Your search keyword '"Sunghoon Kwon"' showing total 346 results

1. Oligonucleotide subsets selection by single nucleotide resolution barcode identification

Author

Woojin Kim, Mingweon Chon, Yoonhae Koh, Hansol Choi, Eunjin Choi, Hyewon Park, Yushin Jung, Taehoon Ryu, Sunghoon Kwon, and Yeongjae Choi

Subjects

Science

Abstract

Abstract Effective subset selection from complex oligonucleotide libraries is crucial for genomics, synthetic biology, and DNA data storage. The polymerase chain reaction, foundational for amplifying target subsets is limited by primer design and length for specificity, which constrains the scalability of oligo libraries and increases the synthesis burden for primers. We introduce an oligo subset selection methodology that utilizes sequence-specific cyclic nucleotide synthesis and blocking of the template oligos. This approach eliminates the need for primers for selective hybridization and enables the encoding and selection of hundreds of subsets with barcode lengths of fewer than five nucleotides. Moreover, cyclic selection enables a hierarchical data structure in the oligo library, enhancing the programmability. This advancement offers a scalable and cost-effective solution for handling complex oligo libraries.

Published

2025

2. An ancestral SARS-CoV-2 vaccine induces anti-Omicron variants antibodies by hypermutation

Author

Seoryeong Park, Jaewon Choi, Yonghee Lee, Jinsung Noh, Namphil Kim, JinAh Lee, Geummi Cho, Sujeong Kim, Duck Kyun Yoo, Chang Kyung Kang, Pyoeng Gyun Choe, Nam Joong Kim, Wan Beom Park, Seungtaek Kim, Myoung-don Oh, Sunghoon Kwon, and Junho Chung

Subjects

Science

Abstract

Abstract The immune escape of Omicron variants significantly subsides by the third dose of an mRNA vaccine. However, it is unclear how Omicron variant-neutralizing antibodies develop under repeated vaccination. We analyze blood samples from 41 BNT162b2 vaccinees following the course of three injections and analyze their B-cell receptor (BCR) repertoires at six time points in total. The concomitant reactivity to both ancestral and Omicron receptor-binding domain (RBD) is achieved by a limited number of BCR clonotypes depending on the accumulation of somatic hypermutation (SHM) after the third dose. Our findings suggest that SHM accumulation in the BCR space to broaden its specificity for unseen antigens is a counterprotective mechanism against virus variant immune escape.

Published

2024

3. Mapping cancer biology in space: applications and perspectives on spatial omics for oncology

Author

Sumin Lee, Gyeongjun Kim, JinYoung Lee, Amos C. Lee, and Sunghoon Kwon

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Technologies to decipher cellular biology, such as bulk sequencing technologies and single-cell sequencing technologies, have greatly assisted novel findings in tumor biology. Recent findings in tumor biology suggest that tumors construct architectures that influence the underlying cancerous mechanisms. Increasing research has reported novel techniques to map the tissue in a spatial context or targeted sampling-based characterization and has introduced such technologies to solve oncology regarding tumor heterogeneity, tumor microenvironment, and spatially located biomarkers. In this study, we address spatial technologies that can delineate the omics profile in a spatial context, novel findings discovered via spatial technologies in oncology, and suggest perspectives regarding therapeutic approaches and further technological developments.

Published

2024

4. Barcoded multiple displacement amplification for high coverage sequencing in spatial genomics

Author

Jinhyun Kim, Sungsik Kim, Huiran Yeom, Seo Woo Song, Kyoungseob Shin, Sangwook Bae, Han Suk Ryu, Ji Young Kim, Ahyoun Choi, Sumin Lee, Taehoon Ryu, Yeongjae Choi, Hamin Kim, Okju Kim, Yushin Jung, Namphil Kim, Wonshik Han, Han-Byoel Lee, Amos C. Lee, and Sunghoon Kwon

Subjects

Science

Abstract

Abstract Determining mutational landscapes in a spatial context is essential for understanding genetically heterogeneous cell microniches. Current approaches, such as Multiple Displacement Amplification (MDA), offer high genome coverage but limited multiplexing, which hinders large-scale spatial genomic studies. Here, we introduce barcoded MDA (bMDA), a technique that achieves high-coverage genomic analysis of low-input DNA while enhancing the multiplexing capabilities. By incorporating cell barcodes during MDA, bMDA streamlines library preparation in one pot, thereby overcoming a key bottleneck in spatial genomics. We apply bMDA to the integrative spatial analysis of triple-negative breast cancer tissues by examining copy number alterations, single nucleotide variations, structural variations, and kataegis signatures for each spatial microniche. This enables the assessment of subclonal evolutionary relationships within a spatial context. Therefore, bMDA has emerged as a scalable technology with the potential to advance the field of spatial genomics significantly.

Published

2023

5. Identification of B cell subsets based on antigen receptor sequences using deep learning

Author

Hyunho Lee, Kyoungseob Shin, Yongju Lee, Soobin Lee, Seungyoun Lee, Eunjae Lee, Seung Woo Kim, Ha Young Shin, Jong Hoon Kim, Junho Chung, and Sunghoon Kwon

Subjects

B cell receptor, B cell subset, deep learning, integrated gradients, somatic hypermutation, next-generation sequencing, Immunologic diseases. Allergy, RC581-607

Abstract

B cell receptors (BCRs) denote antigen specificity, while corresponding cell subsets indicate B cell functionality. Since each B cell uniquely encodes this combination, physical isolation and subsequent processing of individual B cells become indispensable to identify both attributes. However, this approach accompanies high costs and inevitable information loss, hindering high-throughput investigation of B cell populations. Here, we present BCR-SORT, a deep learning model that predicts cell subsets from their corresponding BCR sequences by leveraging B cell activation and maturation signatures encoded within BCR sequences. Subsequently, BCR-SORT is demonstrated to improve reconstruction of BCR phylogenetic trees, and reproduce results consistent with those verified using physical isolation-based methods or prior knowledge. Notably, when applied to BCR sequences from COVID-19 vaccine recipients, it revealed inter-individual heterogeneity of evolutionary trajectories towards Omicron-binding memory B cells. Overall, BCR-SORT offers great potential to improve our understanding of B cell responses.

