Related Expertise: 医薬品, 医療機器・メディカルテクノロジー, サプライチェーン・マネジメント
By Megan DeFauw, Shana Topp, Bryan Head, Ben Aylor, and Aaron Snyder
As the COVID-19 pandemic has made all too clear, today’s biopharmaceutical and medical technology supply chains are extremely susceptible to economic shocks. The pandemic’s impacts have made it difficult for many companies—both manufacturers of COVID-19 medicines or personal protective equipment (PPE) and producers of other essential medical products—to maintain an adequate supply. Compounding these challenges, some governments are thinking about taking steps to shore up their supply of critical products for their own populations.
To safeguard their supply networks, companies need to adopt new ways of thinking about supply chain resilience and incorporate them into their network strategy. It will be especially important to set and measure resilience targets, determine what changes are needed to meet them, and weigh the tradeoffs.
Today’s biopharma and medtech supply chains took shape during an unprecedented era of globalization. As a result of tax policies, pricing pressures, the maturation of contract manufacturing organizations (CMOs), and the increasing availability of skilled talent in emerging economies, companies developed highly complex supply networks with a high volume of cross-regional trade. (See Exhibit 1).
Today, these supply chains rely far more heavily on suppliers in emerging economies than in the past. However, as they have become largely optimized for cost, invested Capex, and product quality, they have also become increasingly vulnerable to disruptions.
Supply Chain Vulnerability. When COVID-19 hit, manufacturers and their suppliers were immediately affected. The first biopharma product shortage attributable to the pandemic was reported to the FDA in late February 2020, at about the same time as the first non-travel US case was confirmed.
As the crisis escalated over the next few months and demand for certain medicines and medtech products—particularly PPE and ventilators—rose, stockouts became an issue. Some companies relied on careful allocation and daily sales and operations execution reviews to get products to the patients and health care workers who needed them. Others were forced to dip heavily into inventories because key suppliers, especially those from China, were unable to produce or ship for many weeks.
Protectionist Policies. Complicating network decisions further, many governments are now considering enacting policies to ensure that a sufficient supply of critical medicines and medical products is available locally. So far, no government has enacted blanket policies in response to COVID-19 that would require health care companies to drastically rework their manufacturing networks—and such moves remain highly unlikely. But policies that encourage the local production of specific medicines or medical products are already in the works. This could alter the optimal supply chain configurations for some companies, particularly those that manufacture essential products.
The US government, for example, has provided loans and subsidies for the domestic manufacture of essential medicines; in addition, the recent “Buy American” executive order has the potential to significantly increase inshoring and investments in US manufacturing. The European Commission is also reviewing potential legal changes with an eye toward improving supply chain resilience. (See Exhibit 2.)
In the face of these unknowns, biopharma and medtech companies need to revisit their network strategies—not just the typical periodic refreshing, but a reassessment that focuses on building resilience. We recommend incorporating the following practices.
Determine resilience targets. Companies should first determine which key performance indicators are most relevant in measuring resilience and then evaluate each product in their portfolio accordingly. Days of inventory on hand and the availability of backup supply might be the metrics of choice for a biopharma company that produces oncology medications, while the mix of insourcing and outsourcing might be important for a medtech company that manufactures test kits.
Evaluate performance and assess risks. Once these resilience objectives are clear, firms should evaluate each product or product segment to determine if it currently meets the established targets. Any products or segments that fall short need to be assessed in detail, taking two factors into account. The first is impetus to change—the company’s incentive to adapt, driven by the likelihood and magnitude of risk that network disruptions pose to supply. The second factor is the ease of adjustment, a measure of difficulty in reshaping supply chains that is based on cost, lead time, or other barriers.
Taken together, the impetus to change and ease of adjustment provide a good sense of the types of adjustments companies should make to improve the resilience of any given supply chain.
The supply chains of different product segments fall into four basic “response” categories based on the amount of risk and effort involved. (See Exhibit 3.) Companies should focus their attention on the segments where the risk is high.
It’s important to note that while generalizations can be made based on product type, companies should use the specifics of their own product portfolio and supply chains to develop a custom version of this matrix. They should then focus on addressing the two high-impetus categories. While the actions required will likely vary from firm to firm, they may vary even within a given firm. That’s because the inherent risk and risk tolerance could differ from supply chain to supply chain.
Evaluate supply chain design options. To evaluate the potential options they’ve uncovered, companies need to model their networks in both the current and potential new configurations to see how they perform under different conditions.
Both day-to-day operations and several stress-inducing events, including ones with potentially extreme impacts, should be considered. Many different types of stresses should be modeled—from legislation that incentivizes local production of a particular product to a key contract manufacturer going out of business. Digital network optimization tools (such as digital twins) can be used to simplify this step and simultaneously evaluate performance on additional metrics such as cost, supply, and resilience.
Build a resilience roadmap. Understanding multiple risk-based scenarios can help companies determine the most appropriate levers for both mitigating supply chain risks and responding to disruptions when they occur. The option set should include revising inventory and distribution strategies, diversifying the supplier base, moving production steps across internal sites, and leveraging CMOs with sophisticated manufacturing processes.
Companies should aim to assess each action on its potential value relative to its cost. Each decision should be made not in a silo but as part of an optimized portfolio of actions, with the particular product type, characteristics of the existing supply network, and level of risk tolerance taken into account. (See “One Biopharma Company’s Resilience Strategy.”)
The degree of change required will vary based on a firm’s starting point. For example, companies that already have strategically qualified suppliers in different geographic regions may be better positioned to quickly respond to supply disruptions, while companies with a supplier base concentrated in one region may face a longer road to resiliency.
Regardless of the changes that companies decide to make to their structural network, building capabilities in three related areas can supplement these efforts.
Create E2E supply chain transparency. Real-time visibility across the full supply chain at an adequate level of granularity is critical for a robust view of supply risk. Today, many companies do not provide the level of visibility needed by decision makers and many are lagging in developing control tower capabilities. Creating supply dashboards will provide a real-time view of the physical flows from tier 1, 2, and 3 suppliers and across internal networks. Optimally, it’s also possible to get information on supplier inventories and manufacturing performance. Original equipment manufacturers can use this level of detail to proactively change where they source materials and potentially shift between internal and external manufacturing sites where feasible.
Boost regulatory insights and involvement. Biopharma and medtech companies operate in a highly regulated environment where the impact of new legislation may have long-term consequences. As a starting point, companies should incorporate current and potential regulatory changes into scenario planning. Going a step further, they can proactively participate in, and potentially influence, regulatory discussions that could affect their supply chains. For example, companies can respond to “public notice and comment” periods and provide data-based perspectives on the feasibility of proposed regulatory changes and their potential impact on the industry and patients. Such actions can go a long way toward building understanding of the enormous complexity of health care supply chains.
Upskill the workforce. Key supply chain personnel—including demand and supply planners, manufacturing line schedulers, long-term network capacity planning, and procurement managers—need to understand the potential impacts of different types of supply shocks so they can develop agile response plans when a crisis occurs.
The COVID-19 pandemic has highlighted the supply chain vulnerabilities that biopharma and medtech companies face today. But it’s unlikely to be the last event to cause disruptions of this magnitude. To be prepared for such crises, operations leaders need to proactively develop scenario-based resilience plans. Traditional approaches to supply chain management will no longer suffice.
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