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<p class="MsoNormal" style="margin-bottom: 12.0pt; text-align: left; mso-line-height-alt: 14.0pt; layout-grid-mode: char; mso-layout-grid-align: none;" align="left">Towards Low-Carbon and Climate-Resilient Immunization Supply Chains Through Reduced Waste, Environmental Impact and Carbon Emissions

廃棄物削減、環境影響および炭素排出量の削減を通じた低炭素で気候に強い予防接種サプライチェーンへ (AI 翻訳)

Kumar H, Singh SK, Syed S

Research Squareプレプリント2026-06-22#Scope 3Origin: Global経営インパクト: コスト削減対象セクター: pharmaceutical
DOI: 10.20944/preprints202606.1490.v1
原典: https://doi.org/10.20944/preprints202606.1490.v1

🤖 gxceed AI 要約

日本語

本稿は、ワクチン供給チェーンにおける温室効果ガス排出削減と気候強靭性向上のための介入策をレビュー。ユニセフのスコープ3排出量(390万トンCO2e)や、太陽光冷蔵、ルート最適化、デジタル在庫管理などの低炭素対策を分析。排出削減は可能だが、ライフサイクル全体のデータは不足している。

English

This review examines interventions to reduce greenhouse gas emissions and enhance climate resilience in immunization supply chains. It analyzes UNICEF's Scope 3 emissions (3.9 MtCO2e) and low-carbon measures such as solar refrigeration, route optimization, and digital stock management. Emission reductions are feasible but full lifecycle data is lacking.

Unofficial AI-generated summary based on the public title and abstract. Not an official translation.

📝 gxceed 編集解説 — Why this matters

日本のGX文脈において

日本の医療分野でもGXが進む中、本稿の予防接種サプライチェーンの脱炭素化手法は、厚生労働省や自治体のワクチン物流計画に参考になる。特に太陽光冷蔵やルート最適化は、日本の離島や過疎地域での応用が期待される。

In the global GX context

This paper provides a comprehensive framework for decarbonizing health supply chains, relevant to global initiatives like the WHO's climate-resilient health systems. It highlights Scope 3 emissions in vaccine delivery, offering benchmarks for health ministries and logistics companies pursuing net-zero targets.

👥 読者別の含意

🔬研究者:Provides a detailed review of carbon hotspots in vaccine supply chains, useful for life-cycle assessment and sustainable logistics research.

🏢実務担当者:Offers concrete interventions (solar cold chain, digital stock visibility) for immunization program managers to reduce carbon footprint.

🏛政策担当者:Supports integration of environmental sustainability into health procurement and cold-chain equipment standards, aligning with climate commitments.

📄 Abstract(原文)

<h4>Background: </h4> Immunization programmes deliver substantial public health benefits, but their supply chains depend on energy-intensive cold-chain systems, transport networks, single-use products and waste-treatment pathways that generate greenhouse-gas emissions and environmental health risks. As health systems move towards climate-resilient and low-carbon operations, the environmental footprint of vaccine delivery requires greater policy and programmatic attention. <h4>Methods:</h4> A narrative review and policy analysis was conducted using peer-reviewed literature, technical reports, programme case studies, institutional guidance, preprints and grey literature published or available between January 2010 and June 2026. Evidence was synthesized across four domains: cold-chain energy use; vaccine transport and logistics; production, packaging and use of vaccines and ancillary supplies; and immunization-related healthcare waste management. The review also examined low-carbon and climate-resilient interventions, including solar refrigeration, logistics optimization, digital stock-management systems, controlled-temperature-chain approaches, safer waste treatment and cold-chain equipment lifecycle management. <h4>Findings:</h4> The evidence indicates that environmental impacts occur across the vaccine lifecycle but are concentrated in a limited number of supply-chain functions. UNICEF’s international supply-chain emissions baseline estimated 3.9 million tonnes of carbon dioxide equivalent from Scope 3 international supply emissions in 2019, with vaccines, cold-chain equipment, nutrition products and international freight accounting for 80–90% of these emissions. Cold-chain energy use, transport, ancillary supplies and waste treatment emerge as recurring hotspots. Programme evidence from Tunisia, Lebanon, India and Gavi-supported countries demonstrates that solarized cold chains, route optimization, electric vehicles, digital stock visibility and energy-efficient cold-chain equipment can reduce emissions or improve resilience while supporting vaccine availability. However, evidence remains limited on full life-cycle emissions, last-mile transport models, embedded emissions in ancillary supplies, and safe end-of-life management of cold-chain equipment. Interpretation: Low-carbon immunization supply chains are feasible when environmental sustainability is integrated into procurement, energy planning, logistics, digital systems, workforce capacity, waste management and decommissioning. Future assessments should use standardized functional units, such as carbon dioxide equivalent per administered dose and per fully immunized child, to improve comparability and guide investment.

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