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Government and Policy McNair Center

True Impact of the Bayh-Dole Act

Addressing the True Impact of the Bayh-Dole Act

Since the passage of the Bayh-Dole Act in 1980, many researchers have debated its contribution to the transfer of technology from universities to industry. Some credit the act as an engine of economic growth responsible for the emergence of the biotechnology industry. Critics say that the law decreased data sharing and basic research and increased health care costs. Others think that the act had little impact and that changes in university patenting were inevitable.

University patenting would have increased regardless of the Bayh-Dole Act. However, the act did help universities license patents, creating positive economic benefits especially in the biotechnology industry.

Background

The Bayh-Dole Act was intended to improve the commercialization of federally funded research.

 Former Senator Birch Bayh and Senator Bob Dole, authors of the Bayh-Dole Act, in Washington D.C. on July 22, 1985.
Former Senator Birch Bayh and Senator Bob Dole, authors of the Bayh-Dole Act, in Washington D.C. on July 22, 1985.

Before 1980, only 5% of government-owned patents were ever utilized in industry. Corporations found it difficult, risky or unappealing to receive licenses for government patents. Several government agencies did not want to give up ownership of patents to universities or corporations. Agencies such as the National Science Foundation tended to give nonexclusive licenses to anyone, unappealing for companies. As it was easy for any company to procure licenses, the system did not incentivize companies to purchase licenses; most wanted exclusive rights.

The Bayh-Dole Act enabled institutions to keep control of patents invented using federally funded research. The university or business could then grant licenses on its own terms. The act also required universities or businesses to have clear patent policies and encourage development of inventions.

Did the Bill Work?

Claims that the Bayh-Dole Act alone led to increased patenting and economic activity surrounding university patenting are not true. Economic models show that the acceleration of patenting would still have occurred even without the act. David Mowery finds that universities increased their shares of patenting from 0.3% in 1963 to 4% by 1999. However, he notes that this increase had already begun before 1980, which indicates that the Bayh-Dole Act was not its cause.

Since the passage of the Bayh-Dole Act, more than 5,000 new companies have formed from federally funded university research. In 2008, more than 600 new university products were introduced to the marketplace. According to MIT, about 30 billion dollars of economic activity per year and 250,000 jobs can be attributed to technology born in academic institutions.

The Bayh-Dole Act may not have been the only contributor, but these large numbers show the importance of university innovation to the economy and make it clear that innovation spurring legislature can have enormous positive effects on economic growth.

Creation of the Biotechnology Industry

From the 1968-1970 period to the 1978-1980 period, biomedical university patents increased by 295%. Biomedicine, an important part of biotechnology, was therefore growing rapidly before the introduction of the Bayh-Dole Act. Most likely increased funding in the field, advances in science and emergence industry interest also played major roles in the growth of university patenting in this area.

The Bayh-Dole Act likely contributed to increased licensing of university biotechnology patents. The ability of universities to license patents created strong incentives for many scientist-entrepreneurs to form companies around their inventions. At least 50% of current biotech companies began as a result of a university license. Additionally, 76% of biotechnology companies have at least one license from a university.

These license based biotech companies have made huge impacts on the economy. University licensing of biotechnology patents generated more than $40 billion in economic activity in 1999. According to Boston University, biotechnology companies represented over 1.42 million jobs in 2008, and the bioscience sector as a whole represents an employment impact of 8 million jobs. By 2009, 1,699 biotech firms generated annual sales of $48.2 billion.

Addressing Criticisms

Critics of the Bayh-Dole Act cite the decrease of data sharing, higher health care costs and a shift away from fundamental research as flaws of the law.

Because researchers patent new inventions, they might tie up research data in patent rights. This could prevent other researchers from accessing this data, slowing the research process. An article by Neil Thompson and others suggest that this isn’t true in practice. They find no evidence that licensing of academic patents limits the sharing of research data. However, their work leaves open whether licenses on research tools lead to restrictions on continual research in a subject.

Many also argue that health care costs have increased as a result of the Act. Biomedical university patents often can be utilized in the process of drug creation. As these discoveries are not final products, companies must license each patent that they use to create a drug. The cost of licensing many of these patents allegedly drives up the cost of the final product, hurting the consumer. The NIH and USPTO have created guidelines to prevent the unreasonable licensing of biomedical patents. However, these guidelines are not all concrete.

