Hovione Cork

Manufacturing Plant

Unique combination of capacity and high-quality people.

The focus of the Hovione Cork site is Contract Development and Manufacturing offering both drug substance and particle engineering. The plant has been regularly inspected by the FDA and the Health Products Regulatory Authority (HPRA) (from a HSEE perspective the site has been regularly inspected by the local Health and Safety Authority and the Environmental Protection Agency).

The site prides itself on its project teams capability to deliver multiple projects with accelerated timelines.

“Hovione Cork is unique, it combines hard to find capacity and quality people”

US Biotech, West Coast

The site has extensive facilities for Drug Substance manufacturing with approximately 430 cubic meters of cGMP manufacturing capacity ranging in scale from 2.5m3 to 16m3 across two chemistry buildings. In addition, the site has both ultrafiltration and nanofiltration capabilities in both chemistry buildings. Equipment is flexible via manifold connectivity and multipurpose and the potential for up to 12 discrete process trains across two chemistry buildings with the potential for future expansion. The site has experience across a wide variety of chemistries.

The site houses one of the largest commercial pharmaceutical spray dryers available on the market, a Niro PSD5, which is particularly suited for large volume products, in addition to a PSD4 equipment train.

The site is expanding its offering and capabilities for process development and industrialization with the expansion of the Process R&D group in 2024. A highly potent small scale equipment facility to support clinical trial and Registration campaigns is also planned for the site. 

Areas of Focused Expertise

The site has leading capabilities and physical assets in the following areas:

  • Cryogenic (Volume 8000L to 10,000L, Temperature Range -100 to 120ºC)
  • Organometallic - Pyrophoric material handling (2 stations)
  • Ultra filtration (2 UF skids per building with 160m2 surface area per skid) and Nano filtration units
  • Large scale spray drying (PSD5 and PSD4)

For details about production equipment – click here

Operations

  • The Cork plant operates 24 hours a day 7 days a week.
  • Quality Control labs supports production 24 hours a day 7 days a week.
  • Plant maintenance shutdown period takes place for 2 to 3 weeks in August.

10 years in Cork, 60 years in the world

In 2019, Hovione celebrated its 10th anniversary at the Cork site in Ireland. Learn more.

Diversity, Equity & Inclusion

At Hovione we create a welcoming, diverse and inclusive environment, where everyone is valued and has the opportunity to thrive.

We are committed to a culture of respect, equity, and opportunity for all, regardless of background, identity or ability, ensuring every team member can be their whole self and make a meaningful contribution to Hovione and to Society.

A place where you can be yourself and feel a sense of belonging.

Our purpose is to create a workplace that reflects the rich diversity of our global community, where all individuals have equitable opportunities and supports to thrive, and where everyone is heard and respected.

Consistent with our DE&I and compensation strategies, the Hovione Ireland 2025 Gender Pay Gap report can be viewed here.

 

