From experimental to essential: The evolving role of augmented reality in neurosurgery (2012–2024)

•AR has transitioned from an experimental to routine clinical tool in specific neurosurgical contexts.•AR research is dominanted by high income countries, raising concerns about global equality in access and use.•Education and neuronavigation are key drivers of AR adoption, spanning multiple neurosu...

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Vydané v:Neuro-chirurgie Ročník 71; číslo 4; s. 101672
Hlavní autori: Di Cosmo, Leonardo, El Choueiri, Jad, Pellicanò, Francesca, Salman, Hamza, Colella, Filippo, Zaed, Ismail, Cannizzaro, Delia
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: France Elsevier Masson SAS 01.07.2025
Predmet:
Augmented Reality
Education
Humans
Neuronavigation
Neuronavigation - trends
Neurosurgery
Neurosurgery - methods
Neurosurgery - trends
Neurosurgical Procedures - methods
Neurosurgical Procedures - trends
Surgery
Training
Training
Neurosurgery
Education
Augmented reality
Neuronavigation
ISSN:0028-3770, 1773-0619, 1773-0619
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Abstract •AR has transitioned from an experimental to routine clinical tool in specific neurosurgical contexts.•AR research is dominanted by high income countries, raising concerns about global equality in access and use.•Education and neuronavigation are key drivers of AR adoption, spanning multiple neurosurgical subspecialties.•Future research should focus on workflow integration and reducing global barriers to facilitate AR’s implementation. Recent years have seen augmented reality (AR) transition from experimental to clinical practice. Advancements in hardware, software, and its integration with complementary technologies such as machine learning and robotics have improved its workflow and integration into the neurosurgical environment. This systematic review evaluates shifts in trends in AR adoption in neurosurgery from 2022 to 2024. A systematic review of PubMed was conducted following PRISMA guidelines. Studies published between January 2022 and December 2024 that had direct clinical or educational applications were included. Extracted data included the clinical context and geographical context from each study, and was analyzed with data from a previous systematic review from 2012 to 2021 to assess research evolution. A total of 275 new studies were identified, revealing a substantial increase in AR-related publications. Research trends have shifted towards more clinical embedded topics, particularly centered around neuronavigation (101), education (87), and spinal surgery (70), with the subspecialties exhibiting the most growth being spinal surgery, vascular surgery and neuro-oncology. Research output remained concentrated in high-income countries, led by the United states (53%), Switzerland (18.55%) and the UK (9.45%), reinforcing an expanding global disparity. Topic clustering analysis identified education as a central point of focus across subspecialties. As AR continues to become increasingly integrated within the neurosurgical workflow, future research should emphasize standardizing its clinical implementation and addressing global disparities in access and adoption.
AbstractList •AR has transitioned from an experimental to routine clinical tool in specific neurosurgical contexts.•AR research is dominanted by high income countries, raising concerns about global equality in access and use.•Education and neuronavigation are key drivers of AR adoption, spanning multiple neurosurgical subspecialties.•Future research should focus on workflow integration and reducing global barriers to facilitate AR’s implementation. Recent years have seen augmented reality (AR) transition from experimental to clinical practice. Advancements in hardware, software, and its integration with complementary technologies such as machine learning and robotics have improved its workflow and integration into the neurosurgical environment. This systematic review evaluates shifts in trends in AR adoption in neurosurgery from 2022 to 2024. A systematic review of PubMed was conducted following PRISMA guidelines. Studies published between January 2022 and December 2024 that had direct clinical or educational applications were included. Extracted data included the clinical context and geographical context from each study, and was analyzed with data from a previous systematic review from 2012 to 2021 to assess research evolution. A total of 275 new studies were identified, revealing a substantial increase in AR-related publications. Research trends have shifted towards more clinical embedded topics, particularly centered around neuronavigation (101), education (87), and spinal surgery (70), with the subspecialties exhibiting the most growth being spinal surgery, vascular surgery and neuro-oncology. Research output remained concentrated in high-income countries, led by the United states (53%), Switzerland (18.55%) and the UK (9.45%), reinforcing an expanding global disparity. Topic clustering analysis identified education as a central point of focus across subspecialties. As AR continues to become increasingly integrated within the neurosurgical workflow, future research should emphasize standardizing its clinical implementation and addressing global disparities in access and adoption.
Highlights•AR has transitioned from an experimental to routine clinical tool in specific neurosurgical contexts. •AR research is dominanted by high income countries, raising concerns about global equality in access and use. •Education and neuronavigation are key drivers of AR adoption, spanning multiple neurosurgical subspecialties. •Future research should focus on workflow integration and reducing global barriers to facilitate AR’s implementation.