While this “royalty stacking” may contribute to high prices, it is unfair to blame the costs solely on the Bayh-Dole Act. Drug development includes a multitude of phases with high costs that extend beyond patents at each step. Many drugs could also not have been developed without the help of the patented technologies.

Finally, others point out that applied research generates more money from patenting. They argue that the Bayh-Dole Act therefore incentivizes universities to focus on applied research instead of basic research. This too is not true. According to the National Science Foundation, the percentage of basic science research from 1980 to 2001 increased from 66.6% to 74.1%. Applied researched actually decreased from 33.4% to 25.9%.

Conclusion

The Bayh-Dole Act was not the sole factor in the increase of university patenting. However, it does appear to have played an important role in the licensing of university patents, particularly in the biotechnology industry.

The biotechnology is sector is large and growing. In 1980, it was almost nonexistent. By 2009, the sales of just 1,699 biotech firms were worth more than 2.5% of U.S. GDP. Academic intellectual property provides the crucial foundation for this sector. Further incentivizes for university patenting and its licensing could therefore drive yet more economic growth.

In addition, the government could encourage the use of unlicensed academic patents by offering tax breaks to companies who commercialize them. It could also encourage universities that excel at technology transfer such as Stanford or MIT to share best practices to other universities.

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Government and Policy McNair Center

Bureaucracy and Public Sector Innovation

The public benefits greatly when there are innovations in how our government approaches policymaking and regulation. However, sometimes barriers created by bureaucratic structures can slow implementation. When regulation and rigidity are holding us back, leaders are responsible for ensuring that our government institutions are allowing for change when our old ways of approaching challenges become antiquated.

Innovation in the Public Sector

Our traditional idea of innovation tends to point science and technology developments, like the iPhone or social media. Innovation within the public sector takes many forms. Journalist Alex Howard broadly defined public sector innovation as any government-created “new idea, technology or methodology that challenges and improves upon existing processes and systems, thereby improving the lives of citizens or the function of the society that they live within.” For example, the introduction of speeding cameras in the late 1980s in the U.S. is a public sector innovation that allowed local police to improve public safety by catching speeders more efficiently.

In the U.S., innovation in public policy takes place in many levels of government. For example, the Rebuild by Design program, launched in response to Superstorm Sandy, created a competition for innovators to develop creative solutions to problems posed by natural disasters. In Boston, this program created Climate Ready Boston (CRB). CRB works with the Boston city government to ensure that infrastructure is created to withstand the impacts of climate change, like rising sea levels and extreme temperatures. Another public sector innovation, the Citizen Archivist Initiative, uses online tools and crowdsourcing to make public records more easily accessible to the public.

United States Efforts to Encourage Public Sector Innovation

Within the last 30 years, federal executive and legislative action have also encouraged innovation within the public sector. For example, the Small Business Research and Development Enhancement Act of 1992 gave the Small Business Administration the ability to conduct the Small Business Innovation Research Program to better serve small businesses. Later, President Bill Clinton’s Executive Order 13103 placed an emphasis on increasing government awareness of computer vulnerabilities, demonstrating that the government would be adapting to new technologies.

President Barack Obama emphasized this as well. In 2009, his administration released the Strategy for American Innovation to increase efforts to support American innovators. In 2015, they released an updated strategy that placed importance on public sector innovation. The new strategy includes “new efforts to make the Federal government more innovative to improve performance and create a better environment for innovation by the private sector and civil society.”

Public Sector Innovation Around the World

Public sector innovation is not unique to the United States. The Organization for Economic Cooperation and Development’s Observatory of Public Sector Innovation tracks these innovations for each member country.  In Iceland, the Reykjavik Metropolitan Police Department began using social media to connect with citizens. In the United Kingdom, policy innovation took place through the creation of the What Works Network, an evidence-collection initiative to inform policy decisions.

Although there are success stories, innovation in the public sector can be difficult. Government agencies tend to be deeply entrenched in the rigidity of bureaucracy, a structure that can hinder creativity.

How Can We Boost Innovation within Government Agencies

We should want to encourage policy innovation. However, this is easier said than done. The hierarchical layout of many government agencies can be beneficial for clarity and accountability, but it can also inhibit creativity, thereby stifling innovation. Bureaucratic structures can prevent change and creativity. How can we overcome these obstacles?