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News

The podcast "The Next Discovery" is a six-episode series created by Observador, a leading Portuguese digital newspaper and radio station, in partnership with Hovione. From particle engineering to global leadership in spray drying, discover the technology that enables oral medicines to be effectively absorbed by the body and help treat millions of people. What if some of the scientific breakthroughs that could improve the lives of millions of people were happening right now in Portugal? Welcome to "The Next Discovery. Listen to the third episode of the podcast here, featuring Filipe Gaspar, VP Technology Intensification, and José Luís Santos, Strategic Business Management Senior Director, at Hovione. [English transcription] Nelson Ferreira (NF): Welcome to The Next Discovery. This is a partnership between Rádio Observador and Hovione, a six-episode series in which we show how science developed in Portugal has a real impact around the world. I’m Nelson Ferreira, and in the last episode we explored how APIs—the active pharmaceutical ingredients in medicines—are produced. Today, we move to the next stage: how do we transform that chemical powder into a medicine that our bodies can actually absorb? To help explain this science, I’m joined by Filipe Gaspar and José Luís Santos, who were involved in the creation and development of Hovione’s particle engineering division. Welcome to you both. Filipe, let me start with you. NF: When we hear about a new medicine, we usually think about the molecule that was discovered. But why isn’t that discovery alone enough? What exactly is particle engineering, and what role does it play in turning a promising molecule into a medicine that is truly effective? Filipe Gaspar (FG): Nelson, the active ingredients in many modern medicines are not effective in the form in which they are produced through chemical or biological processes. To work properly in the body, they need to undergo additional transformations. For example, some medicines must be protected from the acidity of the stomach so they can later be released in the intestine, where the environment is less acidic and absorption into the bloodstream can occur. Others require very specific particle sizes. This is the case with inhalation powders, often used to treat asthma or chronic bronchitis. If the particles are too large, they become trapped in the upper airways and never reach the alveoli, where they need to be absorbed. On the other hand, if they are too small, they may simply be exhaled before absorption occurs. Finding the right particle size is therefore essential to ensuring an effective treatment. Another remarkable example is modern oral medicines, which often need to be converted into a different form—the amorphous form—so that the body can absorb them properly. Particle engineering makes all of this possible, overcoming many of these limitations by improving drug absorption, distribution, and therapeutic effectiveness. NF: I believe that in 2003 Hovione made a bold decision and invested in spray drying technology. José, for our listeners, could you explain in simple terms what this technology is, what problem it solves, and why it was so revolutionary at the time? José Luís Santos (JLS): First, it’s worth noting that spray drying has been used for decades in other industries. Think, for example, about powdered milk, instant coffee, or the powdered detergent we use in our washing machines. In all these cases, we start with a liquid—milk, coffee, or a soap-based paste—and transform it into a very fine powder that dissolves almost instantly when mixed with water. This transformation is achieved through spray drying. To explain it simply, imagine a very large chamber, something like a giant hair dryer. Inside, the liquid we want to dry is converted into a spray—a kind of mist—creating extremely small droplets. These microscopic droplets are then dried very rapidly using hot gas inside that giant dryer. In just milliseconds, the liquid evaporates, leaving behind a powder made of tiny particles with properties that, as Filipe mentioned, make them highly soluble. The powders we produce in the pharmaceutical industry are physically similar to powdered milk, instant coffee, or powdered detergent. Now, why was this technology revolutionary for pharmaceuticals? Just as spray drying made it possible to preserve milk for months without refrigeration or gave us coffee that can be prepared in seconds, pharmaceutical spray drying made it possible to create medicines with improved therapeutic effectiveness because they became more soluble. Without access to spray drying technology, many of these medicines would simply not have had a viable path to reach the market and ultimately patients. NF: Filipe, we now have a better understanding of what happens in the factory, but I’m curious about what happens inside a patient’s body. Can you give us some concrete examples? What happens when a molecule looks promising in the laboratory, but the body cannot absorb it effectively? FG: Of course. As surprising as it may sound, most medicines taken orally—tablets and capsules—are actually less soluble in water than glass or marble. Since our gastric and intestinal fluids consist primarily of water, these medicines, in