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2The second part of the paper examines the region prior to The analysis demonstrates that the region had many of the resources with which industrial clusters were created in other parts of the world (Piore and Sabel,  ; Porter,  ; Markusen, ). The third part of the paper examines how and why the acceleration in the development of the biotechnology cluster occurred. The last part of the paper describes the industry as it exists today.

I The Region – Connecticut and the New Haven Metropolitan Area

3Connecticut is situated on the northeast coast of the United States, bordering Massachusetts, Rhode Island, and New York. Its population is roughly million, according to the U.S. Official Census.

Figure I - Connecticut County Map.
The study’s region is the New Haven metropolitan area, which includes New Haven and Fairfield Counties in Connecticut

Source : (State of Connecticut, ).

4New Haven is located about an hour and a half and 80 miles from New York City, and about two and a half hours and miles from Boston, Massachusetts. There are no direct flights to New Haven, and the local airport provides only flights to Philadelphia. According to the census, the total population of the New Haven metropolitan area, seen in figure 1, is about million, divided between New Haven County (population ,) and Fairfield County (,). The city of New Haven’s population of , is composed of % whites, % African American, % Asians, % Native Hawaiian and other Pacific Islanders, and % other races. The New Haven metropolitan area is home to seven institutions of higher learning, which provide access to cutting-edge research in critical areas such as medicine, information technology, biotechnology, and architecture. The most notable of New Haven’s institutions is Yale University, the third-oldest institution of higher learning in America.

5Despite its location, size, and history, the city has experienced problems similar to much larger US cities. The city’s crime rate in the s was higher than the US national averages, specifically in the Hills, Science Park, and by the Boulevard neighbourhoods. In , New Haven was described as « a war zone of poverty, crime and drugs, as frightening as any city in America » (Sedgwick, ). The sense of crisis about the city was growing in the s. For example, thirty-four people were killed in New Haven in , the city’s highest murder rate in recent history. Fuelled by the crack cocaine trade, rival gangs fought violent turf battles all over the city (Ball, ). Safety and security were particular issues for local high-tech firms when considering to locate in the city centre. Seemingly small issues, such as street lighting, provision of sidewalks, employee safety, and parking became important factors in their decisions to remain in the city.

I Yale University in the mid ’s

6Yale University, one of the world’s leading research universities, is known for its excellence in many fields, including life sciences. However, its culture of non-involvement in the community in general and with industry in particular created a situation in which it failed to reap the credit for several important discoveries, such as the transgenic mouse. For many years Yale was not active in technology transfer and by had spun out only three biotechnology companies. This attitude of non-involvement in industry changed in the period of In order to demonstrate this change, this section examines the university finances, faculty, student enrollment, and university policies with regards to IP and technology transfer, as well as regional economic development before This analysis proves that while Yale’s resources have hardly changed over the years, its attitude towards applied research and technology transfer created the fundamental difference in the local economy.

7Yale was not a promoter of applicable research or of working with industry. Hence, in , Yale spent $,, on research and development (R&D) and registered only 16 patents. It is interesting to compare these figures with MIT, which spent $ ,, on R&D in that year and registered 99 patents (National Science Foundation, ). While Yale spent $ 14,, per patent MIT spent $ 3,, per patent. These figures show that MIT produces more patents per research dollar. Also, until , compared to MIT that spun out 30 biotech companies at the time, Yale spun out three companies, only one, Alexion Pharmaceuticals, stayed in the region. These figures are broadly consistent with the reputation of Yale at that time as an institution that was only peripherally and sporadically involved with the local economy and community. As Yale’s president Richard Levin noted years later :

Outsiders have long regarded the presence of Yale as one of the city’s major assets, but, except for episodic engagement, the University’s contributions to the community did not derive from an active, conscious strategy of urban citizenship. It is true that our students, for more than a century, have played a highly constructive role as volunteers. Even a decade ago, two thousand students volunteered regularly in schools, community centers, churches, soup kitchens, and homeless shelters, but these volunteer efforts were neither coordinated nor well supported institutionally. When I became president, in , there was much to be done to transform Yale into an active, contributing institutional citizen… In prior years, however, the university had taken a relatively passive attitude toward the commercialization of its science and technology
(Yale Office of Public Affairs, ).

