Omics-Based Approaches in Stroke Research

  • 3,903

    Total downloads

  • 14k

    Total views and downloads

About this Research Topic

Submission closed

Background

Omics-based approaches have emerged as powerful tools in stroke research, revolutionizing our understanding of the underlying molecular mechanisms and potential therapeutic targets. These approaches encompass various disciplines such as genomics, transcriptomics, proteomics, metabolomics, radiomics, and epigenomics, enabling comprehensive analysis of biological and imaging markers and their interactions. Through genomics, researchers can identify genetic variants associated with stroke susceptibility, offering insights into individual risk factors and personalized medicine. Transcriptomics allows the investigation of gene expression patterns, highlighting key molecular pathways involved in stroke pathology and providing potential targets for intervention. Proteomics aids in the identification and quantification of proteins associated with stroke, aiding in the discovery of novel biomarkers and therapeutic targets. Metabolomics explores the metabolites involved in stroke pathophysiology, shedding light on metabolic alterations and potential therapeutic strategies. Radiomics involves the extraction and analysis of a multitude of quantitative features from medical imaging data, such as CT or MRI scans serving as potential imaging biomarkers, contributing to risk stratification and the identification of novel insights into stroke pathophysiology. Finally, epigenomics investigates modifications in gene expression without changing the DNA sequence, uncovering epigenetic mechanisms underlying stroke susceptibility and recovery. By integrating and analyzing data from these omics platforms, researchers can gain a comprehensive understanding of stroke pathogenesis, paving the way for the development of innovative diagnostic tools and effective therapeutic interventions.

Omics-based approaches in stroke research offer promising solutions to several long-standing challenges in the field. One of the primary problems is the complexity of stroke pathogenesis, involving multiple interconnected molecular pathways. Omics techniques can provide a holistic view of the molecular landscape, enabling the identification of key genetic variants, gene expression patterns, protein markers, and metabolic alterations associated with stroke. By integrating these omics data, researchers can unravel the intricate mechanisms underlying stroke development, progression, and recovery. Another challenge is the lack of reliable and specific biomarkers for stroke diagnosis and prognosis. Omics-based studies have led to the discovery of potential biomarkers that can aid in early detection, risk stratification, and monitoring of stroke patients. Additionally, the application of omics approaches in stroke research can help uncover novel therapeutic targets, facilitating the development of personalized treatment strategies and the repurposing of existing drugs for stroke management. Recent advances in technology, such as high-throughput sequencing, mass spectrometry, advanced neuroimaging, and bioinformatics, have greatly enhanced the capacity to generate and analyze large-scale omics data, enabling more comprehensive and accurate insights into stroke pathophysiology. Moreover, the integration of omics data with clinical and imaging data can provide a systems-level understanding of stroke, leading to more precise and effective interventions. Overall, by leveraging omics-based approaches, stroke research can address critical challenges, paving the way for improved diagnosis, treatment, and outcomes for stroke patients.

This research topic will focus on exploring the application of various omics disciplines, including genomics, transcriptomics, proteomics, metabolomics, radiomics, and epigenomics, in the study of stroke. The scope of this research topic encompasses a broad range of areas within stroke research where omics approaches can provide valuable insights. It includes investigating the molecular mechanisms underlying stroke pathogenesis, identifying genetic and epigenetic factors associated with stroke susceptibility, discovering biomarkers for stroke diagnosis, prognosis, and therapeutic response, exploring molecular pathways and networks involved in stroke development and recovery, and uncovering potential therapeutic targets for stroke management. Additionally, the scope may involve integrating multi-omics data to gain a comprehensive understanding of stroke at a systems level, as well as discussing recent advancements in omics technologies and methodologies that enhance our ability to study stroke. The research topic encourages interdisciplinary collaboration, translational applications, and the exploration of innovative approaches that leverage omics data to advance our knowledge of stroke and improve patient outcomes.

Some specific themes to be addressed within this research topic include: Genomics and stroke, transcriptomics and stroke, proteomics and stroke, metabolomics and stroke, radiomics and stroke, epigenomics and stroke, and integration of multi-omics data.

Types of manuscripts interested in: Original research, observational studies, systematic reviews and meta-analyses, and narrative reviews.

Research Topic Research topic image

Keywords: Stroke, Hemorrhagic Stroke, Ischemic Stroke, Biomarkers, Proteomics, Genomics, Transcriptomics, Metabolomics, Lipidomics

Important note: All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.

Frequently asked questions

  • Frontiers' Research Topics are collaborative hubs built around an emerging theme.Defined, managed, and led by renowned researchers, they bring communities together around a shared area of interest to stimulate collaboration and innovation.