their original crystalline form, dissolve very poorly and can pass through the digestive system without being absorbed into the bloodstream. That would make them completely ineffective. Spray drying solves this problem by transforming them into an amorphous form that dissolves much more easily and can be absorbed by the body. A simple analogy would be to compare an ice cube with snow. Both are solid water, but snow melts much faster because of its structure. Spray drying applies a similar principle to medicines, significantly enhancing their ability to dissolve and be absorbed. NF: José Luís, some of this may sound very technical to our listeners, but the outcome is ultimately that people live longer and healthier lives because of these technologies. Are there concrete examples of medicines that only reached the market and patients because of this technology? JLS: Absolutely. One of the most significant examples involving Hovione was the COVID-19 treatment effort. Hovione participated in the production of Captisol, a compound that was essential in the manufacture of Remdesivir, Gilead’s antiviral medicine, which became one of the few treatments authorized for COVID-19. Another important example is the treatment of hepatitis C. Around 10 to 12 years ago, the disease was virtually eradicated in many parts of the world thanks to new medicines whose manufacturing processes relied on spray drying technology. This enabled those therapies to achieve the solubility and therapeutic effect required. These are just two examples. At Hovione—and across the industry—we are working with a growing number of medicines, including treatments for oncology, cystic fibrosis, and many other diseases that benefit from spray drying technology and the advantages it offers. NF: From what I understand, this technology will continue to play an important role in future discoveries as well. Filipe, when Hovione invested in spray drying, it was a technology that was almost inaccessible and rarely used in the pharmaceutical industry. What did Hovione see that others didn’t? And how did what seemed like a risky bet eventually position the company as a global leader in this field? FG: When we invested in the technology in 2003, we had already identified one or two opportunities. As you said, it was a technology that was practically nonexistent among companies like Hovione that provide services to the pharmaceutical industry. We decided to invest before there was established market demand, which meant taking a significant risk. We were talking about many millions of euros—the cost of an industrial-scale spray dryer. Afterward, we actively developed the market. The demand we saw, particularly the need to improve the bioavailability of oral medicines, confirmed our highest expectations. We have made—and continue to make—ongoing investments in science, technology, and industrial capacity. Over the years, these investments have consolidated Hovione’s position as a global reference in spray drying. Now, we must continue innovating to maintain that position. NF: Based on the examples we’ve been hearing, that doesn’t seem likely to be a problem for Hovione. We also know that innovation doesn’t happen in isolation. Spray drying appears to be another example of that. Hovione seems to have strong ties with academia and universities through master’s and doctoral programs conducted in industrial settings. Is this collaboration the secret to staying at the forefront? JLS: Yes. Our connection with academia has always been very important and continues to be so. Today, we have more than 300 people working in research and development roles, and we maintain strong ties with the academic community. Hovione is one of the largest private employers of PhDs in Portugal, with approximately 120 PhDs on staff, and we actively promote projects in partnership with universities and research centers. FG: I would also like to mention the Hovione Research Program. NF: What is that? FG: It is Hovione’s research program. It is a collaborative initiative with Portuguese academic institutions and has been active for more than 15 years. To give you an idea, at any given time we typically have around 10 PhD candidates and between 20 and 30 master’s students conducting their work in an industrial environment simultaneously. Most of these researchers end up joining Hovione after completing their studies, integrating into the same areas in which they carried out their research. They are a reflection of this collaboration with academia, which has been a key driver not only of our ability to innovate but also of our capacity to attract and retain highly qualified talent. NF: Filipe Gaspar and José Luís Santos, thank you both for showing us that behind every medicine there is an enormous amount of science, innovation, and talent. And often it is invisible technologies—such as the spray drying technology we discussed in greater detail today—that make a difference in the lives of millions of people. This concludes the third episode of The Next Discovery. Next week, we take the next step and discover how Hovione challenged industry tradition by introducing continuous tablet manufacturing. You can listen to the next episodes on observador.pt and on your usual podcast platform. See you at the next discovery.    

