A Black American Nutrition Scholar and Advocate: My Journey.

I started my journey as a nutrition scholar in 1974 when I began PhD studies at Cornell University. My journey has been rich with opportunity. I engaged in research on diet-related risks for cardiovascular diseases, diabetes, and cancer, partly motivated by my strong commitment to addressing health disparities affecting Black Americans. Obesity became my major focus and would eventually involve both US and global lenses. This focus was also linked to other dietary intake issues and health disparities and drew on knowledge I had gained in my prior study and practice of social work. I positioned myself as a bridge builder across nutrition, epidemiology, and public health, advocating for certain new ways of thinking and acting in these spheres and in the academy itself. Life skills honed during my formative years living within racially segregated contexts have been critical to any successes I have achieved.

A Conversation with James Ntambi.

An interview with James M. Ntambi, professor of biochemistry and the Katherine Berns Van Donk Steenbock Professor in Nutrition, College of Agricultural and Life Sciences, at the University of Wisconsin-Madison, took place via Zoom in April 2022. He was interviewed by Patrick J. Stover, director of the Institute for Advancing Health through Agriculture and professor of nutrition and biochemistry and biophysics at Texas A&M University. Dr. James Ntambi is a true pioneer in the field of nutritional biochemistry. He was among the very first to discover and elucidate the role that diet and nutrients play in regulating metabolism through changes in the expression of metabolic genes, focusing on the de novo lipogenesis pathways. As an African immigrant from Uganda, his love of science and his life experiences in African communities suffering from severe malnutrition molded his scientific interests at the interface of biochemistry and nutrition. Throughout his career, he has been an academic role model, a groundbreaking nutrition scientist, and an educator. His commitment to experiential learning through the many study-abroad classes he has hosted in Uganda has provided invaluable context for American students in nutrition. Dr. Ntambi's passion for education and scientific discovery is his legacy, and the field of nutrition has benefited enormously from his unique perspectives and contributions to science that are defined by his scientific curiosity, his generosity to his students and colleagues, and his life experiences. The following is an edited transcript.

An Accidental Nutritionist.

My career as an accidental nutritionist began with my immersion in cholera control, a cyclone disaster, a smallpox epidemic, and formal training in ophthalmology and epidemiology. Interest in blindness prevention inexplicably led me to (re)pioneer the effects, treatment, and prevention of vitamin A deficiency, while faced with intense criticism by many leading scientists in the nutrition community. The resulting efforts by the World Health Organization and UNICEF in support of programs for the global control of vitamin A deficiency still face vocal opposition by some senior scientists, despite having been estimated to have saved tens of millions of children from unnecessary death and blindness. This entire journey was largely an accident!

Impacts and Echoes: The Lasting Influence of the White House Conference on Food, Nutrition, and Health.

The 1969 White House Conference on Food, Nutrition, and Health had a significant influence on the direction of food and nutrition policy in the United States. The conference produced recommendations leading to federal legislation and programs to alleviate hunger and malnutrition, improve consumers' nutrition knowledge through education and labeling, and monitor the nutritional status of the population. Fifty years later, its legacy was revisited at a conference convened by Harvard University and Tufts University. This article reviews the literature contributing to the first author's keynote speech at the conference, its influencers, and its influences. We focus on the highlights of five domains that set the stage for the conference: the social environment, the food environment, nutrition science, public health data, and policy events. We briefly describe the conference, its proposed directions, and its lasting legacy in these five domains.

Maintaining Balance.