    Unlike section journals, which serve established specialty communities, Research Topics are pioneer hubs, responding to the evolving scientific landscape and catering to new communities.

  • The goal of Frontiers' publishing program is to empower research communities to actively steer the course of scientific publishing. Our program was implemented as a three-part unit with fixed field journals, flexible specialty sections, and dynamically emerging Research Topics, connecting communities of different sizes and maturity.

    Research Topics originate from the scientific community. Many of our Research Topics are suggested by existing editorial board members who have identified critical challenges or areas of interest in their field.

  • As an editor, Research Topics will help you build your journal, as well as your community, around emerging, cutting-edge research. As research trailblazers, Research Topics attract high-quality submissions from leading experts all over the world.

    A thriving Research Topic can potentially evolve into a new specialty section if there is sustained interest and a growing community around it.

  • Each Research Topic must be approved by the specialty chief editor, and it falls under the editorial oversight of our editorial boards, supported by our in-house research integrity team. The same standards and rigorous peer review processes apply to articles published as part of a Research Topic as for any other article we publish.

    In 2023, 80% of the Research Topics we published were edited or co-edited by our editorial board members, who are already familiar with their journal's scope, ethos, and publishing model. All other topics are guest edited by leaders in their field, each vetted and formally approved by the specialty chief editor.

  • Publishing your article within a Research Topic with other related articles increases its discoverability and visibility, which can lead to more views, downloads, and citations. Research Topics grow dynamically as more published articles are added, causing frequent revisiting, and further visibility.

    As Research Topics are multidisciplinary, they are cross-listed in several fields and section journals – increasing your reach even more and giving you the chance to expand your network and collaborate with researchers in different fields, all focusing on expanding knowledge around the same important topic.

    Our larger Research Topics are also converted into ebooks and receive social media promotion from our digital marketing team.

  • Frontiers offers multiple article types, but it will depend on the field and section journals in which the Research Topic will be featured. The available article types for a Research Topic will appear in the drop-down menu during the submission process.

    Check available article types here 

  • Yes, we would love to hear your ideas for a topic. Most of our Research Topics are community-led and suggested by researchers in the field. Our in-house editorial team will contact you to talk about your idea and whether you’d like to edit the topic. If you’re an early-stage researcher, we will offer you the opportunity to coordinate your topic, with the support of a senior researcher as the topic editor. 

    Suggest your topic here 

  • A team of guest editors (called topic editors) lead their Research Topic. This editorial team oversees the entire process, from the initial topic proposal to calls for participation, the peer review, and final publications.

    The team may also include topic coordinators, who help the topic editors send calls for participation, liaise with topic editors on abstracts, and support contributing authors. In some cases, they can also be assigned as reviewers.

  • As a topic editor (TE), you will take the lead on all editorial decisions for the Research Topic, starting with defining its scope. This allows you to curate research around a topic that interests you, bring together different perspectives from leading researchers across different fields and shape the future of your field. 

    You will choose your team of co-editors, curate a list of potential authors, send calls for participation and oversee the peer review process, accepting or recommending rejection for each manuscript submitted.

  • As a topic editor, you're supported at every stage by our in-house team. You will be assigned a single point of contact to help you on both editorial and technical matters. Your topic is managed through our user-friendly online platform, and the peer review process is supported by our industry-first AI review assistant (AIRA).

  • If you’re an early-stage researcher, we will offer you the opportunity to coordinate your topic, with the support of a senior researcher as the topic editor. This provides you with valuable editorial experience, improving your ability to critically evaluate research articles and enhancing your understanding of the quality standards and requirements for scientific publishing, as well as the opportunity to discover new research in your field, and expand your professional network.

  • Yes, certificates can be issued on request. We are happy to provide a certificate for your contribution to editing a successful Research Topic.

  • Research Topics thrive on collaboration and their multi-disciplinary approach around emerging, cutting-edge themes, attract leading researchers from all over the world.

  • As a topic editor, you can set the timeline for your Research Topic, and we will work with you at your pace. Typically, Research Topics are online and open for submissions within a few weeks and remain open for participation for 6 – 12 months. Individual articles within a Research Topic are published as soon as they are ready.

    Find out more about our Research Topics

  • Our fee support program ensures that all articles that pass peer review, including those published in Research Topics, can benefit from open access – regardless of the author's field or funding situation.

    Authors and institutions with insufficient funding can apply for a discount on their publishing fees. A fee support application form is available on our website.

  • In line with our mission to promote healthy lives on a healthy planet, we do not provide printed materials. All our articles and ebooks are available under a CC-BY license, so you can share and print copies.

Impact

  • 14kTopic views
  • 9,167Article views
  • 3,903Article downloads
View impact