« There was » very little applied research in Biology, maybe in the medical school or Pharmacology Chemistry departments. In the Biology department it was looked down upon. For example we made the first transgenic mouse and the « Office of Cooperative Research » considered that not to be worthwhile in terms of invention. Yale was very conservative for many years. Not a very active program. Yale actually lost a lot of intellectual property because of this culture. They did not patent on time
(Interview with Yale faculty).

I Local Industry

9Although only a few biotechnology firms established themselves prior to , this was not due to an inhospitable environment. In fact, by , Connecticut was host to five pharmaceutical companies : Pfizer, Bristol-Myers-Squibb, Purdue, Bayer, and Boehringer Inglheim. Most of these companies had a major presence in the state, including research facilities ; four of these companies are located in the New Haven Metropolitan Area. In , a total of $ billion was spent on pharmaceutical R&D in Connecticut itself (6 % of the nation’s total). The companies operated research oriented facilities, staffed with scientists with a deep knowledge base in biomedicine, but interactions with researchers at Yale and other local universities were limited. None of these companies established institutional relationships with local research institutes, relying instead on opportunistic specific interactions between their investigators and individual researchers at these institutes.

I State and Industry Relations

11At that time, too, there was no state-wide organization representing the biotechnology industry specifically, only the Connecticut Technology Council, an industry association that represents all of the high technology companies in Connecticut. However, in , responding to public concern over the safety and ethical implications of biotechnology in general and animal research in particular, the local pharmaceutical companies in Connecticut had established a c (3) non-profit organization called CURE (Connecticut United for Research Excellence). CURE’s mission was to educate the public on biotechnology, specifically on the use of animals in research. Initially, CURE was not intended to be a lobbying or a representative body for the industry.

13In the early s, when biotechnology firms were growing steadily in the world, New Haven had missed the information technology (IT) boom and was very keen on seizing the biotechnology opportunity. This section reviews the investment in economic development made by different players in the region, which was lead by Yale University…

II Choices and Changes – the Role of Yale University

14By the university, which was a leading institution in life-sciences, was concerned that the lack of industry and industry collaborations will harm the ability of the university to attract and retain star scientists and bright students, thus, damage university research and reputation.

What was happening was the university was starting to become concerned that it would detract from our ability to compete, to attract the best and brightest students, the best and brightest faculty, et cetera, if we didn’t do something about it… First and foremost it was all about enhancing our reputation as a university, and two things come from that. One is our ability to attract and retain the best and the brightest faculty and students, and the second is to diversify the regional economy. Those were probably the principal reasons, and we weren’t against making money, but we weren’t making a lot at the time. It really wasn’t the principal motivator, it really was about our reputation
(Interview with Yale Director).

16Richard C. Levin was appointed as the twenty-second president of Yale in He took over the university at a time when concerns for recruitment of faculty, students, and the need to create a secure environment for students were of uppermost importance. This allowed Levin to implement a vast social, cultural, and economic development change in Yale. Coming into office in , Levin in his first speech emphasized the importance of Yale’s contribution to the local economy :

Our national capability in basic research was built by the far-sighted policy of public support for university-based science articulated during the Truman Administration and pursued consistently, though with varying intensity, ever since. Today, the scientific capability of American universities is the envy of the world. We neglect its support at our peril. As we seek to educate leaders and citizens for the world, as our discoveries spread enlightenment and material benefits far beyond our walls, we must remember that we have important responsibilities here at home. We contribute much to the cultural life of New Haven, to the health of its citizens and to the education of its children. But we must do more. Pragmatism alone compels this conclusion. If we are to continue to recruit students and faculty of the highest quality, New Haven must remain an attractive place in which to study, to live, and to work
(Levin, ).

17The interviewees that participated in this study overwhelmingly agreed that the catalyst of the change in Yale’s attitude toward research with potential practical applications was the arrival of Richard C. Levin in Levin, an economics professor, had a vision for Yale. He wanted Yale to be a « contributing institutional citizen » with a long-term commitment to the community (Levin, ). By referring to Yale as a « contributing citizen » Levin was referring to a broad range of activities at the university and not solely its role as an enhancer of economic development.

18To pursue this vision, the university conducted an in-depth study of the activities already performed by Yale in the community and decided to invest in four areas : economic development, strengthening neighborhoods, revitalizing the downtown area, and improving the city image.