Writing this biography forced me to look back over my career as a scientist, teacher, wife, and mother. To my surprise, a lifelong theme emerged that I was unaware of, that is, the role of maintaining balance between work and family, science and teaching, mentorship and administration, and personal values and challenges. My primary mentor, Dr. Doris Calloway, demonstrated the importance of maintaining balance. My interest in nutrition started as a preschooler living on a farm where I learned firsthand the importance of balancing the expense of providing good nutrition to the livestock with potential income. In our small high school, I became acquainted with the fascinating field of chemistry, but found it critical to balance that interest with a politically correct field of study for a woman in the early 1960s. I chose dietetics for its strong roots in chemistry. As a US Army dietitian, I learned firsthand how to conduct metabolic studies and knew, immediately, that I had to balance that interest with future opportunities feasible for a dietitian. I chose the University of California, Berkeley, for my PhD because it needed to train dietitians in research to balance an emerging need to offer undergraduates a practicum in dietetics. My subsequent faculty appointment there enabled me to develop novel isotopic approaches for studying zinc and prenatal nutrition, and balance my research with teaching and administrative responsibilities. During the next 40 years, my work as a Berkeley professor led to appointments at the Western Human Nutrition Research Center and Children's Hospital Oakland Research Institute, while balancing my responsibilities as a wife and a mother to my two sons. Balance is defined as a condition in which different elements are equal or in the correct proportions. It is extremely satisfying to look back and see evidence of successfully balancing the disparate elements of my career.

[To the 90th anniversary of the Institute of Nutrition: a look through the years].

Half of our health depends on the food quality. Federal Research Centre of Nutrition, Biotechnology and Food Safety has been dealing with this problem for 90 years. Core issues are medical enzymology, searching new food sources (protein problem), nutritional epidemiology, nutrition for professional athletes and cosmonauts, seeking new biologically active compounds, food toxicology and safety assessment of nanotechnologies, a study of the metabolism and mechanism of action of food contaminants, creation of a regulatory framework for chemical and microbiological safety, and much more. The infant and baby nutrition and nutrition of older people in recent years has developed rapidly.

[Nutriome as the direction of the "main blow": determination of physiological needs in macro- and micronutrients, minor biologically active substances].

One of the essential parts of fundamental research in Nutrition Science is the determination of the physiological requirements of humans for energy and food substances. Research that has been carried out in this area over the past 90 years, consistently develops and improves the norms of physiological requirements for energy and nutrients for various groups of the population of the Russian Federation. In the 50 years of the last century in this research field, determining the values of daily intake for macronutrients (proteins, lipids and carbohydrates), was in the first place. Then the Era of micronutrients (vitamins, minerals, trace elements) was started, and, finally, now there is the Era of minor food biologically active substances. More and more facts are accumulating about their leading role in regulating metabolism. They can be recognized as endogenous regulators, the primary vital components involved in the formation of human health. In recent years, the new definition of Nutriome is introduced into Nutrition Science. It is considered as a set of essential nutritional factors to maintain a dynamic equilibrium between human being and the environment, aimed to ensure viability, the preservation and reproduction of the species, keeping the adaptive capacity, the system of antioxidant defence, apoptosis, metabolism, and immune system function. The Nutriome is a formula for optimal nutrition, which is continually being improved and supplemented. Knowledge of this formula is the key to forming an optimal diet for a person, and, therefore, to save their health. It is evident that at the population level, the Nutriome has its characteristics, its structure for each age period of human life. The need to develop a formula for optimal nutrition and, consequently, updating nutrient-based dietary guidelines is induced by socio-economic and demographic changes in population, changes in anthropometric characteristics of children and adults, increasing prevalence of socially significant non-communicable diseases, developing studies of the significance of particular food substances and establishing the relationship between nutrition and health.

A Life in Food: A Grain of Salt and Some Humble Pie.

From my senior school days, I had wanted to pursue a career in food. In quite what capacity I was not too sure. So my starting points were within the fields of animal nutrition before moving for the major part of my career to medical schools to study human nutrition and health. My career scientific achievements lie within the Kuhnian spectrum of normal science, but within that normality, I was always one to challenge conventional wisdom. An academic career is about more than just research. It is about teaching and not just the minutiae of nutrition, but about life and living, about challenges and failures. Reflecting on the experience of that career, my advice to early stage researchers is this: Be patient, determined, and resilient in the very early stages. Hold no fear of change and be courageous in challenging conventional wisdom. Always favor openness and collaboration and always seek to help others. Citation indices are important to your career, but these other avenues that I advise you to follow are what you will eventually be most proud of.

Nutrition from the Inside Out.