Article

Podcast “The Next Discovery” (EP3) - Particles that change lives

Jul 02, 2026

The podcast "The Next Discovery" is a six-episode series created by Observador, a leading Portuguese digital newspaper and radio station, in partnership with Hovione. From hard-to-produce antibiotics to innovative therapies, Hovione uses complex and sustainable chemistry to bring safe medicines to patients around the world. What if some of the scientific discoveries that could improve the lives of millions of people were happening right now in Portugal? “The Next Discovery.” Listen to the second episode of the podcast here, featuring Rui Loureiro, scientist at Hovione. [English transcription] From hard-to-produce antibiotics to innovative therapies, Hovione uses complex and sustainable chemistry to bring safe medicines to patients around the world. What if some of the scientific discoveries that could improve the lives of millions of people were happening right now in Portugal? “The Next Discovery.” Nelson Ferreira (NF): Welcome to the podcast “The Next Discovery.” This is a partnership between Rádio Observador and Hovione—a six-episode series where we open the doors of a Portuguese-founded multinational pharmaceutical company to share real stories of science, innovation, and global impact. I am Nelson Ferreira, and in the first episode we explored the story of the basement where it all began more than 65 years ago. Today, we will understand what happens inside this company. We will talk about complex chemistry, because that is where the journey of many medicines that pass through Hovione begins. We will discover how laboratory science becomes industrial processes, how sustainability is part of this transformation, and how all of this contributes to producing medicines that truly help improve and save lives. To guide us on this journey, I am joined today by Rui Loureiro, a scientist at Hovione’s Research and Development Center. Hello, Rui. Welcome to Rádio Observador. NF: Rui, most people may never have heard of Hovione, but they may be taking a medicine where Hovione played an important role. Where exactly do you fit into this long journey that takes a medicine to the patient? Rui Loureiro (RL): Hello, Nelson, good morning—and thank you for the question. The path for a medicine to reach a patient is long. It starts with producing a very small amount of a drug, which through development eventually needs to be produced in kilograms. Let me give an example. Imagine baking cookies. When you buy cookies at the supermarket, someone first made the initial batch at home—but then they needed a partner to scale those cookies to an industrial level. NF: A factory, exactly. RL: Exactly. That is where Hovione comes in. We are that partner for the pharmaceutical industry—helping turn one cookie into many cookies that eventually reach patients. NF: For those listening who are not familiar with this field, people often talk about APIs in the pharmaceutical industry. I had to look it up myself. What is it, and why has Hovione focused so much on it since early on? RL: API can mean different things depending on the field—for example, in IT it means something entirely different. In the pharmaceutical industry, API stands for Active Pharmaceutical Ingredient. In Portuguese, princípio ativo—the component that treats or cures the disease. Using the cookie analogy again: a chocolate cookie has many ingredients—but the chocolate is what defines it. The API is exactly that in a medicine: a small but essential part that delivers the therapeutic effect. Even though tablets contain multiple substances, producing something like a 10 mg tablet of the active ingredient alone is difficult—so other components are added to create the final form. NF: Over many years, Hovione also specialized in complex generics. How did that experience help you move into working with companies developing entirely new medicines? RL: That was a very important step. Developing complex generics means the chemistry required is challenging—it may involve very low temperatures or tightly controlled conditions to ensure we produce the desired result and not something unwanted. Those early capabilities—developing antibiotics and other materials—led the market to recognize Hovione’s expertise. Ultimately, chemistry involves combining building blocks. If someone proves they can assemble the most complex ones, the industry will take notice. That is how we became recognized as a trusted partner for complex pharmaceuticals. NF: I am curious about this idea of “complex chemistry.” You often compare chemistry to cooking—what distinguishes traditional chemistry from the complex chemistry you do at Hovione? RL: Let me simplify for clarity. Complex chemistry depends on the reagents and solvents used. The starting materials may be difficult to transform and may require very specific conditions. The resulting product may also be unstable and require careful handling. Using cooking as an analogy: simple chemistry is like making jelly—you mix powder with hot water and let it set. Complex chemistry is more like making ice cream—it involves a more intricate process, and many people prefer to leave it to specialists. NF: Another fascinating challenge: in the lab, you work at milligram or gram scale, but factories must produce tons. How do you scale from a teaspoon to a truckload without ruining the recipe? RL: That is indeed our biggest daily challenge. Scaling up requires understanding every variable in the process. Going from a small kitchen setup to industrial production is not just about bigger equipment—it requires entirely different systems and expertise. We work with multidisciplinary teams—chemists, engineers, analytical specialists—to control every variable that affects product quality. In a typical GMP (Good Manufacturing Practice) process, there are 4–5 main steps. And across those steps, we may need to control around 350 variables to ensure the final product meets quality standards for patients. NF: When people think of chemistry, they often think of something negative. But Hovione has been developing more sustainable approaches. What does sustainable chemistry mean in practice? RL: Sustainability is a daily priority. We design processes with sustainability in mind from the very beginning. We follow green chemistry principles—avoiding harmful reagents whenever possible. And when that is not possible, we apply the “four Rs”: reduce, reuse, recycle, and recover. For example, just as the paint industry moved from solvent-based to water-based systems, we are also moving toward chemistry in water. This reduces the carbon footprint of our processes. We are also exploring micellar chemistry, flow chemistry, and even reactions without solvents at all—similar to grinding ingredients together with a mortar and pestle. These approaches help reduce waste and improve efficiency. NF: Looking to the future—will chemistry remain our best tool to save lives, and in a more sustainable way? RL: Absolutely. That is what motivates me every day. Artificial intelligence is already helping identify targets and design molecules—but those molecules still need to be produced. That is where chemistry remains essential. It is the foundation for creating and improving medicines. Innovation and sustainability will go hand in hand—and that is the path we are committed to. NF: Rui Loureiro, thank you for helping simplify chemistry and for showing this more sustainable side of science. This was the second episode of “The Next Discovery.” In the coming weeks, we will continue exploring this world. In the next episode, we will look at the future of particle engineering.   You can listen to the next episodes on observador.pt and on your usual podcast platform. See you at the next discovery.      

