TY - JOUR
T1 - First, do no harm: time for a systems approach to address the problem of health-care-derived pharmaceutical pollution
AU - Thornber, Kelly
AU - Adshead, Fiona
AU - Balayannis, Angeliki
AU - Brazier, Richard
AU - Brown, Ross
AU - Comber, Sean
AU - Court, Caroline
AU - Davidson, Iain
AU - Depledge, Michael
AU - Farmer, Caroline
AU - Gibb, Stuart
AU - Hixson, Richard
AU - Kirchhelle, Claas
AU - Moore, Keith
AU - Motta, Marco
AU - Niemi, Lydia
AU - Owen, Stewart
AU - Pencheon, David
AU - Pfleger, Sharon
AU - Pitchforth, Emma
AU - Powell, Neil
AU - Schmidt, Wiebke
AU - Smith, Richard
AU - Sowman, Georgina
AU - Tyler-Batt, Wendy
AU - Wilkinson, Helen
AU - Wilson, Edward CF
AU - Fleming, Lora
AU - Gaze, William
AU - Tyler, Charles
PY - 2022/12
Y1 - 2022/12
N2 - Chemical pollution is considered one of the nine planetary boundaries, and increasing evidence suggests that we are already operating outside of this, risking irreversible environmental change. Pharmaceutical chemicals are vital components of modern health care, but their contamination of global waterways is threatening environmental and human health, contributing to biodiversity loss, driving antimicrobial resistance, and jeopardising progress towards the sustainable development goals. With the global pharmaceutical market now worth more than US$1·25 trillion and continuing to grow as populations age and suffer from more chronic, non-communicable diseases, there is an urgent need to integrate pharmaceutical pollution into sustainable health-care strategies, alongside efforts to reduce carbon and plastic waste. The long-term detrimental impacts of some pharmaceuticals in the environment have been known for decades, and it is now widely recognised that ambitious legislative and non-legislative measures are required to address this issue. Progress to date has been restricted largely because of a focus on improving human health and financial outcomes, and the complexity of global pharmaceutical value chains. High-income countries (HICs) are the major consumers of pharmaceuticals, and face a substantial challenge in mitigating rising local pollution levels emanating from patient excreta and inappropriate disposal, while simultaneously taking responsibility for the considerable manufacturing pollution externalities created through globalising their supply chains. Here, we present a UK case study that illustrates the scale of the problem and demonstrates the need for a cohesive, cross-sectoral systems approach.
AB - Chemical pollution is considered one of the nine planetary boundaries, and increasing evidence suggests that we are already operating outside of this, risking irreversible environmental change. Pharmaceutical chemicals are vital components of modern health care, but their contamination of global waterways is threatening environmental and human health, contributing to biodiversity loss, driving antimicrobial resistance, and jeopardising progress towards the sustainable development goals. With the global pharmaceutical market now worth more than US$1·25 trillion and continuing to grow as populations age and suffer from more chronic, non-communicable diseases, there is an urgent need to integrate pharmaceutical pollution into sustainable health-care strategies, alongside efforts to reduce carbon and plastic waste. The long-term detrimental impacts of some pharmaceuticals in the environment have been known for decades, and it is now widely recognised that ambitious legislative and non-legislative measures are required to address this issue. Progress to date has been restricted largely because of a focus on improving human health and financial outcomes, and the complexity of global pharmaceutical value chains. High-income countries (HICs) are the major consumers of pharmaceuticals, and face a substantial challenge in mitigating rising local pollution levels emanating from patient excreta and inappropriate disposal, while simultaneously taking responsibility for the considerable manufacturing pollution externalities created through globalising their supply chains. Here, we present a UK case study that illustrates the scale of the problem and demonstrates the need for a cohesive, cross-sectoral systems approach.
UR - http://www.scopus.com/inward/record.url?scp=85143917645&partnerID=8YFLogxK
U2 - 10.1016/S2542-5196(22)00309-6
DO - 10.1016/S2542-5196(22)00309-6
M3 - Comment/debate
C2 - 36495886
SN - 2542-5196
VL - 6
SP - e935-e937
JO - The Lancet Planetary Health
JF - The Lancet Planetary Health
IS - 12
ER -