Nearly 50 years ago, I set out to investigate the clinical problem of hypoglycemia in children with illnesses that limited their food intake. My goal was to gather accurate and precise measurable data. At the time, I wasn't interested in nutrition as a discipline defined in its more general or popular sense. To address the specific problem that interested me required development of entirely new methods based on stable, nonradioactive tracers that satisfied the conditions of accuracy and precision. At the time, I had no inclination of the various theoretical and practical problems that would have to be solved to achieve this goal. Some are briefly described here. Nor did I have the slightest idea that developing the field would result in a fundamental change in how human clinical investigation was conducted, with the eventual replacement of radiotracers with stable isotopically labeled ones, even for adult clinical investigation. Additionally, I had no inclination that the original questions would open avenues to much broader questions of practical nutritional relevance. Moreover, only much later as the editor of The American Journal of Clinical Nutrition did I appreciate the policy implications of how nutritional data are presented in the scientific literature. At least in part, less accurate and precise measurements and less than full transparency in reporting nutritional data have resulted in widespread debate about the public policy recommendations and guidelines that are the intended result of collecting the data in the first place. This article provides a personal recollection (with all the known faults of self-reporting and retrospective memory) of the journey that starts with measurement certainty and ends with policy uncertainty.

The Best of Times.

I came of age as a nutrition scientist during the best of times-years that spanned a rapidly changing world of food and nutrition science, politics, and policy that greatly broadened the specialty and its influence on public affairs. I followed the conventional route in academe, working my way up the academic ladder in Boston from a base first in a school of public health and later in a teaching hospital and medical school, interspersed with stints in Washington, DC. Thus I tell a tale of two cities. Those were the best of times because nutrition science and policy converged and led to important policies and programs that shaped the field for the next 50 years.

Development of food and nutrition sciences in the 100-year history of the National Institute of Hygiene in Poland

Issues related to nutrition and food safety in Poland are included in the hundred-year history of the National Institute of Hygiene (PZH), which exists since 1918. The first scientific institution in Poland devoted to nutrition after the First World War was the Department of Biochemistry and Hygiene of Nutrition created in 1923 in the National School of Hygiene operating at the National Institute of Hygiene (PZH), whose director was Dr. Ludwik Rajchman. This Department was headed since 1925 by Kazimierz Funk, an outstanding scholar, who had already gained international fame as a discoverer of vitamins, and at PZH he investigated the effects of poor nutrition on health. After departure of Kazimierz Funk from Poland, the issues related to nutrition were dealt with by Dr. Gustaw Szulc and Dr. Aleksander Szczygiel, who since 1938 was the head of the Department of Biochemistry and Nutrition Hygiene. In 1963, all issues related to nutrition were transferred from the National Institute of Hygiene (PZH) to the newly founded Institute of Food and Nutrition in Warsaw, whose director was Aleksander Szczygiel. Food safety issues went to the National Institute of Hygiene in 1935 after incorporating into its structure the State Department of Food and Consumers Goods operating in Warsaw since 1919. Thanks to this reorganization, National Institute of Hygiene became the headquarter for all State Departments of Food and Consumer Goods in Poland. As soon as in the third year of their activity (in 1921), the laboratories of the State Department of Food and Consumers Goods examined over 65,000 samples of food products, detecting adulterations, false labeling, harmful admixtures or spoiled products in 44% of cases. The State Departments of Food and Consumer Goods in 1952 were transformed into Sanitary-Epidemiological Stations and incorporated into the structures of the State Sanitary Inspection. National Institute of Hygiene obtained the status of a research institute whose tasks were besides the scientific activity, the postgraduate education of the personnel of this Inspection. After the Second World War, prof. Stanislaw Krauze, who was appointed the head of the Department of Food Research and Articles of Common Use at the PZH in 1935, continued his mission. Prof. Stanislaw Krauze was recognized as the founder of the scientific bases of food control in Poland, food sciences and the initiator of microbiological food research. Prof. Stanislaw Krauze was the head of this Department of PZH until 1962. Another head of this Department, prof. dr h.c. Maksym Nikonorow, introduced research on pesticide residues, food monitoring studies, as well as toxicological testing using laboratory animals, opening a new quality in the assessment of food safety. After his retirement this Department was led by prof. Halina Mazur (1981-1990) and assoc. prof. Kazimierz Karlowski (1990-2010). Since 2011 dr Jacek Postupolski is a head of this Department, which in 2012 has changed its name to the Department of Food Safety. The scientific staff of this Department, besides conducting scientific research, service, and educational activities, acts as experts for the Minister of Health, the Minister of Agriculture, and other national authorities, and cooperates with the FAO/WHO, the European Commission and Food and Feed Safety Authority (EFSA). In the Department there are accredited laboratories serving as the National Reference Laboratories (NRLs) which cooperate with the European Union Reference Laboratories (EU-RLs).