19In order to support the focus on economic development, Yale rebuilt its technology transfer office, the office of Cooperative Research (OCR). The original Office of Cooperative Research was established in , and dealt primarily with licensing and tracking patents. There was no real attempt to create or promote technology transfer from the academic to the industrial arenas, although a notable success before the rebuild was the compound licensed to Bristol-Myers-Squibb that became the highly successful drug Zerit® (Stavudine). Initially this license produced little or no income to Yale, but by it was generating royalty income of million dollars annually.

20In , President Levin and Yale’s provost at the time, Allison Richard, who in became the Vice-Chancellor of the University of Cambridge, persuaded Gregory Gardiner, a former Pfizer executive, to head the restructured Office of Cooperative Research. Gardiner, a former member of the Yale chemistry faculty, remembered the earlier lack of enthusiasm at Yale for research with practical applications, and was eager to help bring about change. Gardiner’s expanded mission changed the function of the Office of Cooperative Research.

The duties of the OCR include oversight for patenting and licensing activities, university inventions, and contractual relationships between faculty and industry. OCR staff works with Yale researchers to identify inventions that may ultimately become commercial products and services useful to the public. OCR staff engages in industrial partnerships to license Yale inventions. An important goal for the Yale OCR is to identify new ideas, cultivate venture funding for them, and facilitate their development into companies that become part of the New Haven economy
(Office of Cooperative Research Website, ).

21Thus, the new Office of Cooperative Research would actively promote technology transfer, new firm formation spinning out from the university, and local economic development.

22There were many obstacles facing Gardiner and his team. One of the biggest challenges was to communicate the new priorities and incentive structure to the Yale faculty.

I was asked many times by junior faculty, « if I get involved with new ventures through the OCR, will I still get tenure ? » I told the committee [Educational Policy Committee of the Yale Corporation (the Yale trustees)] that we have to get Yale faculty to understand it is OK. At MIT, history says that this is OK but at Yale we need a change of culture (Greg Gardiner, Former Director of the OCR).

23This quote highlights the difference between policy creation and policy diffusion. While Yale changed its policy its affects would not take place until the change become widespread. In order to achieve this goal of institutional cultural change, the OCR had discussions with departmental chairs and faculty to explain the institutional change and Yale’s commitment to individual involvement in economic development. The Office of Cooperative Research representatives approached faculty who worked on applied research and had made important discoveries in the past. One of these faculty members recalls :

The OCR people came to professors who had records in licensing or industry interaction and asked for ideas to patent and establish companies. They came to my lab, they knew I worked in XXX and XXX. One of the compounds went to « company name ». They also recruited the management for the company.

24An examination of the disclosure process, the process by which a faculty member discloses his invention to the university, found that there was a need to change the process so as to prioritize the inventions that were most likely to succeed. The examination resulted in a major policy shift where OCR would seek out new inventions early, examine them quickly, and invest time and effort only in the strongest candidates. In addition, the upgrading of Office of Cooperative Research practices led to the identification and recovery of more than $ , of unpaid royalties from several licenses. Also, recognizing that 80 % of patents from Yale were in the biomedical field, the OCR opened another office in the School of Medicine with four staff members (Office of Cooperative Research, ).

25The Office of Cooperative Research’s activities were characterized by active promotion of commercialization of research on a local level, not merely passive acceptance. For example, during , the OCR established direct contacts with venture capital firms, since lack of funding was an issue for many of the university spinouts. Their goal was not only to persuade venture capital firms of the relevance of university technology but also to convince them of the importance of creating new ventures in New Haven. Their hard work of seeking appropriate investors eventually paid off and in , after two years of efforts, the first round of financing was concluded with $ 20 million for five companies.

We have all kinds of venture capital. One of the dirty little secrets is that although Boston thinks of itself as a major financial capital, we’ve got one that’s even bigger. It’s called Stamford Greenwich. When there was no state income tax, all the bankers used to live in Stamford Greenwich, not in New York City. So they all are still there, and that’s where they have their finance companies7 (Interview with Yale Administrator).

