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The treatment and prevention of rheumatic diseases through a precision medicine approach that takes into account individual variability in genes, environment, and lifestyle has not yet become a reality in clinical practice, but researchers in the field hope to demonstrate its potential at a course before and a session during the annual meeting of the American College of Rheumatology in San Diego.
In a 2-day premeeting course that begins on Friday, Nov. 3, a multidisciplinary faculty will discuss the technologies involved in precision medicine research; the complexities and challenges of identifying optimal drug treatments for rheumatic diseases; past, ongoing, and future research initiatives in precision medicine affecting rheumatic diseases; and how large data-set analysis and collaborative networks of researchers can shape its future.
Later, during the meeting on the afternoon of Monday, Nov. 6, an ACR session will look at how precision medicine research in patients with systemic lupus erythematosus (SLE) has laid groundwork to improve clinical trial design and the implementation of more tailored treatment for SLE and other complex autoimmune diseases.
The first day of the 2-day premeeting course will cover current approaches to studying familial and pediatric rheumatic diseases as well as an outline of how precision medicine could affect treatment approaches to SLE. Later in the day, presentations will focus on examples of personalized medicine approaches that have been derived from studies of cancer genomics and familial syndromes and the genetic underpinning of different responses to medications. The impact of direct-to-consumer genetic testing will also be discussed. Abstract presentations at the end of the day will focus on new genetic biomarkers that differentiate active disease from remission in granulomatosis with polyangiitis and mutations related to cancer-associated myositis.
The second day of the course on Saturday, Nov. 4, will focus on the technology behind precision medicine, followed by data analysis and integration into clinical practice. Technology presentations aim to demonstrate how transcriptional analysis of single immune cells and epigenetics in small numbers of cells can provide information about disease activity and prognosis. Examples of how multiple types of data can be integrated to form a picture of the pathogenesis of diseases such as rheumatoid arthritis will be discussed. Two abstract presentations will serve to show how analysis of tissue-specific serum biomarkers can identify rheumatoid arthritis patients with structural progression and how the presence of a specific antibody can predict better response to anti–tumor necrosis factor treatment and better disease control over time. In the afternoon, sessions will focus on analyzing single-cell data in key cell subpopulations in rheumatic disease and specifically address immune cell interactions across systems in SLE.
On Monday at 1:00 p.m., Maria Virginia Pascual, PhD, director of the Drukier Institute for Children’s Health and the Ronay A. Menschel Professor of Pediatrics at Cornell University in New York will speak in the ACR session, “Precision Medicine for Rheumatic Disease: Closer Than You Think?” Dr. Pascual will provide an overview of her lab’s recent work in transcriptional profiling of pediatric SLE patients, which demonstrates the potential value of immunomonitoring in order to stratify patients into discrete molecular groups to make clinical trial design better and offer more targeted therapies.
The treatment and prevention of rheumatic diseases through a precision medicine approach that takes into account individual variability in genes, environment, and lifestyle has not yet become a reality in clinical practice, but researchers in the field hope to demonstrate its potential at a course before and a session during the annual meeting of the American College of Rheumatology in San Diego.
In a 2-day premeeting course that begins on Friday, Nov. 3, a multidisciplinary faculty will discuss the technologies involved in precision medicine research; the complexities and challenges of identifying optimal drug treatments for rheumatic diseases; past, ongoing, and future research initiatives in precision medicine affecting rheumatic diseases; and how large data-set analysis and collaborative networks of researchers can shape its future.
Later, during the meeting on the afternoon of Monday, Nov. 6, an ACR session will look at how precision medicine research in patients with systemic lupus erythematosus (SLE) has laid groundwork to improve clinical trial design and the implementation of more tailored treatment for SLE and other complex autoimmune diseases.
The first day of the 2-day premeeting course will cover current approaches to studying familial and pediatric rheumatic diseases as well as an outline of how precision medicine could affect treatment approaches to SLE. Later in the day, presentations will focus on examples of personalized medicine approaches that have been derived from studies of cancer genomics and familial syndromes and the genetic underpinning of different responses to medications. The impact of direct-to-consumer genetic testing will also be discussed. Abstract presentations at the end of the day will focus on new genetic biomarkers that differentiate active disease from remission in granulomatosis with polyangiitis and mutations related to cancer-associated myositis.