Published

2024

6. Stereotypic T cell receptor clonotypes in the thymus and peripheral blood of Myasthenia gravis patients

Author

Yonghee Lee, Seung Woo Kim, Eunjae Lee, Ha Young Shin, MinGi Kim, Chang Young Lee, Byung Jo Park, Ha Eun Kim, Young Ho Yang, Jinny Choi, Soyeon Ju, Jungheum Park, Namphil Kim, Jaewon Choi, Jin Gu Lee, Sunghoon Kwon, and Junho Chung

Subjects

Myasthenia gravis, Acetylcholine receptor, T cell receptor repertoire, Thymus, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Myasthenia Gravis (MG) patients with anti-acetylcholine receptor (AChR) antibodies frequently show hyperplastic thymi with ectopic germinal centers, where autoreactive B cells proliferate with the aid of T cells. In this study, thymus and peripheral blood (PB) samples were collected from ten AChR antibody-positive MG patients. T cell receptor (TCR) repertoires were analyzed using next-generation sequencing (NGS), and compared with that of an age and sex matched control group generated from a public database. Certain V genes and VJ gene recombination pairs were significantly upregulated in the TCR chains of αβ-T cells in the PB of MG patients compared to the control group. Furthermore, the TCR chains found in the thymi of MG patients had a weighted distribution to longer CDR3 lengths when compared to the PB of MG patients, and the TCR beta chains (TRB) in the MG group's PB showed increased clonality encoded by one upregulated V gene. When TRB sequences were sub-divided into groups based on their CDR3 lengths, certain groups showed decreased clonality in the MG group's PB compared to the control group's PB. Finally, we demonstrated that stereotypic MG patient-specific TCR clonotypes co-exist in both the PB and thymi at a much higher frequency than that of the clonotypes confined to the PB. These results strongly suggest the existence of a biased T cell-mediated immune response in MG patients, as observed in other autoimmune diseases.

Published

2024

7. Pen-drawn Marangoni swimmer

Author

Seo Woo Song, Sumin Lee, Jun Kyu Choe, Amos Chungwon Lee, Kyoungseob Shin, Junwon Kang, Gyeongjun Kim, Huiran Yeom, Yeongjae Choi, Sunghoon Kwon, and Jiyun Kim

Subjects

Science

Abstract

Abstract Pen-drawing is an intuitive, convenient, and creative fabrication method for delivering emergent and adaptive design to real devices. To demonstrate the application of pen-drawing to robot construction, we developed pen-drawn Marangoni swimmers that perform complex programmed tasks using a simple and accessible manufacturing process. By simply drawing on substrates using ink-based Marangoni fuel, the swimmers demonstrate advanced robotic motions such as polygon and star-shaped trajectories, and navigate through maze. The versatility of pen-drawing allows the integration of the swimmers with time-varying substrates, enabling multi-step motion tasks such as cargo delivery and return to the original place. We believe that our pen-based approach will significantly expand the potential applications of miniaturized swimming robots and provide new opportunities for simple robotic implementations.

Published

2023

8. Analysis of clinical and genomic profiles of therapy-related myeloid neoplasm in Korea

Author

Jiwon Yun, Hyojin Song, Sung-Min Kim, Soonok Kim, Seok Ryun Kwon, Young Eun Lee, Dajeong Jeong, Jae Hyeon Park, Sunghoon Kwon, Hongseok Yun, and Dong Soon Lee

Subjects

Therapy-related myeloid neoplasm, Next-generation sequencing, Germline predisposition, Somatic mutation, Medicine, Genetics, QH426-470

Abstract

Abstract Background Therapy-related myeloid neoplasm (T-MN) rarely occurs among cancer survivors, and was characterized by poor prognosis. T-MN has germline predisposition in a considerable proportion. Here, clinical characteristics and germline/somatic variant profiles in T-MN patients were investigated, and the findings were compared with those of previous studies. Methods A review of medical records, cytogenetic study, targeted sequencing by next-generation sequencing, and survival analysis were performed on 53 patients with T-MN at a single institution in Korea. Results The patients were relatively younger compared to T-MN patients in other studies. Our T-MN patients showed a high frequency of complex karyotypes, −5/del(5q), and −7/del(7q), which was similar to the Japanese study group but higher than the Australian study group. The most common primary disease was non-Hodgkin lymphoma, followed by breast cancer. The detailed distributions of primary diseases were different across study groups. Seven patients (13.2%) harbored deleterious presumed/potential germline variants in cancer predisposition genes (CPG) such as BRIP1, CEBPA, DDX41, FANCM, NBN, NF1, and RUNX1. In the somatic variant profile, TP53 was the most frequently mutated gene, which was consistent with the previous studies about T-MN. However, the somatic variant frequency in our study group was lower than in other studies. Adverse factors for overall survival were male sex, older age, history of previous radiotherapy, previous longer cytotoxic therapy, and −5/del(5q). Conclusion The findings of our study corroborate important information about T-MN patients. As well as a considerable predisposition to CPG, the clinical characteristics and somatic variant profile showed distinctive patterns. Germline variant testing should be recommended for T-MN patients. If the T-MN patients harbor pathogenic germline variants, the family members for stem cell donation should be screened for carrier status through germline variant testing to avoid donor-derived myeloid neoplasm. For the prediction of the prognosis in T-MN patients, sex, age, past treatment history, and cytogenetic findings can be considered.

Published

2023

9. Hema-seq reveals genomic aberrations in a rare simultaneous occurrence of hematological malignancies

Author

Dajeong Jeong, Amos C. Lee, Kyoungseob Shin, Jinhyun Kim, Myoung Hee Ham, Changhee Lee, Sumin Lee, Ahyoun Choi, Taehoon Ryu, Okju Kim, Yushin Jung, Sunghoon Kwon, and Dong Soon Lee

Subjects

CP: Cancer biology, CP: Genetics, Biotechnology, TP248.13-248.65, Biochemistry, QD415-436, Science

Abstract

Summary: Co-occurrence of multiple myeloma and acute myelogenous leukemia is rare, with both malignancies often tracing back to multipotent hematopoietic stem cells. Cytogenetic techniques are the established baseline for diagnosis and characterization of complex hematological malignancies. In this study, we develop a workflow called Hema-seq to delineate clonal changes across various hematopoietic lineages through the integration of whole-genome sequencing, copy-number variations, cell morphology, and cytogenetic aberrations. In Hema-seq, cells are selected from Wright-stained slides and fluorescent probe-stained slides for sequencing. This technique therefore enables direct linking of whole-genome sequences to cytogenetic profiles. Through this method, we mapped sequential clonal alterations within the hematopoietic lineage, identifying critical shifts leading to myeloma and acute myeloid leukemia (AML) cell formations. By synthesizing data from each cell lineage, we provided insights into the hematopoietic tree’s clonal evolution. Overall, this study highlights Hema-seq’s capability in deciphering genomic heterogeneity in complex hematological malignancies, which can enable better diagnosis and treatment strategies. Motivation: Hematological malignancies, with their intricate molecular landscapes, present significant challenges in the diagnostic and therapeutic realms. The co-existence of neoplastic and normal cells within these malignancies further adds to this complexity. Traditional cytogenetic methods, while invaluable, cannot resolve the full spectrum of genomic aberrations, especially in rare simultaneous occurrences. We therefore sought to bring the greater degree of genomic resolution afforded by whole-genome sequencing to samples that have been processed and preserved through cytogenetic methods and to link sequencing profiles to selected cell populations for higher-resolution clonal reconstruction and analysis. Such an approach not only holds promise in unveiling the mysteries of clonal evolution but also in guiding tailored therapeutic strategies for enhanced patient outcomes. In short, our work with “Hema-seq” is driven by the motivation to bridge existing gaps and offer a panoramic view of the genomic intricacies within hematopoietic lineage cells.