And it became clear that there’s no better person to kick out the economic development kind of mission that Yale would like to have than a guy like Bruce, so Rick « president Levin » convinced Bruce to take it on full time. It’s one of those things where you sit around going, « it’s nice that everyone wants to do this », but how many people are going to be able to tap a guy like Bruce Alexander to be their economic development guru ? The guy who redeveloped the Harbor place in Baltimore, the guy who did South Street Seaport in Manhattan. It makes us all look smart, but it’s what a university like Yale can do.

27The OCR, with the office of New Haven and State Affairs at Yale, led by Bruce Alexander, set out to build laboratory space close to Yale’s scientists. Accordingly, the university attracted two developers, Winstanley Associates and Lyme Properties, LLC, both of which had experience in building labs. Winstanley bought the vacant headquarters of the telephone company on George Street, and Lyme took over the development and management of Science Park on north campus (where the university and the city had been trying unsuccessfully for years to build a science park). At the same time Yale invested in its properties in the downtown as part of making the rundown New Haven a safer and more enjoyable city. For example, in its Broadway street properties Yale created a mix of both local businesses and national chains – transforming the area into a vibrant shopping area and late-night gathering spot.

28As a result of Yale’s efforts to change its attitude to technology transfer, commercialization, and economic development, Yale created physical as well as cultural changes. While Yale did not set cultural change toward economic development as a direct goal, it became unavoidable. While the university invested in its technology transfer office and officers, in rebuilding the downtown area, and assisting in the development of laboratory space, and connections to industry, it demonstrated to faculty that the university is determined to support applied research and commercialization. This attitude change, as well as the arrival of faculty from universities that already had a tradition of working with applied research and commercialization influenced some hesitant faculties to venture into commercialization or even entrepreneurship.

29Today the Office of Cooperative Research sees itself as a catalyst of local economic development, but hopes that in the future its involvement will not be as important. The missions of the OCR today are to benefit the community by transferring academic inventions to the public, to enhance the reputation of Yale University and its faculty, and to contribute to local economic development, while in the past the office focused solely on patenting and licensing. It took six years () to implement the changes at Yale and at the Office of Cooperative Research specifically. In August , Greg Gardiner retired and Jonathan Soderstrom was appointed his successor as director of the OCR. As a result of the efforts by Yale in general and the OCR in particular, twenty-one biotechnology companies have been established in the New Haven Metropolitan Area, and many more are in development, as described in Table 1.

30Table 1 summarized the Office of Cooperative Research accomplishments from till During this time licensing revenues grow from $ 5,, in to $ 46,, in , a growth of %. New licenses grow from 28 in to 47 in , a growth of 68 %. Number of patents issued grew from 13 to , a growth of %. Today, Yale has sixty-one spinouts in total and thirty-nine biotechnology spinouts. It is important to note that the OCR does not only build local companies. From the 70 licensing agreements put in place by the OCR in , only 10 were with local companies, the rest were licensed out of state and on an international level. However, while the OCR promotes the transfer of Yale’s technology to industry in general, not only on a local level, Yale is strongly committed to the local economy.

Table 1 - OCR Activities  9

Source : Office of Cooperative Research,  

II The role of the state, the city, and industry

• TheConnecticut BioSeed Fund. Similarly to German government investments in biotechnology, BioRegio program (Adelberger, ), this $ 5 million fund, administered by CI, provides seed capital to address the initial financial needs of young Connecticut companies, sustaining them until they are able to attract a lead institutional biotech investor for a Series A round of financing.

• The Bioscience Facilities Fund. This $ 60 million fund is used to underwrite the development of incubator and lab space. The state legislature created the fund in , with $ 30 million of state monies, and charged CI with its management. CI contributed an additional $ 10 million, using proceeds from its equity investments. Since then, the fund has committed more than $ 20 million to finance more than , square feet of laboratory and related space (Connecticut Innovations ). This particular fund was unique… In the late s most of the national and private investment in biotechnology did not provide funding for laboratory space. In many cases companies could enter incubators owned by local or national governments, but direct funding to build a laboratory was not available.

33The second state initiative to promote the Bioscience Cluster is the Office of Bioscience. With the second cluster bill in , the state of Connecticut allocated $ , to establish the Office of Bioscience within the Department of Economic and Community Development. The office has three employees, one of which is also working part time at the industry association, CURE (see below). The Office of Bioscience was built to support start-up and existing companies in the region, to provide all the necessary information on conducting business in Connecticut, to bring new and existing out-of-state companies to the region, and to represent the life science cluster of Connecticut in national and international events (interview with one of the office’s executives).

