RESUMO
INTRODUCTION: The environmental impact of endoscopy, including small-bowel capsule endoscopy (SBCE), is a topic of growing attention and concern. This study aimed to evaluate the greenhouse gas (GHG) emissions (kgCO2) generated by an SBCE procedure. METHODS: Life cycle assessment methodology (ISO 14040) was used to evaluate three brands of SBCE device and included emissions generated by patient travel, bowel preparation, capsule examination, and video recording. A survey of 87 physicians and 120 patients was conducted to obtain data on travel, activities undertaken during the procedure, and awareness of environmental impacts. RESULTS: The capsule itself (4âg) accounted forâ<â6â% of the total product weight. Packaging (43-119âg) accounted for 9â%-97â% of total weight, and included deactivation magnets (5âg [4â%-6â%]) and paper instructions (11-50âg [up to 40â%]). A full SBCE procedure generated approximately 20âkgCO2, with 0.04âkgCO2 (0.2â%) attributable to the capsule itself and 18âkgCO2 (94.7â%) generated by patient travel. Capsule retrieval using a dedicated device would add 0.98âkgCO2 to the carbon footprint. Capsule deconstruction revealed materials (e.âg. neodymium) that are prohibited from environmental disposal; 76â% of patients were not aware of the illegal nature of capsule disposal via wastewater, and 63â% would have been willing to retrieve it. The carbon impact of data storage and capsule reading was negligible. CONCLUSION: The carbon footprint of SBCE is mainly determined by patient travel. The capsule device itself has a relatively low carbon footprint. Given that disposal of capsule components via wastewater is illegal, retrieval of the capsule is necessary but would likely be associated with an increase in device-related emissions.