Article

Podcast “The Next Discovery” (EP2) - Complex chemistry, real impact

Jun 25, 2026

Hovione is bringing momentum to the intranasal field after announcing that its lead single-use nasal dry powder device, developed in collaboration with Industrial Design Consultancy Ltd (IDC), is now available for commercial partnerships. The milestone marks the transition from prototype to a fully integrated intranasal drug delivery platform that spans Hovione’s end-to-end partnership capabilities–from API synthesis through advanced formulation and particle engineering to drug product manufacturing, including device supply and advanced analytical tools for nasal performance characterization. The platform’s single-use device is designed to be manufacturable at scale and to leverage existing advanced particle engineering and drug product manufacturing capabilities, a practical advantage that can shorten timelines to clinic and commercialization while reducing development risk and cost. The device’s patented mechanism supports targeted nasal deposition, including access to the upper olfactory region. This enables rapid systemic absorption and potential nose-to-brain delivery pathways that are increasingly important for CNS and emergency-use indications. Beyond the single-use format, Hovione and IDC are advancing a multi-dose variant to broaden applicability across dosing regimens and therapeutic areas. The collaboration is backed by an intellectual property portfolio and initial patent grants, positioning the platform as a turnkey option for pharma partners seeking a single integrated supplier for both drug substance and device. This development arrives as intranasal delivery gains traction for systemic, CNS and rapid-onset therapies. This is precisely the focus of the upcoming 4th Nasal Formulation & Delivery Summit, for which Hovione is a key sponsor. The annual summit unites formulation, delivery and product development leaders to tackle drug-device compatibility, translational preclinical models, and strategies for scalable, regulatory-ready intranasal programs. Hovione’s recent progress will be highly relevant to attendees looking to de-risk nose-to-brain and systemic intranasal programs. Read the full article at News-Medical.net    

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Hovione advances intranasal drug delivery with commercial-ready dry powder platform ahead of 4th Nasal Formulation & Delivery Summit

Jun 01, 2026

Integrated approach simplifies development, reduces risk, and supports scalable manufacturing. Hovione and Industrial Design Consultancy Ltd.’s (IDC) lead single-use nasal dry powder device is now available for commercial partnerships. Hovione and IDC have completed the device design and established initial device manufacturing and supply capability, enabling pharmaceutical partners to leverage existing capsule filling infrastructure. This approach simplifies development, reduces cost and risk, and helps shorten timelines to the clinic and commercialization. “This milestone marks an important step in the evolution of our collaboration with IDC — from device innovation to a fully integrated intranasal drug delivery platform,” said Márcio Temtem, Ph.D., Vice President, Strategic Business Management, Hovione. “As the industry looks for faster, more reliable ways to bring complex therapies to patients, integration becomes critical. By bringing together nasal particle engineering science, formulation manufacturing and filling, and device technologies into a single offering, we enable a more seamless and predictable development journey, accelerating the path to market for intranasal therapies.” The nasal delivery device enables broad and targeted nasal deposition flexibility while delivering maximum usability and reliability. With a patented design and manufacturing process established, the platform is available for partnering with pharmaceutical companies on an exclusive basis as part of Hovione’s integrated offering for inhalation and nasal drug development and manufacturing. Additionally, IDC’s Managing Director, Stephen Knowles Ph.D., said the companies are now “well-advanced” with the development of a multi-use device to support an even wider range of therapies and patient needs. Read the full article at ContractPharma.com    