34Similar to Massachusetts, California, and North Carolina, Connecticut also provides tax incentives for the biotechnology industry (Mass Biotechnology Council (MBC) and Boston Consulting Group (BCG), ). These include the Biotechnology Tax Incentive Package that provides exemptions from sales, use and property taxes, and a fifteen-year carry forward R&D tax credit ; the Tax Credit Exchange in which eligible companies that cannot use their research and development tax credits can exchange them with the state for 65 % of their value ; and the Sales Tax Relief % and % exemptions are available on certain biotechnology industry materials, such as tools, fuels, equipment, and safety apparel.

35Besides the state initiatives, the industry created institutions to promote biotechnology. The main example is Connecticut United for Research Excellence (CURE), the industry association. CURE’s main activities are (a) lobbying for the interests of the bio-pharmaceutical industry, specifically seeking to preserve tax incentives for the industry at a time when the state is running a large budget deficit, and also working to develop a qualified labour force for the industry by creating certificate programs in local colleges ; (b) educating the public in general, and children in particular, on the science of biotechnology through the BIOBUS program, hoping to stimulate interest in studying and working in life sciences ; and (c) acting as a conduit for information needed by the industry (how to manage a laboratory, how to build an animal lab, etc.). Under CURE’s auspices, local firms’ top management, such as their Chief Executive Officers, Chief Financial Officers, and Public Affairs and Human Resource executives meet quarterly to share information on similar problems and solutions.

36Not all state assistance is directed towards R&D. Perhaps most important are safety and infrastructure concerns. The City of New Haven contributed to the development of the biotechnology industry by providing it with basic infrastructure and addressing safety concerns, such as streetlights and building sidewalks, especially in the area adjacent to Science Park on George Street, located in one of the neighbourhoods with the highest crime rates in the city.

The city administration is doing more than I expected. They support business. This area here was not a very good part of town, they renovated the area, put streetlights. We did not have a single incident of assault. The city government should take credit for that. The police force is very responsive (Interview with biotechnology executive).

37In summary, although Connecticut and the city of New Haven’s support for university-industry relationships in general and for the biotechnology industry in particular started only in the late s, the region has a wide net of support for economic development. This support by the federal and state government and industry is evident in tax incentives, new venture funding, lobbying groups, and policy-related logistical assistance. Much of this support is similar to national and regional efforts in Europe and other US states (Adelberger,  ; Mass Biotechnology Cluster (MBC) and Boston Consulting Group (BCG),  ; Breznitz and Anderson, ).

38Today, the New Haven biotechnology cluster has forty-nine companies, including twenty-four companies, or 49 %, which were created with technology, ideas, or founders from Yale and with the help of the OCR. A total of twenty Yale spinouts were established in New Haven after , the same year Yale started to implement its changes. The majority of the biotechnology companies in this area work in the human therapeutic sector (See figure 2). This could be directly related to Yale’s strength in life sciences and to the fact that 49 % of the New Haven cluster is based on Yale University spinouts. This includes companies working in more than one sector. The results, below, are based on the self-definition of fifteen companies interviewed within the cluster. The cluster employs directly 16, people. Most of the firms are small- to medium-sized, with less than 50 employees.

Figure 2 - The biotechnology cluster in the New Haven metropolitan area by sector

Source : Author.

Table 2 - The bioscience cluster by R&D expenses in Connecticut

Source : Cure,

III The Impact on the Local Pharmaceutical Companies

40The strength of the local biotech industry has changed the way existing pharmaceutical firms interact with other players in the region. The local pharmaceutical companies have significantly changed their behaviour and funding patterns, and give more weight to the local intellectual base. There are constant connections between local pharmaceuticals and the local universities and research institutes, cultivated by Yale’s OCR, CURE, and the Office of Bioscience. These connections include, but are not limited to, Yale and the University of Connecticut. Pfizer, for example, chose to utilize the local knowledge base by developing a direct relationship with Yale. Pfizer invested $ 35 million in a 60, square-foot clinical trial facility in downtown New Haven between Park and Howe Streets, on land which is owned by the state of Connecticut. Additionally, Bayer initiated a scholar’s program in , which appoints a faculty member each year as a fellow and works closely with Bayer.