Published

2023

10. The importance of critically short telomere in myelodysplastic syndrome

Author

Dong-Yeop Shin, Kyu Min Lim, Hee Sue Park, Sunghoon Kwon, Sung-Soo Yoon, and Dong-Soon Lee

Subjects

TeSLA, Short telomere, Myelodysplastic syndrome, Therapeutics. Pharmacology, RM1-950

Abstract

Highlights Telomere length (TL) has been reported to be important in myelodysplastic syndrome (MDS).A novel TeSLA method demonstrated the presence and abundance of extremely short telomeres (

Published

2022

11. Optimization of peripheral blood volume for in silico reconstitution of the human B‐cell receptor repertoire

Author

Hyunho Lee, Duck Kyun Yoo, Jerome Han, Ki Hyun Kim, Jinsung Noh, Yonghee Lee, Eunjae Lee, Sunghoon Kwon, and Junho Chung

Subjects

antibody, B cell, B cell receptor repertoire, BCR‐based diagnostics, next‐generation sequencing, peripheral blood, Biology (General), QH301-705.5

Abstract

B cells recognize antigens via membrane‐expressed B‐cell receptors (BCR) and antibodies. Similar human BCR sequences are frequently found at a significantly higher frequency than that theoretically calculated. Patients infected with SARS‐CoV2 and HIV or with autoimmune diseases share very similar BCRs. Therefore, in silico reconstitution of BCR repertoires and identification of stereotypical BCR sequences related to human pathology have diagnostic potential. Furthermore, monitoring changes of clinically significant BCR sequences and isotype conversion has prognostic potential. For BCR repertoire analysis, peripheral blood (PB) is the most convenient source. However, the optimal human PB volume for in silico reconstitution of the BCR repertoire has not been studied in detail. Here, we sampled 5, 10, and 20 mL PB from the left arm and 40 mL PB from the right arm of two volunteers, reconstituted in silico PB BCR repertoires, and compared their composition. In both volunteers, PB sampling over 20 mL resulted in slight increases in functional unique sequences (FUSs) or almost no increase in repertoire diversity. All FUSs with a frequency above 0.08% or 0.03% in the 40 mL PB BCR repertoire were detected even in the 5 mL PB BCR repertoire from each volunteer. FUSs with a higher frequency were more likely to be found in BCR repertoires from reduced PB volume, and those coexisting in two repertoires showed a statistically significant correlation in frequency irrespective of sampled anatomical site. The correlation was more significant in higher‐frequency FUSs. These observations support the potential of BCR repertoire analysis for diagnosis.

Published

2022

12. Spatial epitranscriptomics reveals A-to-I editome specific to cancer stem cell microniches

Author

Amos C. Lee, Yongju Lee, Ahyoun Choi, Han-Byoel Lee, Kyoungseob Shin, Hyunho Lee, Ji Young Kim, Han Suk Ryu, Hoe Suk Kim, Seung Yeon Ryu, Sangeun Lee, Jong-Ho Cheun, Duck Kyun Yoo, Sumin Lee, Hansol Choi, Taehoon Ryu, Huiran Yeom, Namphil Kim, Jinsung Noh, Yonghee Lee, Inyoung Kim, Sangwook Bae, Jinhyun Kim, Wooseok Lee, Okju Kim, Yushin Jung, Changhoe Kim, Seo Woo Song, Yeongjae Choi, Junho Chung, Byung Gee Kim, Wonshik Han, and Sunghoon Kwon

Subjects

Science

Abstract

The spatial context of epitranscriptomic features in the tumour microenvironment remains poorly understood. Here, a method for transcriptomic and epitranscriptomic analysis of immunofluorescence-stained tissue, Select-seq, is applied to stem cell-like microniches in triple negative breast cancer.

Published

2022

13. Photopatterned microswimmers with programmable motion without external stimuli

Author

Yeongjae Choi, Cheolheon Park, Amos C. Lee, Junghyun Bae, Hyeli Kim, Hansol Choi, Seo woo Song, Yunjin Jeong, Jaewon Choi, Howon Lee, Sunghoon Kwon, and Wook Park

Subjects

Science

Abstract

Maragoni microswimmers show the advantage of self-propulsion but their development is limited by fabrication techniques. Here, the authors use a photopatterning method which allows for a high throughput production of maragoni microswimmers with multiple functional parts and distinct materials properties.

Published

2021

14. MOPSS: Toward high‐fidelity oligonucleotides for clinical applications

Author

Hansol Choi, Sunghoon Kwon, Taehoon Ryu, and Yeongjae Choi

Subjects

Medicine (General), R5-920

Published

2022

15. Performance of the QPLEX™ Alz plus assay, a novel multiplex kit for screening cerebral amyloid deposition

Author

Jong-Chan Park, Keum Sim Jung, Jiyeong Kim, Ji Sung Jang, Sunghoon Kwon, Min Soo Byun, Dahyun Yi, Gihwan Byeon, Gijung Jung, Yu Kyeong Kim, Dong Young Lee, Sun-Ho Han, and Inhee Mook-Jung

Subjects

Alzheimer’s disease, Pittsburgh compound B, Cerebral amyloid deposition, Blood-based biomarker, QPLEX™ Alz plus assay, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Alzheimer’s disease (AD) is an irreversible neurodegenerative disease characterized by the hallmark finding of cerebral amyloid deposition. Many researchers have tried to predict the existence of cerebral amyloid deposition by using easily accessible blood plasma samples, but the effectiveness of such strategies remains controversial. Methods We developed a new multiplex kit, the QPLEX™ Alz plus assay kit, which uses proteomics-based blood biomarkers to prescreen for cerebral amyloid deposition. A total of 300 participants who underwent Pittsburgh compound B (PiB)-positron emission tomography (PET) which allows imaging of cerebral amyloid deposition were included in this study. We compared the levels of QPLEX™ biomarkers between patients who were classified as PiB-negative or PiB-positive, regardless of their cognitive function. Logistic regression analysis followed by receiver operating characteristic (ROC) curve analysis was performed. The kit accuracy was tested using a randomized sample selection method. Results The results obtained using our assay kit reached 89.1% area under curve (AUC) with 80.0% sensitivity and 83.0% specificity. Further validation of the QPLEX™ Alz plus assay kit using a randomized sample selection method showed an average accuracy of 81.5%. Conclusions Our QPLEX™ Alz plus assay kit provides preliminary evidence that it can be used as blood marker to predict cerebral amyloid deposition but independent validation is needed.

