flexiblefullpage
billboard
interstitial1
catfish1
Currently Reading

Bigger is better for a maturing life sciences sector

Laboratories

Bigger is better for a maturing life sciences sector

CRB's latest report predicts more diversification and vertical integration in research and production.


By John Caulfield, Senior Editor | October 5, 2022
Rendering of Rhode Island Life Sciences Building
A rendering of a proposed life sciences building in Providence, R.I., that would house a new state health lab, lab space for Brown University, and leasable biotech space. Image: Rhode Island Department of Administration

“While the COVID-19 pandemic taught new lessons about the quick and safe delivery of critical vaccines, the global shock is only now being understood.” That’s the opening observation of the 98-page 2022 Life Sciences Report, published by the AC firm CRB and based on responses from nearly 500 industry leaders, which explores this industry sector’s R&D and growth strategies.

This is CRB’s third Horizons report, and its first to include Europe, where many of the industry’s leading organizations are paving the way through innovation, groundbreaking research, and new and dynamic ways of speeding therapies to patients.

CRB is seeing a rapidly maturing industry that’s in pursuit of more diversification. “The days of single-product specialization are receding,” the report states, as companies large and small are utilizing a wide array of tools to expand their pipeline and address diverse indications.

Nearly all respondents (90%) are developing and manufacturing multiple therapy modalities in a single building, or plan to do so in the future. And more than half of the respondents plans to rely on contract development and manufacturing organizations (CDMOs) over the next three years. “We’re seeing a rise in hybrid models—that is, owners who are offering their in-house manufacturing expertise for hire,” the report states.

As such, the nature of in-demand talent is changing, as companies mature towards more automated, AI-driven manufacturing models, with the traditional C-suite expanding to include roles previously unseen in this industry, such as “Chief Data Officer.”

 

Growth average targets for life Science firms
Life science researchers and clinicians are anticipating robust annual growth and laboratory expansion. Chart credit: CRB
​​​​​​
 

life science lab expansionCell therapies emerge as dynamic submarket

CRB divides its report into eight chapters, each with contextualized perspectives. Those chapters found that:

  • Since the pandemic, companies have adopted an optimistic but more cautious approach to ongoing research and discovery. That means carefully weighing risks and rewards of capital spending and pipeline expansion while continuously pushing for new and exciting discoveries.
  • Ribonucleic acid (RNA) technologies have catapulted into the spotlight because of COVID. In addition to preventing infectious diseases, these technologies—using non-coding and coding RNA—can be harnessed to treat other conditions, like cancer. When compared to other biologics, RNA technologies have the potential to increase speed to market, lower costs, and reduce regulatory requirements.

 

Cell therapy development
Cell therapies are expected to evolve into accessible and expected components of patient care.
 
  • More than 300 of this report’s respondents have cell therapies in their pipelines, creating one of the most dynamic—and challenging—submarkets. Researchers are leveraging standardized platforms to maximize the versatility and scalability of their processes, to where decentralized manufacturing will change the future of autologous production—“a future that will see cell therapies mature from our last line of defense to an accessible and expected level of patient care,” the report predicts.
  • Change is also accelerating for gene therapies. Most respondents said they plan to leap from the small-scale batches necessary for early clinical trials to much larger manufacturing volumes within just three years. Suspension cell cultures, sterile filtration, stable cell lines, and in-house plasmids manufacturing are attracting an enormous volume of R&D activity among both owners and contract manufacturing organizations (CMOs), as this race toward the commercial market heats up.

Modular design will facilitate expansion

 

Multiple therapies in single buildings
More companies are developing multiple therapies in single buildings.
 
  • Last year was a milestone year for therapeutic proteins, and not only because the U.S. Food and Drug Administration (FDA) approved the 100th antibody therapy on the market. The field of therapeutic proteins has come a long way—especially in the last few years wherein trends, technologies, and perceptions in the industry saw significant changes. Developers are strategizing for the future.
  • The tailwinds from COVID-19 treatment innovation have unleashed a new era for drug product manufacturing: one that is looking beyond rare disease markets and smaller patient populations to search for the next blockbuster drug; one that is engaging with drug product formulations that are becoming increasingly more complex; and one that readily embraces automation and online/inline monitoring technologies even at the clinical production operations level.

 

Targeting blockbuster products
Producers are taking bigger swings to develop the next blockbuster drug.
 
  • CRB’s experts are seeing an “encouraging evolution” in the journey to implementing all aspects of Pharma 4.0—shorthand for efficiencies through process visibility, faster decision making, and real-time system optimization—including smart end-user devices, advanced robotics, and digital twins. “We can see that in the abundance of recent acquisitions that have brought AI innovators into established life science companies,” the report states. But respondents remain sanguine about how to get there, knowing that budget constraints, organizational reluctance, and a lack of skilled labor might hold them back.
  • Most respondents plan to expand over the next five years, with some indicating an intent to establish a footprint in other countries. Optimizing capital and operations expenditure in these expansion efforts means standardizing operations between sites, expediting regulatory approvals, and remaining agile to demand for new modalities and technologies. Hence, CRB concludes, a case for modular design.

Related Stories

Laboratories | Jun 24, 2020

CDC set to build the most advanced high containment laboratory in the country

Flad Architects, Page Southerland Page, and WSP will plan, program, and design the HCCL.

University Buildings | Jun 3, 2020

Renovation can turn older university buildings into high-performing labs

David Miller of BSALifeStructures offers technical advice on renovation of college and university laboratories and scientific research facilities.

Giants 400 | Aug 13, 2019

2019 Science + Technology Giants Report: Operational flexibility is a must for S+T buildings

The science and technology (S+T) sector is arguably the industry’s most complex because it caters to a diverse clientele with specific priorities and imperatives, according to Building Design+Construction's 2019 Giants 300 Report.

Laboratories | May 21, 2019

Georgia Tech Research Institute adds 350,000 sf of specialized tech facilities

McCarthy Building Companies with Flad Architects acted as the design-build team.

Laboratories | Apr 23, 2019

Translational health science environments: 6 strategies for open innovation and knowledge transfer

Simply putting researchers and clinicians in the same building with hopes that serendipitous collaborations will ensue will often not yield the outcomes organizations seek.

Sustainable Design and Construction | Apr 9, 2019

One of the largest zero-carbon, net-zero buildings is rising in Spokane

Catalyst will be part of an innovation hub, with Eastern Washington University as its main tenant.

Laboratories | Apr 1, 2019

The Karolinska Institute’s new laboratory building

C.F. Møller Architects designed the building.

| Mar 21, 2019

Preserving Edison's "Corporate" R&D Lab in West Orange, N.J.

Report on Thomas Edison's West Orange, N.J., Laboratory.

Mixed-Use | Oct 25, 2018

Philadelphia’s uCity Square kicks off major expansion drive

This innovation center has several office, lab, and residential buildings in the works.

University Buildings | Jul 5, 2018

Brown University’s Engineering Research Center increases the university’s School of Engineering lab space by 30%

KieranTimberlake designed the facility and Shawmut Design and Construction was the general contractor.

boombox1
boombox2
native1

More In Category




halfpage1

Most Popular Content

  1. 2021 Giants 400 Report
  2. Top 150 Architecture Firms for 2019
  3. 13 projects that represent the future of affordable housing
  4. Sagrada Familia completion date pushed back due to coronavirus
  5. Top 160 Architecture Firms 2021