Features
March / April 2023

Sustainability Definitions for the Pharmaceutical Industry

William G. Whitford
Ester Barle, DVM, MSc, PhD, MScTox
Sustainability Definitions for the Pharmaceutical Industry

While financial investment in novel therapies provides patients with new treatment options and improved quality of care, the pharmaceutical industry also recognizes its responsibility to transition toward more sustainable development, manufacturing, and stewardship of medicines throughout their life cycle.

The pharmaceutical industry commits substantial resources in new medicines and treatment options to combat a variety of illnesses and diseases affecting communities globally. This initiative’s goal has always been to improve patient care and lives, but now it aims to also transition to more sustainable options, particularly the principles of a circular economy. For example, currently, every 1 kg of small molecule active ingredient can take more than 100 kg of materials to produce, requiring huge facilities for production and waste disposal, as well as long lead times.1 Therefore, sustainability activities focus on identifying and testing alternatives to existing pharmaceutical manufacturing processes in terms of technology, ingredients, materials used, etc., while meeting patient needs as a primary goal.

Sustainability Definitions

The term sustainability has several distinct meanings in various contexts. The most inclusive comes from the United Nation’s 2015 Sustainable Development Goal, in which 17 categories and 169 targets promote human rights and gender equality in a balance of economic, social, and environmental concerns.2 Many have a narrower, focused view of the topic—simply envisioning the reduction of environmental impacts through use of “greener” technology.

Others adopt a more holistic view, and allow that sustainable product, process, and facility design more properly refer to creating product economies that are responsible, healthy, just, and profitable.3 As such, the general UN definition of sustainability—“meeting the needs of the present without compromising the ability of future generations to meet their own needs”—is also the basis of approaches used in pharmaceutical applications.

In greening the arena of pharmaceuticals, we therefore look holistically at natural, human, and economic systems and seek solutions that support quality of life for all. Design decisions are evaluated against a triple-bottom-line concept that incorporates a long-term view of assessing potential effects and best practices for people (social capital), planet (natural capital), and profit (economic capital).4 In establishing a scope for the most important factors to consider in the corporate arena, some are defining a company’s environmental, social, and governance (ESG) performance.5

Sustainability Criteria

Environmental sustainability can be defined as responsible interaction with the environment to avoid depletion or degradation of natural resources and ecosystems and allow for long-term environmental prosperity. Organizations attribute various weight or priority to individual environmental burden types for different, often individual, reasons. Some can maintain a differential sensitivity to particular burdens per se and impart additional weight to the consideration of those burdens.


Figure 1: Defi nitions for sustainability concepts relevant to pharmaceuticals as integrated in the wide context of overall sustainability.

For example, not everyone regards, a priori, the relative damage to our land, water, or air in the same way. Others can emphasize individual burdens due to local (regional setting) factors, such as water use in dry regions, or to the particular type of products, such as organic solvents in oligonucleotide production. Such ranking can also be due to special interest goals influenced by customers, regulations, or bylaws.

The general UN definition of sustainability—“meeting the needs of the present without compromising the ability of future generations to meet their own needs”—is also the basis of approaches used in pharmaceutical applications.

Consistent with the preceding general considerations, environmental sustainability in the pharmaceutical industry can be perceived from two directions: from the side of the product or operations, processes and/or facilities, both of which are required to achieve a comprehensive sustainability program. Sustainability of pharmaceutical products can be defined considering the recent JRC Technical Report (2022),6 which has provided the following definitions for sustainable chemicals and materials:

“Sustainability could be formulated as the ability of a chemical/material to deliver its function without exceeding environmental and ecological boundaries along its entire life cycle, while providing welfare, socio-economic benefits and reducing externalities. Overall sustainability should be ensured by minimizing the environmental footprint of chemicals on climate change, resource use, ecosystems and biodiversity from a life cycle perspective.”

This definition is based on criteria from the Organisation for Economic Co-operation and Development (OECD) (2004)7 involving reducing the consumption of resources and energy and avoiding the use of dangerous substances. Additional principles refer to the following:

  • Use of harmless substances or, where this is impossible, substances involving a low risk for humans and the environment, and manufacturing of products in a resource-saving manner.
  • Reduction of the consumption of natural resources, which should be renewable wherever possible, and avoidance or minimization of emission and introduction of chemicals or pollutants into the environment.
  • Avoidance, already at the stage of development and prior to marketing, of materials that endanger the environment and human health during their life cycle and make excessive use of the environment as a source or sink.

Sustainability in Application

The preceding sustainability criteria can also be applied to facilities, operations, and processes, prompting design that conserves natural resources, such as energy and water, and utilization of renewable energy sources within the ecological boundaries. Sustainable process or facility design requires a new way of thinking and approaches to a project: be it a new build, renovation, or operations development and maintenance.

This now includes employing critical thinking and a science-based approach to innovations and solutions. More specifically, this involves such design factors as the site, surrounding environment and community, the buildings (existing or proposed), their interiors, operations, and any ongoing maintenance processes, until the project reaches the end of its life and its parts are recycled or reused. This approach encourages an early engagement and harmonization of all stakeholders, including designers and building users in the building/process owner’s purview, while establishing formalized project needs and performance targets.

Finally, the approach taken to facilities and their operation should form part of a wider program of attaining holistic sustainability goals that span across the value chain: all business operations (R&D, manufacturing and supply logistics, sales and marketing), the role of various tiers of suppliers of goods and services in the supply chain, and the end-to-end impact of medicines on the environment (covering both used and unused medicines).

The various program elements within the framework presented in Figure 1 will need collective reporting that is accurate and auditable to ensure there is no suggestion of greenwashing. Some of the many themes relevant to the general concept of sustainability will be developed elsewhere in this issue of Pharmaceutical Engineering®.