Genomic medicine and risk prediction across the disease spectrum

Kotze, Maritha J.; Luckhoff, Hilmar; Peeters, Armand V.; Baatjes, Karin; Schoeman, Mardelle; Merwe, Lize van der; Grant, Kathleen A.; Fisher, Leslie R.; Merwe, Nicole van der; Pretorius, Jacobus; Velden, David P van; Myburgh, Ettienne J.; Pienaar, Fredrieka M.; Rensburg, Susan J. van; Yako, Yandiswa Y; September, Alison V.; Moremi, Kelebogile E; Cronjé, Frans J.; Tiffin, Nicki; Bouwens, Christianne S.H.; Bezuidenhout, J; Apffelstaedt, Justus; Hough, F. S.; Erasmus, Rajiv T; Schneider, Johann

doi:10.3109/10408363.2014.997930

Cited by 30 publications

(25 citation statements)

References 108 publications

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“…Towards this goal, a pathology-supported genetic testing approach could prove useful in developing standardized pre-screen diagnostic algorithms to select non-responders to standard therapies and genetically uncharacterized NAFLD patients set to derive additional benefit from extended whole genome or exome sequencing [191,192] . Next-generation sequencing could be used to validate common susceptibility variants implicated in the etiopathogenesis of NAFLD, thereby supporting the development and validation of a genomics-based screening panel to provide greater insight into the value of personalized medicine applications [193,194] .…”

Section: Resultsmentioning

confidence: 99%

Composite prognostic models across the non-alcoholic fatty liver disease spectrum: Clinical application in developing countries

Luckhoff

Kruger

Kotze

2015

WJH

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Heterogeneity in clinical presentation, histological severity, prognosis and therapeutic outcomes charac teristic of nonalcoholic fatty liver disease (NAFLD) necessitates the development of scientifically sound classification schemes to assist clinicians in stratifying patients into meaningful prognostic subgroups. The need for replacement of invasive liver biopsies as the standard method whereby NAFLD is diagnosed, graded and staged with biomarkers of histological severity injury led to the development of composite prognostic models as potentially viable surrogate alternatives. In the present article, we review existing scoring systems used to (1) confirm the presence of undiagnosed hepatosteatosis; (2) distinguish between simple steatosis and NASH; and (3) predict advanced hepatic fibrosis, with particular emphasis on the role of NAFLD as an independent cardiometabolic risk factor. In addition, the incorporation of functional genomic markers and application of emerging imaging technologies are discussed as a means to improve the diagnostic accuracy and predictive performance of promising composite models found to be most appropriate for widespread clinical adoption. Composite prognostic models across the non-alcoholic fatty liver disease spectrum: Clinical application in developing countries have entered the clinical domain as potentially viable alternatives. Lifestylebased intervention remains the cornerstone of treatment in patients with NAFLD. The widespread clinical adoption of composite diagnostic and predictive models could however prove useful in informing clinical and therapeutic decision making with the goal of adding value to patient care across the NAFLD spectrum.Lückhoff HK, Kruger FC, Kotze MJ. Composite prognostic models across the non-alcoholic fatty liver disease spectrum:

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Section: Resultsmentioning

confidence: 99%

Composite prognostic models across the non-alcoholic fatty liver disease spectrum: Clinical application in developing countries

Luckhoff

Kruger

Kotze

2015

WJH

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“…Each of these genes will have different links to cancer, thus increasing the complexity of the results that emerge. In addition to using genomic technology to understand the genetic basis of an existing condition such as breast cancer, it can also be used to uncover a new diagnosis for a previously undescribed rare condition 6 . Again, here the key change is the volume of information that will be generated.…”

Section: Introductionmentioning

confidence: 99%

“…Whilst it is unrealistic to suggest that all 20,000 genes will be analysed and reported as a whole 7 , the resource is at least available to be interrogated as and when required. Genomic medicine is now available across whole healthcare systems, it has been truly ‘mainstreamed’ 6, 8 . Thus, patients have more exposure than ever before to the volume and complexity of genetic information.…”

Section: Introductionmentioning

confidence: 99%

Genetics in the 21st Century: Implications for patients, consumers and citizens

Roberts

Middleton

2017

F1000Res

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The first human genome project, completed in 2003, uncovered the genetic building blocks of humankind. Painstakingly cataloguing the basic constituents of our DNA (‘genome sequencing’) took ten years, over three billion dollars and was a multinational collaboration. Since then, our ability to sequence genomes has been finessed so much that by 2017 it is possible to explore the 20,000 or so human genes for under £1000, in a matter of days. Such testing offers clues to our past, present and future health, as well as information about how we respond to medications so that truly ‘personalised medicine’ is now a reality. The impact of such a ‘genomic era’ is likely to have some level of impact on all of us, even if we are not directly using healthcare services ourselves. We explore how advancements in genetics are likely to be experienced by people, as patients, consumers and citizens; and urge policy makers to take stock of the pervasive nature of the technology as well as the human response to it.

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“…Since genomic medicine assumes disease susceptibility, severity or response to treatment is associated with genetic variation, gene expression or epigenetics, genetic testing is essential for multiple diseases, including single gene disorders with a Mendelian inheritance pattern as well as complex multifactorial diseases [15]. Scientists should partner with pharmaceutical companies for translational medicine and need to solicit commitment from their governments to establish facilities for enabling translational research and routine genetic testing and interpretation.…”

Section: Translating Researchmentioning

confidence: 99%

Development to Enable Precision Medicine in Africa

Mulder

2017

Per. Med.

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Genomic medicine and risk prediction across the disease spectrum

Cited by 30 publications

References 108 publications

Composite prognostic models across the non-alcoholic fatty liver disease spectrum: Clinical application in developing countries

Composite prognostic models across the non-alcoholic fatty liver disease spectrum: Clinical application in developing countries

Genetics in the 21st Century: Implications for patients, consumers and citizens

Development to Enable Precision Medicine in Africa

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