference laboratory to perform enzymatic analysis in DBSs for Pompe and Fabry disorders. This platform presents a new technology for a newborn screening laboratory to screen LSDs by fully automating all the liquid-handling operations in an inexpensive system, providing rapid results. |
| Author | Pollack, Michael G Norton, Scott M Rouse, Jeremy L Eckhardt, Allen E Bali, Deeksha Sista, Ramakrishna S Srinivasan, Vijay Graham, Carrie Tolun, Adviye A Pamula, Vamsee K Wang, Tong Millington, David S |
| AuthorAffiliation | 1 Advanced Liquid Logic, Research Triangle Park, NC 2 Division of Medical Genetics, Department of Pediatrics, Duke University Medical Center, Durham, NC |
| AuthorAffiliation_xml | – name: 1 Advanced Liquid Logic, Research Triangle Park, NC – name: 2 Division of Medical Genetics, Department of Pediatrics, Duke University Medical Center, Durham, NC |
| Author_xml | – sequence: 1 givenname: Ramakrishna S surname: Sista fullname: Sista, Ramakrishna S organization: Advanced Liquid Logic, Research Triangle Park, NC – sequence: 2 givenname: Allen E surname: Eckhardt fullname: Eckhardt, Allen E organization: Advanced Liquid Logic, Research Triangle Park, NC – sequence: 3 givenname: Tong surname: Wang fullname: Wang, Tong organization: Advanced Liquid Logic, Research Triangle Park, NC – sequence: 4 givenname: Carrie surname: Graham fullname: Graham, Carrie organization: Advanced Liquid Logic, Research Triangle Park, NC – sequence: 5 givenname: Jeremy L surname: Rouse fullname: Rouse, Jeremy L organization: Advanced Liquid Logic, Research Triangle Park, NC – sequence: 6 givenname: Scott M surname: Norton fullname: Norton, Scott M organization: Advanced Liquid Logic, Research Triangle Park, NC – sequence: 7 givenname: Vijay surname: Srinivasan fullname: Srinivasan, Vijay organization: Advanced Liquid Logic, Research Triangle Park, NC – sequence: 8 givenname: Michael G surname: Pollack fullname: Pollack, Michael G organization: Advanced Liquid Logic, Research Triangle Park, NC – sequence: 9 givenname: Adviye A surname: Tolun fullname: Tolun, Adviye A organization: Division of Medical Genetics, Department of Pediatrics, Duke University Medical Center, Durham, NC – sequence: 10 givenname: Deeksha surname: Bali fullname: Bali, Deeksha organization: Division of Medical Genetics, Department of Pediatrics, Duke University Medical Center, Durham, NC – sequence: 11 givenname: David S surname: Millington fullname: Millington, David S organization: Division of Medical Genetics, Department of Pediatrics, Duke University Medical Center, Durham, NC – sequence: 12 givenname: Vamsee K surname: Pamula fullname: Pamula, Vamsee K organization: Advanced Liquid Logic, Research Triangle Park, NC |
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| Keywords | Human Assay Multiplexing Newborn Enzyme Clinical biology Biochemistry Molecular biology Medical screening Lysosomal storage disease |
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| Snippet | Newborn screening for lysosomal storage diseases (LSDs) has been gaining considerable interest owing to the availability of enzyme replacement therapies. We... |
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| SubjectTerms | alpha-Galactosidase - blood alpha-Glucosidases - blood Analytical, structural and metabolic biochemistry Automation Biological and medical sciences Clinical Enzyme Tests - instrumentation Disease Enzymatic activity Fabry Disease - diagnosis Fluorometry Fundamental and applied biological sciences. Psychology Genetics Glycogen Storage Disease Type II - diagnosis Humans Infant, Newborn Investigative techniques, diagnostic techniques (general aspects) Lab-On-A-Chip Devices Medical sciences Medical screening Methods Microfluidic Analytical Techniques - instrumentation Molecular biophysics Neonatal Screening Public health |
| Title | Digital Microfluidic Platform for Multiplexing Enzyme Assays: Implications for Lysosomal Storage Disease Screening in Newborns |
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