Utilizing Protein–Peptide Hybrid Microarray for Time-Resolved Diagnosis and Prognosis of COVID-19

The COVID-19 pandemic has highlighted the urgent need for accurate, rapid, and cost-effective diagnostic methods to identify and track the disease. Traditional diagnostic methods, such as PCR and serological assays, have limitations in terms of sensitivity, specificity, and timeliness. To investigat...

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Published inMicroorganisms (Basel) Vol. 11; no. 10; p. 2436
Main Authors Zheng, Peiyan, Liao, Baolin, Yang, Jiao, Cheng, Hu, Cheng, Zhangkai J., Huang, Huimin, Luo, Wenting, Sun, Yiyue, Zhu, Qiang, Deng, Yi, Yang, Lan, Zhou, Yuxi, Wu, Wenya, Wu, Shanhui, Cai, Weiping, Li, Yueping, Mo, Xiaoneng, Tan, Xinghua, Li, Linghua, Ma, Hongwei, Sun, Baoqing
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 28.09.2023
MDPI
Subjects
Antibodies
Biomarkers
blood serum
cost effectiveness
COVID-19
COVID-19 infection
Diagnosis
disease progression
disease severity
Ethics
Hospitals
hybrids
Identification methods
Infections
Medical research
microarray technology
Pandemics
Patients
Peptides
Polypeptides
PPHM assay
Prognosis
Protein arrays
Protein microarrays
Proteins
Quarantine
receptor binding domain (RBD) probe
SARS-CoV-2
sero-IgG dynamic (IsD) events
serological assays
Serology
Severe acute respiratory syndrome coronavirus 2
Viral infections
Viruses
China
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Abstract The COVID-19 pandemic has highlighted the urgent need for accurate, rapid, and cost-effective diagnostic methods to identify and track the disease. Traditional diagnostic methods, such as PCR and serological assays, have limitations in terms of sensitivity, specificity, and timeliness. To investigate the potential of using protein–peptide hybrid microarray (PPHM) technology to track the dynamic changes of antibodies in the serum of COVID-19 patients and evaluate the prognosis of patients over time. A discovery cohort of 20 patients with COVID-19 was assembled, and PPHM technology was used to track the dynamic changes of antibodies in the serum of these patients. The results were analyzed to classify the patients into different disease severity groups, and to predict the disease progression and prognosis of the patients. PPHM technology was found to be highly effective in detecting the dynamic changes of antibodies in the serum of COVID-19 patients. Four polypeptide antibodies were found to be particularly useful for reflecting the actual status of the patient’s recovery process and for accurately predicting the disease progression and prognosis of the patients. The findings of this study emphasize the multi-dimensional space of peptides to analyze the high-volume signals in the serum samples of COVID-19 patients and monitor the prognosis of patients over time. PPHM technology has the potential to be a powerful tool for tracking the dynamic changes of antibodies in the serum of COVID-19 patients and for improving the diagnosis and prognosis of the disease.
AbstractList The COVID-19 pandemic has highlighted the urgent need for accurate, rapid, and cost-effective diagnostic methods to identify and track the disease. Traditional diagnostic methods, such as PCR and serological assays, have limitations in terms of sensitivity, specificity, and timeliness. To investigate the potential of using protein-peptide hybrid microarray (PPHM) technology to track the dynamic changes of antibodies in the serum of COVID-19 patients and evaluate the prognosis of patients over time. A discovery cohort of 20 patients with COVID-19 was assembled, and PPHM technology was used to track the dynamic changes of antibodies in the serum of these patients. The results were analyzed to classify the patients into different disease severity groups, and to predict the disease progression and prognosis of the patients. PPHM technology was found to be highly effective in detecting the dynamic changes of antibodies in the serum of COVID-19 patients. Four polypeptide antibodies were found to be particularly useful for reflecting the actual status of the patient's recovery process and for accurately predicting the disease progression and prognosis of the patients. The findings of this study emphasize the multi-dimensional space of peptides to analyze the high-volume signals in the serum samples of COVID-19 patients and monitor the prognosis of patients over time. PPHM technology has the potential to be a powerful tool for tracking the dynamic changes of antibodies in the serum of COVID-19 patients and for improving the diagnosis and prognosis of the disease.The COVID-19 pandemic has highlighted the urgent need for accurate, rapid, and cost-effective diagnostic methods to identify and track the disease. Traditional diagnostic methods, such as PCR and serological assays, have limitations in terms of sensitivity, specificity, and timeliness. To investigate the potential of using protein-peptide hybrid microarray (PPHM) technology to track the dynamic changes of antibodies in the serum of COVID-19 patients and evaluate the prognosis of patients over time. A discovery cohort of 20 patients with COVID-19 was assembled, and PPHM technology was used to track the dynamic changes of antibodies in the serum of these patients. The results were analyzed to classify the patients into different disease severity groups, and to predict the disease progression and prognosis of the patients. PPHM technology was found to be highly effective in detecting the dynamic changes of antibodies in the serum of COVID-19 patients. Four polypeptide antibodies were found to be particularly useful for reflecting the actual status of the patient's recovery process and for accurately predicting the disease progression and prognosis of the patients. The findings of this study emphasize the multi-dimensional space of peptides to analyze the high-volume signals in the serum samples of COVID-19 patients and monitor the prognosis of patients over time. PPHM technology has the potential to be a powerful tool for tracking the dynamic changes of antibodies in the serum of COVID-19 patients and for improving the diagnosis and prognosis of the disease.