University of Connecticut and Georgia Tech researchers found that workplace environment can enhance or curtail creativity. Encouraging creativity is essential for innovation. Employees must have the time, physical resources and supportive peers to implement innovative solutions. Within a government agency, these factors could manifest in many forms: Collaborative and open work spaces, efficient technologies like portable laptops and tablets and smart deadlines that are both challenging and realistic can all be effective.

The Importance of Leadership

The barriers to change in the government bureaucracies can make innovation difficult. Leadership plays a large role in whether bureaucratic organizations successfully overcome the obstacles that accompany bureaucracies. Leaders must actively prioritize innovation. The Harvard Business Review suggests, “Leaders of big bureaucracies need to get — and keep — everyone enthused, create and communicate a future vision, assure support during the transition, insist on excellence, create demands on managers and convince everyone of top management’s conviction and commitment to change.”

Simply articulating creativity as a goal can improve creativity of groups. When leaders direct groups to develop creative solutions, their groups generate more creative results than groups who are not given this instruction. If leaders want to see creativity amongst their employees, they should communicate that creativity is a goal for every project.

Hierarchies can often be complex and make it difficult for senior leadership to stay in touch with employees on the lower end of the hierarchy. To combat this, leaders need to make themselves available to employees. Open communication between leaders and lower-level employees can promote development of new ideas.

Further Applications

Any business that is looking to transform their culture to encourage creativity and innovation can use these lessons. Change requires sustained efforts on the part of leadership. With continuing organizational support, the benefits can be great.

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McNair Center Women

Women in Top Tech Companies

In 2014, many of the top tech companies released information on their employee diversity demographics for the first time, bringing attention to the low representation of women in top tech companies. This post looks beyond these numbers. How are tech companies responding to this gender imbalance?

The top five tech companies by market cap are, in order: Apple, Alphabet (Google), Microsoft, Amazon, and Facebook. The gender balance of each company’s workforce is in the table below:

women-workforce-table
Sources are linked for Apple, Alphabet, Microsoft, Amazon, and  Facebook. Data on national averages can be found here and here.

All of these companies are seeking to improve their gender balance and support current women employees. Resource groups, family benefits and smart hiring practices are some of the most common solutions. Even when these efforts are made, the male-dominated work environments can be far from ideal for women at these companies.

Women Employee Experiences

Resource Groups

Resource groups can serve as valuable support networks for women employees. Each of the top tech five has at least one employee resource group for women (Apple: Women@Apple; Google: Women@Google, Google Women in Engineering; Microsoft: Women@Microsoft; Facebook: Women@Facebook, Amazon: Women@Amazon, Amazon Women in Engineering, Women in Finance Initiative). All of these groups share similar goals: empowering women in their workforce and providing networking opportunities.

Many of these resource groups also participate in community outreach, engaging young girls and women and creating programs to foster their interests in technology. (See Women in STEM: Closing the Gap for more information on how community outreach can help change the culture around women in STEM in the United States.)  After recognizing that underrepresentation of women in tech is related to the lack of educational STEM exposure and encouragement for women, Facebook created Computer Science and Engineering Lean-In Circles to support women in college who are interested in CS.

Conferences

Sponsoring women’s tech conferences, like the Grace Hopper Celebration of Women in Computing or the Women in Real Life (WiRL) Conference, is also common among these resource groups. Amazon even holds its own conference: Every year, the women’s resource groups at Amazon also team up to host AmazeCon, a diversity conference that focuses on the achievements due to diverse teams at Amazon. The conference draws thousands of experts and leaders to discuss the importance of diversity in creativity and accomplishments.

Microsoft has taken an extra step by creating an innovative program for women, Women Think Next. WTN is a “worldwide community for professional women,” bringing together women from varying fields and backgrounds to network and support one another.

The program is not limited to Microsoft employees. WTN encouraged any and all professional women around the world to join. Women Think Next holds an annual networking conference and provides resources for women throughout the year. The conference also serves as a recruitment event for Microsoft to hire women with strong skills.

Employee Complaints

Everything isn’t always as it seems on paper, though. The male-dominated work environments at these companies can be isolating for female workers. In 2015, Microsoft faced a lawsuit accusing the company of gender-discriminatory policies in employee reviews. In May 2016, a former Facebook contractor published a piece on the sexism she experienced while working on a project team. During September 2016, Apple received criticism in the media for a series of leaked emails that revealed the company’s unresponsiveness to concerns of women employees. Through these emails, women employees described the company’s atmosphere as “toxic,” including workplace harassment and gender discrimination.