Scientizing Everyday Life, Rationalizing Eating Habits: The Rise of Nutrition Science in 1910s-1920s Japan.

Historians of science have noted that modern nation-states and capitalism necessitated the systematic creation and implementation of a wide array of knowledge and technologies to produce a more productive and robust population. Commonly labeled as biopolitical practices in Foucauldian sense, such endeavors have often been discussed in the realms of public hygiene, housing, birth control, and child mortality, among others. This article is an attempt to extend the scope of the discussion by exploring a relatively understudied domain of nutrition science as a critical case of social engineering and intervention, specifically during and after World War I in the case of Japan. Research and dissemination of knowledge on food and health in Japan, like other industrializing nation-states, centered on new public hygiene initiatives since the late nineteenth-century. However, in the aftermath of WWI, or more precisely, after the Rice Riots of 1918, a new trend began to dominate the discourse of nutrition and health. In the face of wartime inflation and the resultant nation-wide riots, physicians and social scientists alike began to view the food choice and budget issue as a solution to the middle class crisis. This new perception drew on the conceptual framework to understand food, metabolism, and cost in the language of quantifiable nutrition vis-à-vis monetary values. By analyzing how specific nutritional knowledge was translated into the tenets for public campaigns to reform everyday life, this paper ultimately sheds light on the institutionalization of a new area of research, nutrition (eiyo) in Japan.

Nutritional Ecology and Human Health.

In contrast to the spectacular advances in the first half of the twentieth century with micronutrient-related diseases, human nutrition science has failed to stem the more recent rise of obesity and associated cardiometabolic disease (OACD). This failure has triggered debate on the problems and limitations of the field and what change is needed to address these. We briefly review the two broad historical phases of human nutrition science and then provide an overview of the main problems that have been implicated in the poor progress of the field with solving OACD. We next introduce the field of nutritional ecology and show how its ecological-evolutionary foundations can enrich human nutrition science by providing the theory to help address its limitations. We end by introducing a modeling approach from nutritional ecology, termed nutritional geometry, and demonstrate how it can help to implement ecological and evolutionary theory in human nutrition to provide new direction and to better understand and manage OACD.

Driving Along the Zinc Road.

After having written hundreds of research articles, reviews, and book chapters, I find it awkward to pen an autobiography. I still do use a pen. As stated by others in the nutrition field who have written of their own experiences in a perspective article for the Annual Review of Nutrition, my course through this field of science has been serendipitous. My interest in nutrition developed during my experiences with horses and then Angus cattle and entry into an animal science degree program. As the age of molecular biology was unfolding, I pursued a PhD in nutritional biochemistry with Hamilton Eaton at the University of Connecticut followed by postdoctoral work with Hector DeLuca at the University of Wisconsin, working on vitamins A and D, respectively. At Rutgers University, one of the two institutions where I have served on the faculty, I started my research program on trace elements with a focus on cadmium toxicity but soon thereafter began my research on zinc metabolism and function. I moved to the University of Florida in 1982 for an endowed position and have been a Florida Gator ever since. At the University of Florida, research expanded to include identification of zinc-responsive genes and physiological outcomes of zinc transport influencing health and disease, particularly as related to inflammation. I had the opportunity to contribute national science policy as president of both the Federation of American Societies for Experimental Biology and the American Society for Nutrition. As the time of this writing, I maintain an active laboratory.

