Current and future genomic applications for surgeons

Genomics is a crucial part of managing surgical disease. This review focuses on some of the genomic advances that are available now and looks to the future of their application in surgical practice. Whole-genome sequencing enables unbiased coverage across the entire human genome of approximately thr...

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Veröffentlicht in:	Annals of the Royal College of Surgeons of England 2024-04, Vol.106 (4), p.321-328
Hauptverfasser:	Alkhatib, O, Miles, T, Jones, R P, Mair, R, Palmer, R, Winter, H, McDermott, F D
Format:	Artikel
Sprache:	eng
Schlagworte:	Adjuvants Adolescent Antigens Blood cancer Cancer surgery Cancer therapies Cancer Vaccines Chemotherapy Child Cholangiocarcinoma Circulating Tumor DNA - genetics Colorectal cancer Genomics Humans Immune system Immunotherapy Lung cancer Lymphocytes mRNA vaccines Mutation Neoplasms Pancreatic cancer Patients Review Surgeons Tumors
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container_title	Annals of the Royal College of Surgeons of England
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creator	Alkhatib, O Miles, T Jones, R P Mair, R Palmer, R Winter, H McDermott, F D
description	Genomics is a crucial part of managing surgical disease. This review focuses on some of the genomic advances that are available now and looks to the future of their application in surgical practice. Whole-genome sequencing enables unbiased coverage across the entire human genome of approximately three billion base pairs. Newer technologies, such as those that permit long-read sequence analysis, provide additional information in longer phased fragment and base pair epigenomic (methylomic) data. Whole-genome sequencing is currently available in England for cancers in children, teenagers and young adults, central nervous system tumours, sarcoma and haematological malignancies. Circulating tumour DNA (ctDNA), immunotherapy and pharmacogenomics have emerged as groundbreaking approaches in the field of cancer treatment. These are now revolutionising the way oncologists and surgeons approach curative cancer surgery. Cancer vaccines offer an innovative approach to reducing recurrence after surgery by priming the immune system to trigger an immune response. The Cancer Vaccine Launch Pad project facilitates cancer vaccine studies in England. The BNT122-01 trial is recruiting patients with ctDNA-positive high-risk colorectal cancer after surgery to assess the impact of cancer vaccines. The evolving landscape of cancer treatment demands a dynamic and integrated approach from the surgical multidisciplinary team. Immunotherapy, ctDNA, pharmacogenomics, vaccines, mainstreaming and whole-genome sequencing are just some of the innovations that have the potential to redefine the standards of care. The continued exploration of these innovative diagnostics and therapies, the genomic pathway evolution and their application in diverse cancer types highlights the transformative impact of precision medicine in surgery.
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subjects	Adjuvants Adolescent Antigens Blood cancer Cancer surgery Cancer therapies Cancer Vaccines Chemotherapy Child Cholangiocarcinoma Circulating Tumor DNA - genetics Colorectal cancer Genomics Humans Immune system Immunotherapy Lung cancer Lymphocytes mRNA vaccines Mutation Neoplasms Pancreatic cancer Patients Review Surgeons Tumors
title	Current and future genomic applications for surgeons
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