It is important to note that these are all anecdotal experiences. Each company responded by emphasizing that they take complaints like these seriously. The sensitive nature of the companies’ investigations of these claims prevents more information from being public.

Work-Life Balance

In American society, women often face conflict between the gender norms surrounding women’s family responsibilities and a desire to pursue a career. Maternity and family leave benefits can be an important factor in a woman’s decision to stay with a company in the long run, especially after she has started a family.

Of all of the Organization of Economic Cooperation and Development member countries, the United States is the only one that does not mandate paid maternity leave. According to the most recent statistics, only 12% of Americans receive this benefit.

However, within the tech top five, they seem to go far and beyond this requirement. Below is a summary of the family leave benefits for the tech top five.

maternity-leave-chart
Sources are linked for Apple here and hereAlphabet, Microsoft here, here and here, AmazonFacebook, and National Standard

It is not surprising that these companies give generous benefits. Named the best place to work in the U.S. in 2015 by both Forbes and Glassdoor, Google is known for its employee perks. One of Google’s greatest strengths lies in its emphasis on self-study to determine workforce problems and find solutions. In 2007, Google’s People Operations (AKA Human Resources) department noticed that new mothers left Google at twice the average departure rate. In response, the company decided to lengthen paid maternity leave from 12 to 18 weeks. After this change, Google’s departure rate for new mothers dropped by 50 percent.

Controversial Benefits

In 2014, both Apple and Facebook received media attention for their announcements that they would pay to freeze U.S.-based employees’ eggs. Apple announced it as a new dimension to their support for infertility treatments. The move was met with mixed reviews by the media. NBC News praised it as a “game-changing perk,” but The Guardian denounced it as “unreasonable and illogical.” Supporters of the policy argue that it gives female employees more flexibility in their decision to have children. Critics claim that the policy sends the wrong message, implying that if female employees want to succeed at work, they need to delay motherhood.

Parental Equality

It is important to look not only at a company’s maternity leave policies, but at their parental and family leave policies as well. Studies of maternity and motherhood-related policies in other countries, like a mandated child care law in Chile and a reduced hours law in Spain, have shown that offering parental benefits only to women can lead to a decrease in salary and promotion rates of all women at a company, even those who don’t take advantage of them. One approach to combating these negative effects could be making these policies gender-neutral. This would allow for men to take advantage of these policies and reduce gender-discriminatory practices.

Hiring, Promotions and Pay

Facebook has received attention for its hiring point system. Facebook’s recruiters receive points for new hires, but based on the new recruits’ diversity, it can earn recruiters more points. White or Asian males only count for one point, whereas black, Hispanic, or female new hires count for two points. Higher point totals can lead to good performance reviews and bonuses for recruiters. This system incentivizes the creation of a more diverse workforce.

At Google, employee studies showed that women were less likely than men to submit their names for promotions. After Google brought this information to the attention of women employees, this discrepancy disappeared. Google now prides itself in the fact that they promote women and men at the same rates.

In August 2016, Apple announced plans to increase hiring of women and minorities. During the same announcement, they celebrated their official elimination of all gender pay gaps within the company. To maintain this, they have pledged to analyze and correct any gaps as they may arise in the future.

Amazon has also addressed its pay gap. Amazon boasts that women earn 99.9 percent of men’s salaries, explaining that the percentage fluctuates annually, so that it may not always reach a perfect 100 percent. However, Amazon has received criticism on its diversity reports for not including statistics on the percentage of women who make up their tech workforce. This discrepancy has led media to question whether Amazon has something to hide. Until Amazon releases more information, there is no way to know the state of female representation in their tech workforce.

What Does This Mean?

When compared to national averages, women are not as well-represented in the top tech companies. However, these companies provide benefits and services to their women and employees that are above and beyond the norm. Nonetheless, as the anecdotal experiences of the women at Apple, Facebook, and Microsoft have shown, a company can offer great benefits while still tolerating a discriminatory workplace environment.

Regardless, these companies need to develop new strategies  to address low women’s representation. Only time will tell how future policy, research, and incentives will impact women’s employment in the tech workforce.