Jacquelyn Taylor, PhD, PNP-BC, RN, FAHA, FAAN, has spent her career working hard, and as a result, she’s been a standout.
But she recently received an outstanding honor when she was elected to the National Academy of Medicine (NAM)—and she’s only one of two nurses selected this year.
“It is a tremendous honor to be selected as a member of NAM,” says Taylor. “Membership in NAM is one of the highest honors you can achieve in science and medicine.”
In order to be elected to NAM, Taylor explains that you must be nominated by a current member, as nominees are not involved in the nomination process. When you are elected to NAM, it means that you have been elected by a group of experts who see you as a premiere expert in your particular field.
According to a statement from NYU Rory Meyers College of Nursing, Taylor has been recognized for her “bench-to-community research in gene-environment interaction studies on blood pressure among African-Americans that has provided novel contributions on SDoH and omic underpinnings of hypertension.”
“These newly elected members represent the most exceptional scholars and leaders whose remarkable work had advanced science, medicine, and health in the U.S. and around the globe,” NAM President Victor J. Dzau said in a statement. “Their expertise will be vital to addressing today’s most pressing health and scientific challenges and informing the future of health and medicine for the benefit of us all. I am honored to welcome these esteemed individuals to the National Academy of Medicine.”
While Taylor now works as a Professor and Vernice D. Ferguson Professor in Health Equity at the NYU Rory Meyers College of Nursing, she began her academic career working as an Assistant Professor and Director of the Pediatric Nurse Practitioner Program at the School of Nursing at the University of Michigan. Taylor then worked for nine years at Yale, and became the first African American woman to go through the tenure track ranks. In 2014, she earned tenure. Later, Taylor was named the first Associate Dean of Diversity at the Yale School of Nursing where she remained until going to NYU Rory Meyers College of Nursing. She then came to NYU to serve as the first Vernice D. Ferguson Endowed Chair. She also is the Director of the Meyers Biological Laboratory and Co-PI and Co-Director of the P20 Exploratory Center on Precision Health in Diverse Populations.
“Nurses have been members of NAM for a very long time. It is very important to have a membership that is diverse across health disciplines such as Nursing, Dentistry, and Medicine because all work together for the greater good of patients,” says Taylor. “I believe that my membership in NAM will add a greater voice and representation of nursing as an integral part of scientific research and practice.”
Taylor also hopes that this membership will open up opportunities so that she can “move the science forward in a more robust way and at an even larger scale.”
This month, New York University (NYU) Rory Meyers College of Nursing welcomed Jacquelyn Taylor, PhD, PNP-BC, RN, FAHA, FAAN, as the inaugural Vernice D. Ferguson Professor in Health Equity.
Taylor has already had a notable career. In January 2017, she was awarded the Presidential Early Career Award for Scientists and Engineers by President Barack Obama, the highest honor awarded by the federal government to scientists and engineers, where she will examine next-generation sequencing-environment interactions on cardiovascular outcomes among African Americans.
Vernice D. Ferguson (1928-2012) was a distinguished nurse leader, educator, and executive who championed the health of all people throughout her career. Ferguson, who received a baccalaureate in nursing from NYU, pioneered leadership positions for nurses and elevated the nursing profession through advocating for increased opportunities, respect, and wages, as well as fostering nursing research.
Taylor says it’s a tremendous honor to be selected to serve as the inaugural Vernice D. Ferguson Professor in Health Equity. “It is my sincere hope that the research I lead is as beneficial to the public as the work of the iconic Vernice D. Ferguson.”
Over the course of Taylor’s career her work has focused on health equity in Black populations for common and chronic diseases such as hypertension, both in the United States and in Africa.
“African Americans have the highest incidence and prevalence of hypertension than any other ethnic group in the U.S.,” says Taylor. “In particular, African American women have the highest incidence and prevalence of hypertension than any ethnicity or gender. Understanding the genomic underpinnings and social factors that contribute to this disparity can help providers to intervene early in life to eliminate such disparities. On a personal level, my father had hypertension and had a stroke, and my mother had cardiovascular complications as well. I would like for the work that I do to help others to avoid these complications.”
Another primary goal for Taylor is to study the genomics of lead poising in Flint, Michigan. She says the purpose of this project is to better understand the harmful effects of chronic lead exposure, the psychosocial insults of the Flint water crisis, and the underlying omic mechanisms involved that may contribute to increases in blood pressure in this already at-risk African American population in Flint.
“An intergenerational, multi-omic (genetic and epigenetic), and psychosocial approach will be utilized to understand one of the major symptoms of chronic lead exposure—high blood pressure—among African American families in Flint,” Taylor explains. “This research will provide critical insights that will add a layer of functional outcomes for health providers to best understand, assess, and intervene with tailored treatments based on an individual’s unique environmental, omic, and psychosocial profile and will help in mitigating long-term cardiovascular and other health risks.”
Taylor says her primary goal during her professorship is to continue to build on the work she has done in omic-environment interaction studies among minority populations by utilizing multiple advanced genomic techniques and expanding to more minority populations across the USA and abroad.
“I would also like to expand my reach as a leader in nursing science by taking on a more key administrative role that will aid in building up the next cadre of minority nurse scientists.”
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