Published

2021

16. Gradient-Wrinkled Microparticle with Grayscale Lithography Controlling the Cross-Linking Densities for High Security Level Anti-Counterfeiting Strategies

Author

Cheolheon Park, Hyung Jong Bae, Jinsik Yoon, Seo Woo Song, Yunjin Jeong, Kibeom Kim, Sunghoon Kwon, and Wook Park

Subjects

Chemistry, QD1-999

Published

2021

17. Novel THPO variant in hereditary thrombocytopenia: A potential candidate variant for predisposition to myeloid neoplasm

Author

Seok Ryun Kwon, Man Jin Kim, Young-eun Lee, Jiwon Yun, Da-jeong Jeong, Jae Hyeon Park, Sunghoon Kwon, and Dong Soon Lee

Subjects

Medicine, Science

Abstract

Hereditary thrombocytopenia is a heterogeneous group of congenital disorders with a wide range of symptoms depending on the severity of platelet dysfunction or thrombocytopenia. Because of its clinical phenotypes and the bone marrow morphology associated with this condition, hereditary thrombocytopenia can be misdiagnosed as primary immune thrombocytopenia and myelodysplastic syndrome. Therefore, genetic evidence is necessary for the accurate diagnosis of hereditary thrombocytopenia. Refractory cytopenia of childhood is a subgroup of myelodysplastic syndrome that was added to the World Health Organization classification in 2008. To investigate the germline and somatic variants associated with refractory cytopenia of childhood, we performed targeted multigene sequencing in three patients with refractory cytopenia of childhood. Of the three patients, one progressed from megakaryocytic hypoplasia with thrombocytopenia, and targeted multigene sequencing revealed THPO variants in this patient and his sister. We propose that the monoallelic deletion of THPO is a potential candidate for germline predisposition to myeloid malignancy.

Published

2022

18. High information capacity DNA-based data storage with augmented encoding characters using degenerate bases

Author

Yeongjae Choi, Taehoon Ryu, Amos C. Lee, Hansol Choi, Hansaem Lee, Jaejun Park, Suk-Heung Song, Seojoo Kim, Hyeli Kim, Wook Park, and Sunghoon Kwon

Subjects

Medicine, Science

Abstract

Abstract DNA-based data storage has emerged as a promising method to satisfy the exponentially increasing demand for information storage. However, practical implementation of DNA-based data storage remains a challenge because of the high cost of data writing through DNA synthesis. Here, we propose the use of degenerate bases as encoding characters in addition to A, C, G, and T, which augments the amount of data that can be stored per length of DNA sequence designed (information capacity) and lowering the amount of DNA synthesis per storing unit data. Using the proposed method, we experimentally achieved an information capacity of 3.37 bits/character. The demonstrated information capacity is more than twice when compared to the highest information capacity previously achieved. The proposed method can be integrated with synthetic technologies in the future to reduce the cost of DNA-based data storage by 50%.

Published

2019

19. Nasopharyngeal Type-I Interferon for Immediately Available Prophylaxis Against Emerging Respiratory Viral Infections

Author

Amos C. Lee, Yunjin Jeong, Sumin Lee, Haewook Jang, Allen Zheng, Sunghoon Kwon, and John E. Repine

Subjects

prophylaxis, emerging respiratory viral infection, type-I interferon, nasopharyngeal, post-pandemic, coronavirus, Immunologic diseases. Allergy, RC581-607

Abstract

In addition to SARS-CoV-2 and its variants, emerging viruses that cause respiratory viral infections will continue to arise. Increasing evidence suggests a delayed, possibly suppressed, type 1 interferon (IFN-I) response occurs early during COVID-19 and other viral respiratory infections such as SARS and MERS. These observations prompt considering IFN-β as a prophylactic or early intervention for respiratory viral infections. A rationale for developing and testing intranasal interferon beta (IFN-β) as an immediately available intervention for new respiratory viral infections that will arise unexpectedly in the future is presented and supported by basic and clinical trial observations. IFN-β prophylaxis could limit the spread and consequences of an emerging respiratory viral infection in at-risk individuals while specific vaccines are being developed.

Published

2021

20. Barcode-free next-generation sequencing error validation for ultra-rare variant detection

Author

Huiran Yeom, Yonghee Lee, Taehoon Ryu, Jinsung Noh, Amos Chungwon Lee, Han-Byoel Lee, Eunji Kang, Seo Woo Song, and Sunghoon Kwon

Subjects

Science

Abstract

Next generation sequencing has difficulty in detecting rare-frequency variants due to high sequencing errors. Here the authors present a barcode-free error validation method that physically extracts erroneous reads to identify true variants.

Published

2019

21. PHLI-seq: constructing and visualizing cancer genomic maps in 3D by phenotype-based high-throughput laser-aided isolation and sequencing

Author

Sungsik Kim, Amos Chungwon Lee, Han-Byoel Lee, Jinhyun Kim, Yushin Jung, Han Suk Ryu, Yongju Lee, Sangwook Bae, Minju Lee, Kyungmin Lee, Ryong Nam Kim, Woong-Yang Park, Wonshik Han, and Sunghoon Kwon

Subjects

Tumor heterogeneity, Cell isolation, Spatially resolved sequencing, Single-cell sequencing, Breast cancer, Precision oncology, Biology (General), QH301-705.5, Genetics, QH426-470

Abstract

Abstract Spatial mapping of genomic data to tissue context in a high-throughput and high-resolution manner has been challenging due to technical limitations. Here, we describe PHLI-seq, a novel approach that enables high-throughput isolation and genome-wide sequence analysis of single cells or small numbers of cells to construct genomic maps within cancer tissue in relation to the images or phenotypes of the cells. By applying PHLI-seq, we reveal the heterogeneity of breast cancer tissues at a high resolution and map the genomic landscape of the cells to their corresponding spatial locations and phenotypes in the 3D tumor mass.

Published

2018

22. Clinical Evaluation of QMAC-dRAST for Direct and Rapid Antimicrobial Susceptibility Test with Gram-Positive Cocci from Positive Blood Culture Bottlesl

Author

Hyunjung Kim, Hyun Yong Jeong, Sangkwon Han, Shinhun Han, Jungil Choi, Bonghwan Jin, Taegeun Lim, Eun-Geun Kim, Dong Young Kim, Sang Hoon Song, Taek Soo Kim, and Sunghoon Kwon

Subjects

antimicrobial drug resistance, bacteremia bioengineering, microbial sensitivity test, Microbiology, QR1-502

Abstract

Background: Timely intervention in the treatment of bloodstream infection is important for prescription of appropriate antimicrobials. With prompt determination of the antimicrobial susceptibility of a causative agent,rapid antimicrobial susceptibility test (AST) can help select the appropriate antimicrobial therapy. This clinical study is for evaluation of the clinical performance of the QMAC-dRAST for rapid AST directly from positive blood culture (PBC)s with Gram-positive cocci.Methods:A total of 115 PBC samples with Grampositive organisms (76 Staphylococcus spp. and 39 Enterococcus spp.) were evaluated by the QMACdRAST system, and their pure culture isolates were evaluated by the MicroScan WalkAway (Beckman Coulter, USA) as the comparative AST system. Thirteen antimicrobial agents were included, and the agreement and discrepancy rates of the QMACdRAST system (Quantamatrix Inc., Republic of Korea) compared to the MicroScan WalkAway were calculated. To resolve discrepancies, the broth microdilution method was performed.Results: The QMAC-dRAST system exhibited a categorical agreement rate of 94.9% (1,126/1,187) and an essential agreement rate of 98.3% (1,167/1,187). The QMAC-dRAST system yielded very major (falsesusceptible) errors at 1.0% (5/485), major (false-resistant) errors at 1.3% (9/693), and minor errors at 4.0% (47/1,187) compared to the MicroScan WalkAway. The QMAC-dRAST system significantly eliminated 30 hours of total turnaround time by combination of direct inoculation of PBC and an image-based approach.Conclusion: The results of the QMAC-dRAST system were highly accurate. Thereby, the QMAC-dRAST may provide essential information to accelerate therapeutic decisions for earlier and adequate antibiotic treatment and patient management in clinical settings. (Ann Clin Microbiol 2018;21:12-19)