The second day of the course on Saturday, Nov. 4, will focus on the technology behind precision medicine, followed by data analysis and integration into clinical practice. Technology presentations aim to demonstrate how transcriptional analysis of single immune cells and epigenetics in small numbers of cells can provide information about disease activity and prognosis. Examples of how multiple types of data can be integrated to form a picture of the pathogenesis of diseases such as rheumatoid arthritis will be discussed. Two abstract presentations will serve to show how analysis of tissue-specific serum biomarkers can identify rheumatoid arthritis patients with structural progression and how the presence of a specific antibody can predict better response to anti–tumor necrosis factor treatment and better disease control over time. In the afternoon, sessions will focus on analyzing single-cell data in key cell subpopulations in rheumatic disease and specifically address immune cell interactions across systems in SLE.
On Monday at 1:00 p.m., Maria Virginia Pascual, PhD, director of the Drukier Institute for Children’s Health and the Ronay A. Menschel Professor of Pediatrics at Cornell University in New York will speak in the ACR session, “Precision Medicine for Rheumatic Disease: Closer Than You Think?” Dr. Pascual will provide an overview of her lab’s recent work in transcriptional profiling of pediatric SLE patients, which demonstrates the potential value of immunomonitoring in order to stratify patients into discrete molecular groups to make clinical trial design better and offer more targeted therapies.
The treatment and prevention of rheumatic diseases through a precision medicine approach that takes into account individual variability in genes, environment, and lifestyle has not yet become a reality in clinical practice, but researchers in the field hope to demonstrate its potential at a course before and a session during the annual meeting of the American College of Rheumatology in San Diego.
In a 2-day premeeting course that begins on Friday, Nov. 3, a multidisciplinary faculty will discuss the technologies involved in precision medicine research; the complexities and challenges of identifying optimal drug treatments for rheumatic diseases; past, ongoing, and future research initiatives in precision medicine affecting rheumatic diseases; and how large data-set analysis and collaborative networks of researchers can shape its future.
Later, during the meeting on the afternoon of Monday, Nov. 6, an ACR session will look at how precision medicine research in patients with systemic lupus erythematosus (SLE) has laid groundwork to improve clinical trial design and the implementation of more tailored treatment for SLE and other complex autoimmune diseases.
The first day of the 2-day premeeting course will cover current approaches to studying familial and pediatric rheumatic diseases as well as an outline of how precision medicine could affect treatment approaches to SLE. Later in the day, presentations will focus on examples of personalized medicine approaches that have been derived from studies of cancer genomics and familial syndromes and the genetic underpinning of different responses to medications. The impact of direct-to-consumer genetic testing will also be discussed. Abstract presentations at the end of the day will focus on new genetic biomarkers that differentiate active disease from remission in granulomatosis with polyangiitis and mutations related to cancer-associated myositis.
The second day of the course on Saturday, Nov. 4, will focus on the technology behind precision medicine, followed by data analysis and integration into clinical practice. Technology presentations aim to demonstrate how transcriptional analysis of single immune cells and epigenetics in small numbers of cells can provide information about disease activity and prognosis. Examples of how multiple types of data can be integrated to form a picture of the pathogenesis of diseases such as rheumatoid arthritis will be discussed. Two abstract presentations will serve to show how analysis of tissue-specific serum biomarkers can identify rheumatoid arthritis patients with structural progression and how the presence of a specific antibody can predict better response to anti–tumor necrosis factor treatment and better disease control over time. In the afternoon, sessions will focus on analyzing single-cell data in key cell subpopulations in rheumatic disease and specifically address immune cell interactions across systems in SLE.
On Monday at 1:00 p.m., Maria Virginia Pascual, PhD, director of the Drukier Institute for Children’s Health and the Ronay A. Menschel Professor of Pediatrics at Cornell University in New York will speak in the ACR session, “Precision Medicine for Rheumatic Disease: Closer Than You Think?” Dr. Pascual will provide an overview of her lab’s recent work in transcriptional profiling of pediatric SLE patients, which demonstrates the potential value of immunomonitoring in order to stratify patients into discrete molecular groups to make clinical trial design better and offer more targeted therapies.
FROM ACR 2017