III The Impact on Yale University

III The Impact on Yale Students and Faculty

43Faculty members interviewed at the Yale medical school explained the numerous benefits in having local biotechnology industry :

Now, for example, we have a company that is occupying some space in the lab… It is good to have them here, because you have interactions with them and transfer of expertise (Interview with a faculty member at Yale).

44Industry-university relationships allow scientific interactions, sponsorship of students, and access to expensive equipment not available at the university, and expose students to industrial practices. While working with companies has benefits for students and research, it has no bearing on faculty responsibilities, such as teaching, at the university. A faculty member who spins out a company, or provides consulting services, cannot reduce his or her teaching or administrative load.

No. [Founding a company] didn’t have any effect on my university responsibilities. In fact the opposite occurred [the university benefited], when getting money from the company to go on retreats, or to buy a new microscope or something, the company would be able to participate in those activities and use that equipment (Interview with a faculty member at Yale).

45Thus, the changes implemented at Yale did not change faculty responsibilities. However, the changes did contribute to university-industry relationships in the form of research grants and contracts, sponsorship of students, and access to industry equipment and experience.

III Impact on the Office of Cooperative Research

46Changes in the university also affected the Office of Cooperative Research. Today, the OCR employs eighteen people, each of whom has five to seven years of industry experience. The employee background at the Office of Cooperative Research had, and continues to have, a crucial role in the cooperative relationships between local faculty and industry.

Yes. I do believe that [the people working at the OCR have the skill and knowledge to assess my technology]. I don’t think there’s any question. And I think that communication problem has gotten much, much better. From my biased point of view, I think it’s enormously improved, and that they do a very good job at Yale (Interview with a faculty member at Yale).

47Not only does the Office have the staff and expertise, it also is engaged with firm creation to an unprecedented level. The office is involved in developing product scenarios, financial projections, and business strategies with the scientists. In many cases, the Office is actively involved in building the company, looking for the right management and investors who will succeed in taking Yale’s technology to the market.

48The level of university-industry involvement within the Office of Cooperative Research is considered extreme. Even MIT, which is considered the top university in university-industry relationships, is not as involved in the creation of companies (Breznitz, O’Shea et al., ).

49As can be seen in figure four, twenty-four, or 62 % of Yale’s thirty-nine biotechnology spinout companies chose to locate in the region. This suggests that Yale had a direct impact on the location choices made by spinouts. The wish to stay close to the university implies that companies positively view university research and resources.

Figure 3 - Yale University biotechnology spinouts,

Source : Author.

50This paper describes the development of the biotechnology industry in Connecticut. The surge of new business formation was a result of efforts lead by Yale University. In Yale was facing several obstacles : though a strong research university in life-sciences situated in a close proximity to many pharmaceutical companies, the university had almost no industry collaborations or technology commercialization. The university had a very low rate of patents and licenses compared to the amount of research funding, and by , compared to MIT that spun-out thirty companies, Yale spun-out only three. Moreover, the city of New Haven had become physically unsafe for Yale’s students and faculty. All of these obstacles were perceived by university administrators as threatening its capability to draw students and faculty to the university, i.e. threatening its eminence. Thus, the university decided to rebuild its technology transfer office, with an aim to commercialize Yale’s technology and contribute to local economic growth through the creation of companies and collaboration with the local industry. Furthermore, the university decided to invest in the city itself, i.e., investing in real-estate development of the university’s old buildings as well as the city’s downtown area, and assisting employees to purchase houses.

51Yale was not the only agent of change in New Haven. The state of Connecticut opened a venture capital firm to invest in IT and life science companies that were willing to build their company in Connecticut. Moreover, unlike many other venture capital firms, Connecticut Innovation was providing funding for facilities and equipment. The city of New Haven assisted in the logistics of building sidewalks and street lights. The industry itself provided a meeting place and networking channel for both pharmaceutical and biotechnology companies. The total efforts of the different players resulted in the creation of a biotechnology cluster, and the building of university-industry collaborations.

53In conclusion, this article’s contribution is in the weight it gives the role of the university in cluster development. Unlike other industrial districts, the development of the biotechnology industry in New Haven was lead by Yale University.