Published

2018

23. Network analysis for count data with excess zeros

Author

Hosik Choi, Jungsoo Gim, Sungho Won, You Jin Kim, Sunghoon Kwon, and Changyi Park

Subjects

Count data, EM algorithm, Network, Zero inflation, Genetics, QH426-470

Abstract

Abstract Background Undirected graphical models or Markov random fields have been a popular class of models for representing conditional dependence relationships between nodes. In particular, Markov networks help us to understand complex interactions between genes in biological processes of a cell. Local Poisson models seem to be promising in modeling positive as well as negative dependencies for count data. Furthermore, when zero counts are more frequent than are expected, excess zeros should be considered in the model. Methods We present a penalized Poisson graphical model for zero inflated count data and derive an expectation-maximization (EM) algorithm built on coordinate descent. Our method is shown to be effective through simulated and real data analysis. Results Results from the simulated data indicate that our method outperforms the local Poisson graphical model in the presence of excess zeros. In an application to a RNA sequencing data, we also investigate the gender effect by comparing the estimated networks according to different genders. Our method may help us in identifying biological pathways linked to sex hormone regulation and thus understanding underlying mechanisms of the gender differences. Conclusions We have presented a penalized version of zero inflated spatial Poisson regression and derive an efficient EM algorithm built on coordinate descent. We discuss possible improvements of our method as well as potential research directions associated with our findings from the RNA sequencing data.

Published

2017

24. Direct, rapid antimicrobial susceptibility test from positive blood cultures based on microscopic imaging analysis

Author

Jungil Choi, Hyun Yong Jeong, Gi Yoon Lee, Sangkwon Han, Shinhun Han, Bonghwan Jin, Taegeun Lim, Shin Kim, Dong Young Kim, Hee Chan Kim, Eui-Chong Kim, Sang Hoon Song, Taek Soo Kim, and Sunghoon Kwon

Subjects

Medicine, Science

Abstract

Abstract For the timely treatment of patients with infections in bloodstream and cerebrospinal fluid, a rapid antimicrobial susceptibility test (AST) is urgently needed. Here, we describe a direct and rapid antimicrobial susceptibility testing (dRAST) system, which can determine the antimicrobial susceptibility of bacteria from a positive blood culture bottle (PBCB) in six hours. The positive blood culture sample is directly mixed with agarose and inoculated into a micropatterned plastic microchip with lyophilized antibiotic agents. Using microscopic detection of bacterial colony formation in agarose, the total time to result from a PBCB for dRAST was only six hours for a wide range of bacterial concentrations in PBCBs. The results from the dRAST system were consistent with the results from a standard AST, broth microdilution test. In tests of clinical isolates (n = 206) composed of 16 Gram-negative species and seven Gram-positive species, the dRAST system was accurate compared to the standard broth microdilution test, with rates of 91.11% (2613/2868) categorical agreement, 6.69% (192/2868) minor error, 2.72% (50/1837) major error and 1.45% (13/896) very major error. Thus, the dRAST system can be used to rapidly identify appropriate antimicrobial agents for the treatment of blood stream infection (BSI) and antibiotic-resistant strain infections.

Published

2017

25. Clinical Validation of the QMAC-DST System for Testing the Drug Susceptibility of Mycobacterium tuberculosis to First- and Second-Line Drugs

Author

Sangyeop Lee, Daehyun Chu, Youn Mi Choi, EunJi Jo, Suyeoun Kim, Haeun Kim, Hyun Jung Kim, Jeonghyun Chang, Heungsup Sung, Geumrae Kang, Bonghwan Jin, Eun-Geun Kim, Sunghoon Kwon, and Mi-Na Kim

Subjects

Mycobacterium tuberculosis, drug susceptibility testing, Lowenstein-Jensen media, clinical validation, rifampin, Microbiology, QR1-502

Abstract

There is a high demand for novel approaches to counter the various challenges of conventional drug susceptibility testing (DST) for tuberculosis, the most prevalent infectious disease with significant global mortality. The QMAC-DST system was recently developed for rapid DST using image technology to track the growth of single cells of Mycobacterium tuberculosis (MTB). The purpose of this study was to clinically validate the QMAC-DST system compared to conventional DST. In total, 178 MTB isolates recovered from clinical specimens in Asan Medical Center in 2016 were tested by both QMAC-DST and absolute concentration methods using Lowenstein-Jensen media (LJ-DST). Among the isolates, 156 were subjected to DST using BACTEC MGIT 960 SIRE kits (BD, Sparks, MD, United States) (MGIT-DST). The susceptibility/resistance results obtained by QMAC-DST were read against 13 drugs after 7 days of incubation and compared with those of LJ-DST. Based on the gold standard LJ-DST, the agreement rates of QMAC-DST for all drugs were 97.8%, 97.9%, and 97.8% among susceptible, resistant, and total isolates, respectively, while the overall agreement of MGIT-DST tested for 156 isolates against first-line drugs was 95.5%. QMAC-DST showed the highest major error of 6.4% for rifampin, however, it could be corrected by a revised threshold of growth since false-resistant isolates showed grew only half than the true-resistant isolates. The rapid and accurate performance of QMAC-DST warrants ideal phenotypic DST for a wide range of first-line and second-line drugs.

Published

2019

26. Color-Coded Droplets and Microscopic Image Analysis for Multiplexed Antibiotic Susceptibility Testing

Author

Yunjin Jeong, Haewook Jang, Junwon Kang, Juhong Nam, Kyoungseob Shin, Sunghoon Kwon, and Jungil Choi

Subjects

droplet, color code, antibiotic resistance, image processing, multiplexed, Biotechnology, TP248.13-248.65

Abstract

Since the discovery of antibiotics, the emergence of antibiotic resistance has become a global issue that is threatening society. In the era of antibiotic resistance, finding the proper antibiotics through antibiotic susceptibility testing (AST) is crucial in clinical settings. However, the current clinical process of AST based on the broth microdilution test has limitations on scalability to expand the number of antibiotics that are tested with various concentrations. Here, we used color-coded droplets to expand the multiplexing of AST regarding the kind and concentration of antibiotics. Color type and density differentiate the kind of antibiotics and concentration, respectively. Microscopic images of a large view field contain numbers of droplets with different testing conditions. Image processing analysis detects each droplet, decodes color codes, and measures the bacterial growth in the droplet. Testing E. coli ATCC 25922 with ampicillin, gentamicin, and tetracycline shows that the system can provide a robust and scalable platform for multiplexed AST. Furthermore, the system can be applied to various drug testing systems, which require several different testing conditions.