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Hovione, IDC Launch Intranasal Drug Delivery Platform

May 07, 2026

The CDMO is preparing for its New Jersey facility to become fully operational this year. Hovione’s multimillion-dollar investment in expanding its East Windsor, NJ manufacturing site is quickly coming to fruition. Contract Pharma will be visiting the site later in April 2026 to provide a unique overview of what’s new. As a preview, the Contract Pharma team met with Hovione at the Drug, Chemical & Associated Technologies Association (DCAT) Week. David Basile, Vice President of Technical Operations—Americas, spoke at the opening Member Company Announcement Forum on March 23, 2026. In this interview, Basile expands on his remarks at the Announcement Forum. As he explains, Hovione is concentrating not only on New Jersey, but also on facilities in Ireland and Portugal. Contract Pharma: Good manufacturing practice (GMP) operations will soon be fully operational at the New Jersey facility. How has Hovione progressed through this process since the initial investment cycle was announced last fall—or even prior? David Basile: It’s been a really great journey and evolution over the last two to three years, conceiving the plan to grow our U.S. footprint. It was one of the reasons I came aboard with Hovione, to grow that footprint and build our commercial manufacturing prowess in the States. In New Jersey, we had originated [the site] as a tech transfer center. [But] we wanted to grow the organization to be more equivalent with our Portugal and Ireland sites, to do more large-scale manufacturing. So, this is part of that journey. And that’s not just bricks-and-mortar and machinery. It’s been people, talent, partnerships with clients, supporting functions such as QC [quality control] and analytical development. We’re growing our R&D teams as well. It’s a comprehensive approach to systems, people, and processes. CP: At the Member Company Announcement Forum, you ran through some of the major technical specifications of the NJ expansion. Can you talk about a few of the highlights and their capabilities? Basile: This year we’ll be starting up two PSD-3 scale spray dryers. This is a useful scale of machinery for our clients. It plays nicely between the PSD-2 and PSD-4 scales that we have elsewhere in the network. I’d say it’s medium-to-large scale capacity; we could do 30 metric tons annually out of this type of a unit. Product to product, that differs, but we do have products that put that kind of volume out in a PSD-3, so it’s not small-scale. Customers want to hear this because [they want to gain] efficiency with their batch size, and turnaround time. And when we campaign, we can really see significant throughput with this line up of new machinery and assets. The first machine that we will start up is a Hastelloy unit, which is unique. We took a pause [in the construction timeline] to make that upgrade, as we had a client that needed this configuration. There are additional clients that are interested in it too, because you can do acidic solutions and more aggressive kinds of formulations as well as solvent-based formulations. So that’s a unique element of that first machine. The second machine is being qualified later this year. Kind of a twin, but this one is standard 316 stainless steel.  CP: When a company brings a new or expanded facility online, new personnel often accompanies the new tech. What is the workforce addition that you expect, and what are the challenges of retaining top talent? Basile: In preparation for commissioning and startup of this new equipment, we’ve already ramped our headcount up, to be ready for GMP launch. We’ve added roughly 20 employees in preparation for this first machine to go [live]. Over the next 18-plus months, we could see something on a similar scale, getting us up to that 40–50 headcount range for that facility once it’s fully operational—and more later on in 2028, when we bring in the CDC [continuous direct compression] Flex unit. That’s what’s really going to be transformative about this new facility: that integrated offering coming to life. CP: Even if the NJ facility is top of mind right now, let’s also touch on some of your plans in Europe. What is your vision for expanding in Europe in the next two to three years? Basile: Ideally, Hovione’s aim is to build an equivalent manufacturing network, where clients can go to any site across the globe and get a similar breadth and scale of offering. We’re doing that now in Ireland, expanding our PSD-4 scale spray drying. One unit was recently installed. Late last year, it went live. Then there’s at least one other new PSD-4 in motion, which is really exciting, because [spray dryers] at this site were historically [exclusive to] larger chemistry manufacturing for API [active pharmaceutical ingredient] synthesis. So now, they’re further building their muscle with additional large scale spray drying capacity. On the Portugal side, there’s a lot of great things going on. Our Tejo campus, in Seixal, Portugal, is a massive, 4.5-million-square-foot plot of land, and there’s a new, modular facility going up there. It’s incredibly exciting. The design of the facility has been well-thought through with material flows [and] gravity-fed processes. Here, we minimize handling and [maximize] speed of processing. It’s scalable. We call each one of these building segments a finger. You can copy and paste these fingers, and they are built to house both spray drying and drug product assets within each unit. So, why is that relevant? Because we can easily scale the number of fingers. When customers say, “we need more capacity,” we have the design on the table ready to go. We know how to execute, we know how to build and implement our technology platforms in a short timeframe. Deployment timeframes are truly becoming more and more relevant to our clients. CP: From last year’s DCAT Week to this year’s, what conversations are you having with industry colleagues about ever-changing geopolitics? Basile: We’re seeing that local, regional manufacturing capacity is vital. The concept of U.S. for U.S. and China for China seems to be a common theme that our clients are talking about. We happen to have an edge, as we [have already] started our journey of expanding our domestic U.S. capacity. So I think that’s a crucial piece to the puzzle, having dual-sided Atlantic manufacturing operations. The traditional global supply chain model is being challenged. Having soup-to-nuts sites that are fully autonomous in development, scale-up, tech transfer, all the way to commercial scale operation, is vital to Hovione, and how we’re protecting our supply chain. [Concerning] starting raw materials and Tier 2 suppliers, our procurement teams are out in the market making sure that there’s no single point of failure for critical materials [like] polymers and solvents that we utilize. We’re managing and mitigating risk by looking at those secondary suppliers across different geographies. CP: Encapsulating your planned expansions on both sides of the Atlantic, how would you sum up the value to the customer? Basile: It’s about speed-to-market. It’s one partner from early-phase development, clinical scale, all the way through commercial. They gain comfort, trust, and not just capacity and equipment time; it’s also about competency and depth of scientific expertise. We’re not just a traditional CDMO. There’s unique expertise in particle science and spray dried dispersions that we offer our clients that they don’t have. [With] traditional CDMOs, customers typically pay for time in [a particular] unit, for example, they’d say: “I need a machine, and I need [it for] three weeks.” Hovione is truly a partner to our clients. They’re leveraging our platforms, our know-how in spray drying, and our know-how in equipment design. Read the article at ContractPharma.com  

