New Trends in the Pharmaceutical and Biotechnology Industries

By M.V. Greene

"The need for a trained workforce at all levels from an associate's degree to a Ph.D. is critical for the United States to retain supremacy in biotechnology and pharmaceuticals."

- Dr. Kathleen Kennedy, vice president of education and training at the North Carolina Biotechnology Center in Research Triangle Park, N.C.

The biotechnology and pharmaceutical industries – more closely linked today than ever – are at the vanguard in addressing these anomalies through gene discovery – the realm of biotechnology – and the identification and manufacture of new drugs – the realm of pharmaceuticals.

Dr. Jerry L. Bryant, who has a Ph.D. in molecular biology from the Massachusetts Institute of Technology and is director of Science Education Initiatives for the United Negro College Fund Inc. in Fairfax, Va., said the biotechnology and pharmaceutical industries beckon young African Americans. The UNCF collaborates with pharmaceutical giant Merck & Co. Inc. to increase the ranks of African-American researchers and scientists in biotechnology and pharmaceuticals.

A December 2007 report from the Pharmaceutical Research and Manufacturers of America, a Washington-based industry association, noted that pharmaceutical research companies are testing 691 new medicines to help treat diseases that disproportionately affect African Americans or diseases that are among the leading causes of death among African Americans. The group's president and CEO, Billy Tauzin, said the developing medicines "offer hope for closing the troubling health gap" impacting African Americans.

Bryant said pharmaceutical companies "need diversity of thought at the earliest levels" in the drug development process.

At the other end of biotechnology is the mature pharmaceutical segment. Pharmaceutical and medicine manufacturing have produced medicinal and health-related products "undreamed of by even the most imaginative apothecaries of the past," according to the U.S. Bureau of Labor Statistics, which tracks labor and economic developments of U.S. industries. In contrast to biotechnology, the majority of pharmaceutical firms are involved in the final stages of the lengthy process of drug development.

The Biotechnology Institute offers a snapshot of the growing industry and its potential for solving human health, food and environmental problems. More than 370 biotech drug products and vaccines are currently in clinical trials targeting more than 200 diseases, including cancers, Alzheimer's disease, heart disease, diabetes, multiple sclerosis, AIDS and arthritis.

Stephen Keith, M.D., M.P.H., president and chief operating officer of Panacea Pharmaceuticals Inc., a Gaithersburg, Md., biotechnology company, calls the industry vibrant and exciting. Keith, whose company is developing novel cancer therapeutics and diagnostics, said biotech is an industry that demands scientific excellence.

"Biotechnology is dedicated toward developing products that are going to save lives and improve the health of individuals and families in the United States and around the world. So, it's a little bit more important than a company that's making potato chips. You have to have that commitment and dedication," Keith said.

As with many scientific fields, biotechnology demands increased participation from African-American researchers, scientists and other professionals, Keith said. A December 2006 report from the National Science Foundation put the number of African Americans studying a science discipline at the graduate level in the United States during 2005 at 21,876 – from a pool of 358,309 total students vying for master's degrees and doctorates. In the biological sciences, which include specialties such as biochemistry, biosciences, cell biology and pharmacology, 2,980 African Americans were enrolled in graduate programs in 2005.

The U.S. pharmaceutical industry has been at the forefront of drug development worldwide, the BLS noted. Thousands of medications have been developed through the pharmaceutical industry for diagnostic, preventive and therapeutic uses in the treatment of infectious diseases such as pneumonia, tuberculosis, malaria and influenza and chronic maladies like cardiovascular disease, asthma, diabetes and hepatitis.

"These drugs save the lives of millions of people from various diseases and permit many ill people to recover to lead normal lives," the BLS said.

About 2,500 firms operate in the industry, led by Fortune 500 companies including Johnson & Johnson, Pfizer and Merck.  In developing new drugs, pharmaceutical firms work with bulk chemicals and botanicals used in making finished drugs. These firms provided 292,000 wage and salary jobs in 2006. Nearly 90 percent of this industry's jobs in 2006 were in establishments that employed more than 100 workers. Most jobs are in California, Illinois, Texas, Indiana, New Jersey, New York, North Carolina, and Pennsylvania, according to the BLS.