Published

2021

27. A High-Throughput Single-Clone Phage Fluorescence Microwell Immunoassay and Laser-Driven Clonal Retrieval System

Author

Seohee Chang, Soohyun Kim, Jerome Han, Suji Ha, Hyunho Lee, Seo Woo Song, Daewon Lee, Sunghoon Kwon, Junho Chung, and Junhoi Kim

Subjects

phage display, single clone, microchip, Microbiology, QR1-502

Abstract

Phage display is one of the most frequently used platform technologies utilized to screen and select therapeutic antibodies, and has contributed to the development of more than 10 therapeutic antibodies used in the clinic. Despite advantages like efficiency and low cost, it has intrinsic technical limitations, such as the asymmetrical amplification of the library after each round of biopanning, which is regarded as a reason for it yielding a very limited number of antigen binders. In this study, we developed a high-throughput single-clonal screening system comprised of fluorescence immunoassays and a laser-driven clonal DNA retrieval system using microchip technology. Using this system, from a single-chain variable fragment (scFv) library displayed on phages with a complexity of 5.21 × 105 harboring random mutations at five amino acid residues, more than 70,000 clones—corresponding to ~14% of the library complexity—were screened, resulting in 78 antigen-reactive scFv sequences with mutations restricted to the randomized residues. Our results demonstrate that this system can significantly reduce the number of biopanning rounds, or even eliminate the need for this process for libraries with lower complexity, providing an opportunity to obtain more diverse clones from the library.

Published

2020

28. Microspinning: Local Surface Mixing via Rotation of Magnetic Microparticles for Efficient Small-Volume Bioassays

Author

Su Deok Kim, Seo Woo Song, Dong Yoon Oh, Amos Chungwon Lee, Jeong Woo Koo, Taehun Kang, Min Chang Kim, Changhee Lee, Yunjin Jeong, Hyun Yong Jeong, Daewon Lee, Seongkyu Cho, Sunghoon Kwon, and Jiyun Kim

Subjects

microparticle, micromixing, magnetic particle, magnetization patterning, suspension array, Mechanical engineering and machinery, TJ1-1570

Abstract

The need for high-throughput screening has led to the miniaturization of the reaction volume of the chamber in bioassays. As the reactor gets smaller, surface tension dominates the gravitational or inertial force, and mixing efficiency decreases in small-scale reactions. Because passive mixing by simple diffusion in tens of microliter-scale volumes takes a long time, active mixing is needed. Here, we report an efficient micromixing method using magnetically rotating microparticles with patterned magnetization induced by magnetic nanoparticle chains. Because the microparticles have magnetization patterning due to fabrication with magnetic nanoparticle chains, the microparticles can rotate along the external rotating magnetic field, causing micromixing. We validated the reaction efficiency by comparing this micromixing method with other mixing methods such as simple diffusion and the use of a rocking shaker at various working volumes. This method has the potential to be widely utilized in suspension assay technology as an efficient mixing strategy.

Published

2020

29. Idiopathic hypereosinophilia is clonal disorder? Clonality identified by targeted sequencing.

Author

Jee-Soo Lee, Heewon Seo, Kyongok Im, Si Nae Park, Sung-Min Kim, Eun Kyoung Lee, Jung-Ah Kim, Joon-Hee Lee, Sunghoon Kwon, Miyoung Kim, Insong Koh, Seungwoo Hwang, Heung-Woo Park, Hye-Ryun Kang, Kyoung Soo Park, Ju Han Kim, and Dong Soon Lee

Subjects

Medicine, Science

Abstract

Idiopathic hypereosinophilia (IHE)/idiopathic hypereosinophilic syndrome (IHES) has been defined by a persistent elevation of the blood eosinophil count exceeding 1.5×103/μL, without evidence of reactive or clonal causes. While T-cell clonality assessment has been recommended for unexplained hypereosinophilia, this approach is not often applied to routine practice in the clinic. We hypothesized that the clonality would exist in a subset of IHE/IHES patients. We aimed to investigate the candidate mutations and T-cell clonality in IHE/IHES and to explore the role of mutations in eosinophil proliferation. We performed targeted capture sequencing for 88 genes using next-generation sequencing, T-cell receptor (TCR) gene rearrangement assays, and pathway network analysis in relation to eosinophil proliferation. By targeted sequencing, 140 variants in 59 genes were identified. Sixteen out of 30 patients (53.3%) harbored at least one candidate mutation. The most frequently affected genes were NOTCH1 (26.7%), SCRIB and STAG2 (16.7%), and SH2B3 (13.3%). Network analysis revealed that our 21 candidate genes (BIRC3, BRD4, CSF3R, DNMT3A, EGR2, EZH2, FAT4, FLT3, GATA2, IKZF, JAK2, MAPK1, MPL, NF1, NOTCH1, PTEN, RB1, RUNX1, TET2, TP53 and WT1) are functionally linked to the eosinophilopoietic pathway. Among the 21 candidate genes, five genes (MAPK1, RUNX1, GATA2, NOTCH1 and TP53) with the highest number of linkages were considered major genes. A TCR assay revealed that four patients (13.3%) had a clonal TCR rearrangement. NOTCH1 was the most frequently mutated gene and was shown to be a common node for eosinophilopoiesis in our network analysis, while the possibility of hidden T cell malignancy was indwelling in the presence of NOTCH1 mutation, though not revealed by aberrant T cell study. Collectively, these results provide new evidence that mutations affecting eosinophilopoiesis underlie a subset of IHE/IHES, and the candidate genes are inferred to act their potential roles in the eosinophilopoietic pathway.

Published

2017

30. Biphasic electrical currents stimulation promotes both proliferation and differentiation of fetal neural stem cells.

Author

Keun-A Chang, Jin Won Kim, Jeong A Kim, Sung Eun Lee, Saeromi Kim, Won Hyuk Suh, Hye-Sun Kim, Sunghoon Kwon, Sung June Kim, and Yoo-Hun Suh

Subjects

Medicine, Science

Abstract

The use of non-chemical methods to differentiate stem cells has attracted researchers from multiple disciplines, including the engineering and the biomedical fields. No doubt, growth factor based methods are still the most dominant of achieving some level of proliferation and differentiation control--however, chemical based methods are still limited by the quality, source, and amount of the utilized reagents. Well-defined non-chemical methods to differentiate stem cells allow stem cell scientists to control stem cell biology by precisely administering the pre-defined parameters, whether they are structural cues, substrate stiffness, or in the form of current flow. We have developed a culture system that allows normal stem cell growth and the option of applying continuous and defined levels of electric current to alter the cell biology of growing cells. This biphasic current stimulator chip employing ITO electrodes generates both positive and negative currents in the same culture chamber without affecting surface chemistry. We found that biphasic electrical currents (BECs) significantly increased the proliferation of fetal neural stem cells (NSCs). Furthermore, BECs also promoted the differentiation of fetal NSCs into neuronal cells, as assessed using immunocytochemistry. Our results clearly show that BECs promote both the proliferation and neuronal differentiation of fetal NSCs. It may apply to the development of strategies that employ NSCs in the treatment of various neurodegenerative diseases, such as Alzheimer's and Parkinson's diseases.