Article

Hovione Eyeing Manufacturing Expansion on Both Sides of Atlantic

Apr 06, 2026

With key expansions coming to fruition on either side of the pond, specialist CDMO Hovione is making sure that drugmakers can access its particle engineering expertise across multiple geographies.  That flexibility will be key for the Portugal-based company in the coming years as the pharmaceutical industry continues to embrace more regional supply chains. In a recent interview, Hovione's David Basile, VP of technical operations for the Americas, discussed this trend and the manufacturer's expansion project, which is set to come online in New Jersey next month.  In the coming weeks, Hovione plans to debut a new spray drying expansion at its campus in East Windsor, New Jersey. The company has invested $100 million to expand its campus, including new construction and the acquisition of an additional facility and greenfield land.  Specifically, one of two pharmaceutical spray drying-3 units, or PSD-3 units, will come online in the coming weeks to tackle amorphous active pharmaceutical ingredients (APIs) and amorphous solid dispersions, according to the company. With some 80% of new small molecules in development insoluble in water, Hovione’s particle engineering and amorphous solid dispersion platform helps medicine developers improve the solubility, bioavailability, and, in some cases, the stability of their drug candidates, Basile said.  The company boasts spray dryers from the lab scale to PSD3 at its original facility in East Windsor, in addition to the pair of large-scale machines about to be activated at the campus' new facility.  “We’re going for a single, unified site with capabilities across the campus to do drug substance through finished drug product under one governance and quality system,” - Basile told Fierce.   Read the full article at FiercePharma.com