About 28 percent of all jobs in the pharmaceutical and medicine manufacturing industry are in professional and related occupations, mostly scientists and science technicians. About 16 percent are in management occupations, another 13 percent are in office and administrative support, and 3 percent are in sales and related occupations. About 3 out of 10 jobs in the industry are in production occupations, including both low skilled and high skilled jobs.

The number of wage and salary jobs in pharmaceuticals is expected to increase by 24 percent over the 2006-2016 period, compared with an 11 percent projected increase for all other industries combined, the BLS said.

The combination of the biotechnology and pharmaceutical industries will lead to the development of many new drugs in coming years, the BLS said. Advances in technology and cell manipulation will allow pharmaceutical and medicine manufacturing makers to become more efficient in the drug discovery process. New technologies give scientists the tools to test drug candidates more rapidly than in the past.

Areas that have become hotbeds of research, business development and new product launches include the Research Triangle region near the cities of Raleigh and Durham, N.C.; the I-270 Technology Corridor in Montgomery and Frederick counties in Maryland; the Route 128 Corridor in Massachusetts and the San Francisco Bay Area in California.

Dr. Kathleen Kennedy, vice president of education and training at the North Carolina Biotechnology Center in Research Triangle Park, N.C., said African Americans are employed throughout the North Carolina biotech industry, the third largest biotech region in the country and projected to have the fastest rate of growth for biopharmaceutical and manufacturing jobs through 2014. Kennedy assists in developing biotechnology-related curriculum materials, advises colleges on biotechnology education and tracks biotechnology workforce training needs.

"The need for a trained workforce at all levels from an associate's degree to a Ph.D. is critical for the United States to retain supremacy in biotechnology and pharmaceuticals," Kennedy said.

Bryant added that the advent of globalization is fueling demand for researchers, scientists and others to join the biotechnology and pharmaceutical industries. "We live in a global and diverse economy now. When you try to deal with countries that are minority from the United States' perspective, they want to see somebody that looks like them at the table. We have to develop a better track record in training all students to participate in the STEM (science, technology, engineering, mathematics) fields, not just some," Bryant said.

Bryant said biotechnology and pharmaceutical companies and other organizations in the field understand the imperative to attract minorities to the field. The United Negro College Fund operates the UNCF-Merck Science Initiative with Merck for just that purpose. Since 1995, the initiative has provided fellowships annually to 37 promising science students, offering financial support, hands-on training, mentoring and institutional support. Additionally, the Merck Institute for Science Education supports teachers at the elementary school level to introduce novel science approaches to their young students.

Additionally, federal agencies like the National Institutes of Health, National Institute for Allergy and Infectious Diseases and the Vaccine Research Center have mandates to eliminate health disparities among minorities, and have programs that seek out African-American scientists and researchers. The NIH Black Scientists Association has established a professional support network for Black scientists in order to promote their research activities.

Dr. Chad Womack, president, executive director and co-founder of the National Association for Blacks in BIO, said barriers that have conspired to inhibit the advancement of Blacks in biotechnology and pharmaceuticals are starting to be broken.
Womack, co-founder, president and chief scientific officer of NanoVec LLC in Philadelphia, an early stage company that is developing nanotechnology-based solutions for next generation vaccines and immunotherapeutics against biodefense, infectious diseases and cancer, said he was fortunate to have received mentoring and direction as his scientific career was nurtured at the Morehouse School of Medicine in Atlanta, where he earned his doctorate.

"There is clearly a demand for young talent in bio-life sciences, but science is hard. It's not an easy discipline to be involved with. It does require a lot of motivation and focus, but also a lot of hands-on from mentors and people who care about you," said Womack, who has a role in academia as an assistant professor in the Department of Microbiology at the Howard University College of Medicine.