Behavioral Nutrition Interventions Using e- and m-Health Communication Technologies: A Narrative Review.

e- and m-Health communication technologies are now common approaches to improving population health. The efficacy of behavioral nutrition interventions using e-health technologies to decrease fat intake and increase fruit and vegetable intake was demonstrated in studies conducted from 2005 to 2009, with approximately 75% of trials showing positive effects. By 2010, an increasing number of behavioral nutrition interventions were focusing on body weight. The early emphasis on interventions that were highly computer tailored shifted to personalized electronic interventions that included weight and behavioral self-monitoring as key features. More diverse target audiences began to participate, and mobile components were added to interventions. Little progress has been made on using objective measures rather than self-reported measures of dietary behavior. A challenge for nutritionists is to link with the private sector in the design, use, and evaluation of the many electronic devices that are now available in the marketplace for nutrition monitoring and behavioral change.

Why Obesity?

As Erwin Chargaff observed, "Scientific autobiography belongs to a most awkward literary genre," and mine is no exception. In reviewing my scientific life, I contrast the nutritional influences that would have existed had I been born 100 or 200 years earlier than I actually was. With this background, I trace the influences on my formative years in science beginning in high school and ending as a postdoctoral fellow in Professor E.B. Astwood's laboratory, when my directional sails were set and obesity was the compass heading. With this heading, the need for organized national and international meetings on obesity and the need for a scientific journal dealing with obesity as its subject matter became evident and occupied considerable energy over the next 30 years. The next section of this memoir traces the wanderings of an itinerant academic who moved from Boston to Los Angeles and finally to Baton Rouge. The influence of Sir William Osler's idea that there is a time for education, a time for scholarship, a time for teaching, and time to retire has always been a guide to allocating time ever since I was an intern at Johns Hopkins Hospital. It was in Baton Rouge that the final phase began: I agreed to become the first full-time executive director of the Pennington Biomedical Research Center, a decision that changed my life. The article ends with a quotation from Tennessee Williams that reflects the theater, which has given me so much pleasure over the years: "There is a time for departure even when there's no certain place to go."

Historical Perspective on Clinical Trials of Carnitine in Children and Adults.

The metabolic roles of carnitine have been greatly clarified over the past 50 years, and it is now well established that carnitine is a key player in mitochondrial generation of energy and metabolism of acetyl coenzyme A. A therapeutic role for carnitine in treatment of nutritional deficiencies in infants and children was first demonstrated in 1958, and since that time it has been used to treat a number of inborn errors of metabolism. Carnitine was approved by the US Food and Drug Administration in 1985 for treatment of 'primary carnitine deficiency', and later in 1992 for treatment of 'secondary carnitine deficiency', a definition that included the majority of relevant metabolic disorders associated with low or abnormal plasma carnitine levels. Today, carnitine treatment of inborn errors of metabolism is a safe and integral part of many treatment protocols, and a growing interest in carnitine has resulted in greater recognition of many causes of carnitine depletion. Notwithstanding, there is still a lack of data from randomized clinical trials, even on the use of carnitine in inborn errors of metabolism, although ethical issues may be a contributing factor in this regard.

Newspaper debates on milk fats and vegetable oils in Finland, 1978-2013: An analysis of conflicts over risks, expertise, evidence and pleasure.

The study analysed public debates on the association of milk fats, vegetable oils and cardiovascular diseases (CVDs) between 1978 and 2013 in Finland, a country with a decades-long history of public health initiatives targeting fat consumption. The main agendas, conflicts and participants were analysed. The data were collected from the newspaper Helsingin Sanomat and consisted of 52 threads and 250 texts. We identified four themes around which there were repeated, often overlapping conflicts: the health risks of saturated fats, expertise of the risks of fat consumption, the adequate evidence of the risks of fat consumption, and framing the fat question. During the research period, the main arguments of the effects of consumption of fats have remained the same. References to epidemiological and intervention studies and framing of the fat question as a public health issue, have been ongoing, as has the definition of what constitutes genuine expertise. Yet, we also found discontinuities. In the early 2000s new emphases began to emerge: personal experiences were increasingly presented as evidence of the effects of dietary choices on human health, and the question of fat consumption was framed either as one of enjoyment or of a consumers' right to choose rather than only being a public health question. Moreover, new professional groups such as chefs and creative professionals now joined the discussion.