Published

2011

31. Correction: Biphasic Electrical Currents Stimulation Promotes both Proliferation and Differentiation of Fetal Neural Stem Cells.

Author

Keun-A Chang, Jin Won Kim, Jeong a Kim, Sungeun Lee, Saeromi Kim, Won Hyuk Suh, Hye-Sun Kim, Sunghoon Kwon, Sung June Kim, and Yoo-Hun Suh

Subjects

Medicine, Science

Published

2011

32. GRIP: Graph Representation of Immune Repertoire Using Graph Neural Network and Transformer.

Author

Yongju Lee, Hyunho Lee, Kyoungseob Shin, and Sunghoon Kwon

Published

2023

33. Concave penalized linear discriminant analysis on high dimensions.

Author

Sunghoon Kwon, Hyebin Kim, Dongha Kim, and Sangin Lee

Subjects

FISHER discriminant analysis, LEAST squares

Abstract

The sparse linear discriminant analysis can be incorporated into the penalized linear regression framework, but most studies have been limited to specific convex penalties, including the least absolute selection and shrinkage operator and its variants. Within this framework, concave penalties can serve as natural counterparts of the convex penalties. Implementing the concave penalized direction vector of discrimination appears to be straightforward, but developing its theoretical properties remains challenging. In this paper, we explore a class of concave penalties that covers the smoothly clipped absolute deviation and minimax concave penalties as examples. We prove that employing concave penalties guarantees an oracle property uniformly within this penalty class, even for high-dimensional samples. Here, the oracle property implies that an ideal direction vector of discrimination can be exactly recovered through concave penalized least squares estimation. Numerical studies confirm that the theoretical results hold with finite samples. [ABSTRACT FROM AUTHOR]

Published

2024

34. A comparison of synthetic data approaches using utility and disclosure risk measures

Author

Seongbin An, Trang Doan, Juhee Lee, Jiwoo Kim, Yong Jae Kim, Yunji Kim, Changwon Yoon, Sungkyu Jung, Dongha Kim, Sunghoon Kwon, Hang J Kim, Jeongyoun Ahn, and Cheolwoo Park

Published

2023

35. A robust support vector machine for labeling errors.

Author

Hosik Choi, Yongdai Kim, Sunghoon Kwon, and Changyi Park

Published

2017

36. Homogeneity detection for the high-dimensional generalized linear model.

Author

Jong-June Jeon, Sunghoon Kwon, and Hosik Choi

Published

2017

37. New closed‐form efficient estimator for multivariate gamma distribution

Author

Yu‐Hyeong Jang, Jun Zhao, Hyoung‐Moon Kim, Kyusang Yu, Sunghoon Kwon, and SungHwan Kim

Subjects

Statistics and Probability, Statistics, Probability and Uncertainty

Published

2023

38. A New Algorithm and Theory for Penalized Regression-based Clustering.

Author

Chong Wu, Sunghoon Kwon, Xiaotong Shen, and Wei Pan

Published

2016

39. The use of random-effect models for high-dimensional variable selection problems.

Author

Sunghoon Kwon, Seungyoung Oh, and Youngjo Lee 0001

Published

2016

40. A modified local quadratic approximation algorithm for penalized optimization problems.

Author

Sangin Lee, Sunghoon Kwon, and Yongdai Kim

Published

2016

41. One-step assembly of barcoded planar microparticles for efficient readout of multiplexed immunoassay

Author

Sangwook Bae, Daewon Lee, Hunjong Na, Jisung Jang, and Sunghoon Kwon

Subjects

Immunoassay, Biomedical Engineering, Biological Assay, Bioengineering, General Chemistry, Biochemistry, Oligonucleotide Array Sequence Analysis

Abstract

Barcoded planar microparticles are suitable for developing cost-efficient multiplexed assays, but the robustness and efficiency of the readout process still needs improvement. Here, we designed a one-step microparticle assembling chip that produces efficient and accurate multiplex immunoassay readout results. Our design was also compatible with injection molding for mass production.

Published

2022

42. Application of QPLEXTM biomarkers in cognitively normal individuals across a broad age range and diverse regions with cerebral amyloid deposition

Author

Dongjoon Lee, Jong-Chan Park, Keum Sim Jung, Jiyeong Kim, Ji Sung Jang, Sunghoon Kwon, Min Soo Byun, Dahyun Yi, Gihwan Byeon, Gijung Jung, Yu Kyeong Kim, Dong Young Lee, Sun-Ho Han, and Inhee Mook-Jung

Subjects

Clinical Biochemistry, Molecular Medicine, Molecular Biology, Biochemistry

Abstract

The deposition of beta-amyloid (Aβ) in the brain precedes the onset of symptoms such as cognitive impairment in Alzheimer’s disease (AD); therefore, the early detection of Aβ accumulation is crucial. We previously reported the applicability of the QPLEXTM Alz plus assay kit for the prescreening of Aβ accumulation. Here, we tested the specific application of the kit in a large cohort of cognitively normal (CN) individuals of varying ages for the early detection of Aβ accumulation. We included a total of 221 CN participants with or without brain Aβ. The QPLEXTM biomarkers were characterized based on age groups (1st–3rd tertile) and across various brain regions with cerebral amyloid deposition. The 3rd tertile group (>65 years) was found to be the most suitable age group for the application of our assay kit. Receiver operating characteristic curve analysis showed that the area under the curve (AUC, discrimination power) was 0.878 with 69.7% sensitivity and 98.4% specificity in the 3rd tertile group. Additionally, specific correlations between biomarkers and cerebral amyloid deposition in four different brain regions revealed an overall correlation with general amyloid deposition, consistent with previous findings. Furthermore, the combinational panel with plasma Aβ1–42 levels maximized the discrimination efficiency and achieved an AUC of 0.921 with 95.7% sensitivity and 67.3% specificity. Thus, we suggest that the QPLEXTM Alz plus assay is useful for prescreening brain Aβ levels in CN individuals, especially those aged >65 years, to prevent disease progression via the early detection of disease initiation.