Article

As expansions come online, CDMO Hovione aims to meet industry's 'dual supply and sourcing' zeal: exec

Mar 26, 2026

Márcio Temtem, vice president, Strategic Business Management, Hovione, addresses molecule complexity, speed, and regionalization via integrated manufacturing. The landscape of small molecule manufacturing is rapidly evolving, according to Márcio Temtem, vice president, Strategic Business Development, Hovione, who provides an expert look into how his firm is evolving their approach as the industry changes. With 17 years of experience at Hovione, a family-owned CDMO with a 66-year legacy, Temtem identifies three pivotal trends currently shaping the industry: increased complexity, accelerated development speed, and the regionalization of supply chains. Temtem observes that small molecules have grown significantly in size and complexity, often requiring multiple chemical steps and high-potency handling. This shift necessitates a specialized "toolbox" to overcome modern bioavailability challenges. Highlighting Hovione's technical approach to these hurdles, Temtem states, "We use a platform called amorphous solid dispersions, produced by spray drying to address this challenge of bioavailability.” This platform represents a core area in which Hovione maintains global leadership, utilizing innovative tools to scale processes efficiently while minimizing the use of APIs. Temtem also mentions the increased influence of AI in drug discovery and deployment, which requires CDMOs to bridge the gap from grams to tons at a much faster pace than in previous years. He further addresses the trend of regionalization, noting the rise of countries such as the US and China prioritizing regional supply chain strategies. He explains that Hovione is uniquely positioned to navigate these new challenges with supply chains through its FDA-inspected sites across three continents. Central to Hovione’s competitive advantage is their integrated manufacturing offer, which combines drug substance and drug product expertise at a single location. Temtem emphasizes the value of this model, stating, “The company… has been investing in an integrated offer, bridging the problems of chemists and formulators all at the same shop.” To support this integration, the company continues to pioneer advanced manufacturing avenues, including continuous flow for drug substances and continuous tableting for drug products. Watch the full video interview or read the transcript at PharmTech.com  

Article

Hovione’s Strategy for Complexity, Speed, and Regional Supply Chains

Feb 06, 2026

Márcio Temtem, vice president, Strategic Business Management, Hovione, addresses molecule complexity, speed, and regionalization via integrated manufacturing. The landscape of small molecule manufacturing is rapidly evolving, according to Márcio Temtem, vice president, Strategic Business Development, Hovione, who provides an expert look into how his firm is evolving their approach as the industry changes. With 17 years of experience at Hovione, a family-owned CDMO with a 66-year legacy, Temtem identifies three pivotal trends currently shaping the industry: increased complexity, accelerated development speed, and the regionalization of supply chains. Temtem observes that small molecules have grown significantly in size and complexity, often requiring multiple chemical steps and high-potency handling. This shift necessitates a specialized "toolbox" to overcome modern bioavailability challenges. Highlighting Hovione's technical approach to these hurdles, Temtem states, "We use a platform called amorphous solid dispersions, produced by spray drying to address this challenge of bioavailability.” This platform represents a core area in which Hovione maintains global leadership, utilizing innovative tools to scale processes efficiently while minimizing the use of APIs. Temtem also mentions the increased influence of AI in drug discovery and deployment, which requires CDMOs to bridge the gap from grams to tons at a much faster pace than in previous years. He further addresses the trend of regionalization, noting the rise of countries such as the US and China prioritizing regional supply chain strategies. He explains that Hovione is uniquely positioned to navigate these new challenges with supply chains through its FDA-inspected sites across three continents. Central to Hovione’s competitive advantage is their integrated manufacturing offer, which combines drug substance and drug product expertise at a single location. Temtem emphasizes the value of this model, stating, “The company… has been investing in an integrated offer, bridging the problems of chemists and formulators all at the same shop.” To support this integration, the company continues to pioneer advanced manufacturing avenues, including continuous flow for drug substances and continuous tableting for drug products. Watch the full video interview or read the transcript at PharmTech.com  

Article

Hovione’s Strategy for Complexity, Speed, and Regional Supply Chains

Feb 06, 2026
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