Recent years have seen augmented reality (AR) transition from experimental to clinical practice. Advancements in hardware, software, and its integration with complementary technologies such as machine learning and robotics have improved its workflow and integration into the neurosurgical environment. This systematic review evaluates shifts in trends in AR adoption in neurosurgery from 2022 to 2024. A systematic review of PubMed was conducted following PRISMA guidelines. Studies published between January 2022 and December 2024 that had direct clinical or educational applications were included. Extracted data included the clinical context and geographical context from each study, and was analyzed with data from a previous systematic review from 2012 to 2021 to assess research evolution. A total of 275 new studies were identified, revealing a substantial increase in AR-related publications. Research trends have shifted towards more clinical embedded topics, particularly centered around neuronavigation (101), education (87), and spinal surgery (70), with the subspecialties exhibiting the most growth being spinal surgery, vascular surgery and neuro-oncology. Research output remained concentrated in high-income countries, led by the United states (53%), Switzerland (18.55%) and the UK (9.45%), reinforcing an expanding global disparity. Topic clustering analysis identified education as a central point of focus across subspecialties. As AR continues to become increasingly integrated within the neurosurgical workflow, future research should emphasize standardizing its clinical implementation and addressing global disparities in access and adoption.
Recent years have seen augmented reality (AR) transition from experimental to clinical practice. Advancements in hardware, software, and its integration with complementary technologies such as machine learning and robotics have improved its workflow and integration into the neurosurgical environment. This systematic review evaluates shifts in trends in AR adoption in neurosurgery from 2022 to 2024. A systematic review of PubMed was conducted following PRISMA guidelines. Studies published between January 2022 and December 2024 that had direct clinical or educational applications were included. Extracted data included the clinical context and geographical context from each study, and was analyzed with data from a previous systematic review from 2012 to 2021 to assess research evolution. A total of 275 new studies were identified, revealing a substantial increase in AR-related publications. Research trends have shifted towards more clinical embedded topics, particularly centered around neuronavigation (101), education (87), and spinal surgery (70), with the subspecialties exhibiting the most growth being spinal surgery, vascular surgery and neuro-oncology. Research output remained concentrated in high-income countries, led by the United states (53%), Switzerland (18.55%) and the UK (9.45%), reinforcing an expanding global disparity. Topic clustering analysis identified education as a central point of focus across subspecialties. As AR continues to become increasingly integrated within the neurosurgical workflow, future research should emphasize standardizing its clinical implementation and addressing global disparities in access and adoption.Recent years have seen augmented reality (AR) transition from experimental to clinical practice. Advancements in hardware, software, and its integration with complementary technologies such as machine learning and robotics have improved its workflow and integration into the neurosurgical environment. This systematic review evaluates shifts in trends in AR adoption in neurosurgery from 2022 to 2024. A systematic review of PubMed was conducted following PRISMA guidelines. Studies published between January 2022 and December 2024 that had direct clinical or educational applications were included. Extracted data included the clinical context and geographical context from each study, and was analyzed with data from a previous systematic review from 2012 to 2021 to assess research evolution. A total of 275 new studies were identified, revealing a substantial increase in AR-related publications. Research trends have shifted towards more clinical embedded topics, particularly centered around neuronavigation (101), education (87), and spinal surgery (70), with the subspecialties exhibiting the most growth being spinal surgery, vascular surgery and neuro-oncology. Research output remained concentrated in high-income countries, led by the United states (53%), Switzerland (18.55%) and the UK (9.45%), reinforcing an expanding global disparity. Topic clustering analysis identified education as a central point of focus across subspecialties. As AR continues to become increasingly integrated within the neurosurgical workflow, future research should emphasize standardizing its clinical implementation and addressing global disparities in access and adoption.
ArticleNumber 101672
Author Cannizzaro, Delia
Salman, Hamza
Pellicanò, Francesca
Zaed, Ismail
Di Cosmo, Leonardo
El Choueiri, Jad
Colella, Filippo
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  givenname: Delia
  surname: Cannizzaro
  fullname: Cannizzaro, Delia
  organization: Department of Neurosurgery, ASST Ovest Milano Legnano Hospital, Legnano (Milan), Italy
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crossref_primary_10_1016_j_wneu_2025_124204
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Keywords Training
Neurosurgery
Education
Augmented reality
Neuronavigation
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SecondaryResourceType review_article
Snippet •AR has transitioned from an experimental to routine clinical tool in specific neurosurgical contexts.•AR research is dominanted by high income countries,...
Highlights•AR has transitioned from an experimental to routine clinical tool in specific neurosurgical contexts. •AR research is dominanted by high income...
Recent years have seen augmented reality (AR) transition from experimental to clinical practice. Advancements in hardware, software, and its integration with...
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pubmed
crossref
elsevier
SourceType Aggregation Database
Index Database
Enrichment Source
Publisher
StartPage 101672
SubjectTerms Augmented Reality
Education
Humans
Neuronavigation
Neuronavigation - trends
Neurosurgery
Neurosurgery - methods
Neurosurgery - trends
Neurosurgical Procedures - methods
Neurosurgical Procedures - trends
Surgery
Training
Title From experimental to essential: The evolving role of augmented reality in neurosurgery (2012–2024)
URI https://www.clinicalkey.com/#!/content/1-s2.0-S0028377025000451
https://www.clinicalkey.es/playcontent/1-s2.0-S0028377025000451
https://dx.doi.org/10.1016/j.neuchi.2025.101672
https://www.ncbi.nlm.nih.gov/pubmed/40273502
https://www.proquest.com/docview/3194650415
Volume 71
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