Published

2022

43. Telomere integrated scoring system of myelodysplastic syndrome

Author

Hee Sue Park, Kyongok Im, Dong‐Yeop Shin, Sung‐Soo Yoon, Sunghoon Kwon, Suhng Wook Kim, and Dong Soon Lee

Subjects

Microbiology (medical), Medical Laboratory Technology, Biochemistry (medical), Clinical Biochemistry, Public Health, Environmental and Occupational Health, Immunology and Allergy, Hematology

Published

2023

44. Moderately clipped LASSO.

Author

Sunghoon Kwon, Sangin Lee, and Yongdai Kim

Published

2015

45. A Unified Algorithm for the Non-Convex Penalized Estimation: The ncpen Package.

Author

Dongshin Kim 0003, Sangin Lee, and Sunghoon Kwon

Published

2020

46. Pen-drawn Marangoni swimmer

Author

Seo Woo Song, Sumin Lee, Jun Kyu Choe, Amos Lee, Kyungsub Shin, Junwon Kang, Gyeongjun Kim, Huiran Yeom, Yeongjae Choi, Sunghoon Kwon, and Jiyun Kim

Abstract

Pen-drawing is an intuitive, convenient, and creative fabrication method for delivering emergent and adaptive design to real devices. To demonstrate the application of pen-drawing to robot construction, we developed pen-drawn Marangoni swimmers that perform complex programmed tasks using a simple and accessible manufacturing process. By simply drawing on substrates using ink-based Marangoni fuel, the swimmers demonstrate advanced robotic motions such as square and star-shaped trajectories, and navigate through maze. The versatility of pen-drawing allows the integration of the swimmers with time-varying substrates, enabling multi-step motion tasks such as cargo delivery and return to the original place. We believe that our pen-based approach will significantly expand the potential applications of miniaturized swimming robots and provide new opportunities for simple robotic implementations.

Published

2022

47. Accurate Diagnosis of COVID-19 from Self-Collectable Biospecimens Using Synthetic Apolipoprotein H Peptide-Coated Nanoparticle Assay

Author

Junwon Kang, Haewook Jang, Tae Hyun Kim, Untack Cho, Hyeeun Bang, Jisung Jang, Wooseok Lee, Hyelyn Joo, Jinsung Noh, Gi Yoon Lee, Dong Hoon Shin, Chang Kyung Kang, Pyoeng Gyun Choe, Nam Joong Kim, Myoung-don Oh, Manki Song, Sunghoon Kwon, Francisco Veas, and Wan Beom Park

Subjects

COVID-19 Testing, SARS-CoV-2, beta 2-Glycoprotein I, Nasopharynx, Humans, COVID-19, Peptides, Analytical Chemistry, Specimen Handling

Abstract

A high-throughput, accurate screening is crucial for the prevention and control of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Current methods, which involve sampling from the nasopharyngeal (NP) area by medical staffs, constitute a fundamental bottleneck in expanding the testing capacity. To meet the scales required for population-level surveillance, self-collectable specimens can be used; however, its low viral load has hindered its clinical adoption. Here, we describe a magnetic nanoparticle functionalized with synthetic apolipoprotein H (ApoH) peptides to capture, concentrate, and purify viruses. The ApoH assay demonstrates a viral enrichment efficiency of >90% for both SARS-CoV-2 and its variants, leading to an order of magnitude improvement in analytical sensitivity. For validation, we apply the assay to a total of 84 clinical specimens including nasal, oral, and mouth gargles obtained from COVID-19 patients. As a result, a 100% positivity rate is achieved from the patient-collected nasal and gargle samples, which exceeds that of the traditional NP swab method. The simple 12 min pre-enrichment assay enabling the use of self-collectable samples will be a practical solution to overcome the overwhelming diagnostic capacity. Furthermore, the methodology can easily be built on various clinical protocols, allowing its broad applicability to various disease diagnoses.

Published

2022

48. Prospective evaluation of dRAST for selecting optimal targeted antibiotics in positive blood culture with Gram-positive organisms

Author

Jeong-Han Kim, Taek Soo Kim, Chang Kyung Kang, Sangkwon Han, Dong Young Kim, Sunghoon Kwon, Pyeong Gyun Choe, Nam Joong Kim, Wan Beom Park, and Myoung-don Oh

Abstract

Empirical antibiotic selection often fails to be optimal targeted in the era of increasingly common resistant organisms. We prospectively evaluated the usefulness or rapid AST for optimal antibiotic selection by infectious disease (ID) physicians in patients with bacteremia of Gram-positive organisms. QMAC-dRAST results led to optimal antibiotic treatment in 33 (89.2%) of the 37 cases receiving non-optimal targeted antibiotics. Optimal targeted treatments based on QMAC-dRAST results were possible in 133 (97.1%) of the 137 cases. In conclusion, the introduction of rapid phenotypic AST can help increase the selection of optimal targeted antibiotics during the early period of bacteremia.

Published

2022

49. I-LIFT (image-based laser-induced forward transfer) platform for manipulating encoded microparticles

Author

Sumin Lee, Wooseok Lee, Amos Chungwon Lee, Juhong Nam, JinYoung Lee, Hamin Kim, Yunjin Jeong, Huiran Yeom, Namphil Kim, Seo Woo Song, and Sunghoon Kwon

Subjects

Fluid Flow and Transfer Processes, Colloid and Surface Chemistry, Biomedical Engineering, General Materials Science, Condensed Matter Physics

Abstract

Encoded microparticles have great potential in small-volume multiplexed assays. It is important to link the micro-level assays to the macro-level by indexing and manipulating the microparticles to enhance their versatility. There are technologies to actively manipulate the encoded microparticles, but none is capable of directly manipulating the encoded microparticles with homogeneous physical properties. Here, we report the image-based laser-induced forward transfer system for active manipulation of the graphically encoded microparticles. By demonstrating the direct retrieval of the microparticles of interest, we show that this system has the potential to expand the usage of encoded microparticles.

Published

2022

50. Photopatterned microswimmers with programmable motion without external stimuli

Author

H.C. Kim, Hansol Choi, Junghyun Bae, Yunjin Jeong, Wook Park, Amos Chungwon Lee, Seo Woo Song, Howon Lee, Sunghoon Kwon, Cheolheon Park, Yeongjae Choi, and Jaewon Choi

Subjects

Multidisciplinary, Marangoni effect, Materials science, Science, General Physics and Astronomy, Nanotechnology, General Chemistry, General Biochemistry, Genetics and Molecular Biology, Article, Mechanical system, External energy, Design, synthesis and processing, Gels and hydrogels, Throughput (business), Microscale chemistry, Mechanical energy, Actuators

Abstract

We introduce highly programmable microscale swimmers driven by the Marangoni effect (Marangoni microswimmers) that can self-propel on the surface of water. Previous studies on Marangoni swimmers have shown the advantage of self-propulsion without external energy source or mechanical systems, by taking advantage of direct conversion from power source materials to mechanical energy. However, current developments on Marangoni microswimmers have limitations in their fabrication, thereby hindering their programmability and precise mass production. By introducing a photopatterning method, we generated Marangoni microswimmers with multiple functional parts with distinct material properties in high throughput. Furthermore, various motions such as time-dependent direction change and disassembly of swimmers without external stimuli are programmed into the Marangoni microswimmers., Maragoni microswimmers show the advantage of self-propulsion but their development is limited by fabrication techniques. Here, the authors use a photopatterning method which allows for a high throughput production of maragoni microswimmers with multiple functional parts and distinct materials properties.

Published

2021