The COVID-19 pandemic has highlighted the urgent need for accurate, rapid, and cost-effective diagnostic methods to identify and track the disease. Traditional diagnostic methods, such as PCR and serological assays, have limitations in terms of sensitivity, specificity, and timeliness. To investigate the potential of using protein–peptide hybrid microarray (PPHM) technology to track the dynamic changes of antibodies in the serum of COVID-19 patients and evaluate the prognosis of patients over time. A discovery cohort of 20 patients with COVID-19 was assembled, and PPHM technology was used to track the dynamic changes of antibodies in the serum of these patients. The results were analyzed to classify the patients into different disease severity groups, and to predict the disease progression and prognosis of the patients. PPHM technology was found to be highly effective in detecting the dynamic changes of antibodies in the serum of COVID-19 patients. Four polypeptide antibodies were found to be particularly useful for reflecting the actual status of the patient’s recovery process and for accurately predicting the disease progression and prognosis of the patients. The findings of this study emphasize the multi-dimensional space of peptides to analyze the high-volume signals in the serum samples of COVID-19 patients and monitor the prognosis of patients over time. PPHM technology has the potential to be a powerful tool for tracking the dynamic changes of antibodies in the serum of COVID-19 patients and for improving the diagnosis and prognosis of the disease.
Audience Academic
Author Deng, Yi
Wu, Wenya
Sun, Yiyue
Li, Yueping
Zhou, Yuxi
Sun, Baoqing
Luo, Wenting
Yang, Lan
Tan, Xinghua
Cai, Weiping
Liao, Baolin
Wu, Shanhui
Huang, Huimin
Mo, Xiaoneng
Yang, Jiao
Cheng, Zhangkai J.
Cheng, Hu
Zheng, Peiyan
Zhu, Qiang
Ma, Hongwei
Li, Linghua
AuthorAffiliation 1 Department of Clinical Laboratory, National Center for Respiratory Medicine, National Clinical Research Center for Respiratory Disease, State Key Laboratory of Respiratory Disease, Guangzhou Institute of Respiratory Health, The First Affiliated Hospital of Guangzhou Medical University, Guangzhou 510120, China; gdmcslxx@126.com (P.Z.); jasontable@gmail.com (Z.J.C.); huanghuimin311@126.com (H.H.); xveyin@163.com (W.L.); wushanhui2020@126.com (S.W.)
4 Nano Science and Technology Institute, University of Science and Technology of China, Suzhou 215123, China
2 Guangzhou Institute of Clinical Medicine of Infectious Diseases, Guangzhou Eighth People’s Hospital, Guangzhou Medical University, Guangzhou 510440, China; polinlbl@163.com (B.L.); gz8hcwp@126.com (W.C.); gz8hlypicu@126.com (Y.L.); moxiaoneng@126.com (X.M.); gz8htxh@126.com (X.T.); llheliza@126.com (L.L.)
3 Division of Nanobiomedicine, Suzhou Institute of Nano-Tech and Nano-Bionics, Chinese Academy of Sciences, Suzhou 215123, China; jy
AuthorAffiliation_xml – name: 2 Guangzhou Institute of Clinical Medicine of Infectious Diseases, Guangzhou Eighth People’s Hospital, Guangzhou Medical University, Guangzhou 510440, China; polinlbl@163.com (B.L.); gz8hcwp@126.com (W.C.); gz8hlypicu@126.com (Y.L.); moxiaoneng@126.com (X.M.); gz8htxh@126.com (X.T.); llheliza@126.com (L.L.)
– name: 1 Department of Clinical Laboratory, National Center for Respiratory Medicine, National Clinical Research Center for Respiratory Disease, State Key Laboratory of Respiratory Disease, Guangzhou Institute of Respiratory Health, The First Affiliated Hospital of Guangzhou Medical University, Guangzhou 510120, China; gdmcslxx@126.com (P.Z.); jasontable@gmail.com (Z.J.C.); huanghuimin311@126.com (H.H.); xveyin@163.com (W.L.); wushanhui2020@126.com (S.W.)
– name: 4 Nano Science and Technology Institute, University of Science and Technology of China, Suzhou 215123, China
– name: 3 Division of Nanobiomedicine, Suzhou Institute of Nano-Tech and Nano-Bionics, Chinese Academy of Sciences, Suzhou 215123, China; jyang2018@sinano.ac.cn (J.Y.); chh22@mail.ustc.edu.cn (H.C.); ustcsyy@163.com (Y.S.); wanx@mail.ustc.edu.cn (Y.D.); yanglbio@foxmail.com (L.Y.); zyx1997@mail.ustc.edu.cn (Y.Z.); wuwenya4925@163.com (W.W.)
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Snippet The COVID-19 pandemic has highlighted the urgent need for accurate, rapid, and cost-effective diagnostic methods to identify and track the disease. Traditional...
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SubjectTerms Antibodies
Biomarkers
blood serum
cost effectiveness
COVID-19
COVID-19 infection
Diagnosis
disease progression
disease severity
Ethics
Hospitals
hybrids
Identification methods
Infections
Medical research
microarray technology
Pandemics
Patients
Peptides
Polypeptides
PPHM assay
Prognosis
Protein arrays
Protein microarrays
Proteins
Quarantine
receptor binding domain (RBD) probe
SARS-CoV-2
sero-IgG dynamic (IsD) events
serological assays
Serology
Severe acute respiratory syndrome coronavirus 2
Viral infections
Viruses
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Title Utilizing Protein–Peptide Hybrid Microarray for Time-Resolved Diagnosis and Prognosis of COVID-19
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