“Work should take place in a safe and healthy working environment; work conditions should be consistent with workers’ well-being and human dignity; work should offer real possibilities for personal achievement, self-fulfillment, and service to society.”—International Labour Organization (ILO)
The Artisan’s Tale
For one 60-year-old woman, cadmium’s silent threat unfolded in her basement workshop. Decades of jewelry-making—grinding metals, soldering, and engraving—transformed her passion into peril. Dust lingered in the stale air, mingling with cigarette smoke. Nearby, her garden thrived on fertilizer sourced from a wastewater plant, a potential cadmium reservoir.
Her body bore the burden: a stooped posture, a waddling gait, and relentless back pain. Lab tests revealed proteinuria and osteomalacia—markers of chronic cadmium exposure. Pseudofractures etched her bones with the cost of years spent breathing the metal’s invisible toxicity.
Her story, though personal, echoes globally. Hobbyists and workers unknowingly weave cadmium into their lives through art, trade, and tradition.
A paradox lies in the heart of modern industry: the same materials that fuel innovation can also endanger lives. Cadmium, a silver-white metal born of the earth, embodies this duality. Its utility spans battery production, pigments, and electroplating. Yet, its toxic legacy whispers caution—a call to balance progress with protection.
Cadmium’s Dual Legacy: A Toxic Trail Through Progress
Cadmium, a silver-white metal as malleable as clay and as corrosive as time, has etched itself into the industrial tapestry with unparalleled versatility. Its properties—corrosion resistance, malleability, and a low melting point of 327°C—have made it indispensable in powering batteries, coloring pigments, and protecting metals through electroplating. Yet, beneath its utility lies a toxic legacy that leaves indelible marks on human health and ecosystems.
The Industrial Marvel and Its Cost
Cadmium dominates modern industries extracted as a byproduct of zinc, lead, or copper smelting:
- Nickel-cadmium batteries account for 80% of cadmium’s industrial use. While efficient energy storage devices, their production and disposal pose significant health risks.
- Pigments: Cadmium’s vibrant yellows and reds lend durability and intensity to plastics, ceramics, and paints.
- Electroplating: Widely used in automotive and aerospace industries, cadmium grants metals a corrosion-resistant shine.
However, cadmium’s impact extends beyond factories. It leaches into soil from phosphate fertilizers, escapes as fumes from smelting operations, and infiltrates waterways through industrial discharge. Crops like leafy greens and grains absorb cadmium, while seafood magnifies its presence through bioaccumulation. Cigarette smoke, another silent courier, delivers cadmium directly into the bloodstream, doubling its burden on smokers compared to nonsmokers.
The Silent Intruder in the Body
Once inhaled or ingested, cadmium binds tightly to metallothionein, a protein meant to shepherd metals safely through the body. Yet, this bond turns toxic as cadmium accumulates in vital organs such as the kidneys and bones, persisting for decades with a biological half-life of 15 to 30 years:
- Respiratory System: Acute fume exposure can cause coughing, fever, and chemical pneumonitis, while chronic exposure leads to emphysema and pulmonary fibrosis.
- Renal System: Cadmium infiltrates the kidneys, disrupting function and causing irreversible proteinuria and calcium loss.
- Skeletal System: Cadmium weakens bones by inhibiting calcium and vitamin D metabolism, leading to osteomalacia and spontaneous fractures. The infamous itai-itai disease in Japan is a grim testament to this damage.
- Carcinogenic Potential: Prolonged inhalation of cadmium-laden particles significantly increases the risk of lung, prostate, and kidney cancers.
Vulnerable populations bear the brunt of cadmium’s toxicity. Smokers, already exposed to tobacco, carry twice the cadmium burden of nonsmokers. Nutritional deficiencies, particularly in iron, exacerbate absorption, leaving menstruating women and older individuals disproportionately affected.
A Global Toxic Trail
The toxic legacy of cadmium transcends individual health:
- Soil and Crops: Contaminated soils, often fertilized with phosphate materials rich in cadmium, transfer this toxin to grains, leafy greens, and rice.
- Seafood and Bioaccumulation: Shellfish and fish amplify cadmium’s reach through the food chain, posing hidden dangers at dining tables.
- Airborne Particles: Smelters, incinerators, and fossil fuel combustion—release cadmium into the air, which lingers as particulate matter. Urban areas have significantly higher levels of contamination.
The tragic case of Japan’s Jintzu River basin illustrates cadmium’s pervasive threat. Wastewater from zinc mining poisoned rice paddies, leading to itai-itai disease—marked by excruciating bone fractures and kidney failure. Women, especially postmenopausal individuals with calcium deficiencies, were disproportionately affected. This calamity underscores the need for vigilance and regulatory action.
Intertwined Hazards and Persistent Presence
Cadmium infiltrates every aspect of life, from the air we breathe to the food we eat, creating a toxic trail that mirrors humanity’s industrial ambition. For workers, the metal transforms from a tool of progress into a specter haunting their health. Beyond occupational settings, cadmium’s pervasive presence links environmental contamination to human vulnerability, demanding global action to mitigate its far-reaching effects.
Technological Innovations in Monitoring Cadmium Exposure
Technology emerges as a powerful ally in mitigating cadmium’s pervasive harm. Modern tools and systems offer real-time insights into cadmium exposure, enabling industries and communities to act proactively. By harnessing the capabilities of artificial intelligence (AI), Internet of Things (IoT) devices, and advanced analytical techniques, a future where exposure can be detected, tracked, and controlled with unprecedented precision becomes possible.
Artificial Intelligence: Transforming Data into Actionable Insights
AI-powered systems are revolutionizing the monitoring and management of cadmium exposure. Machine learning algorithms analyze vast datasets from workplaces and environmental monitoring stations, identifying patterns and anomalies.
Example:
- Predictive Analytics in Industrial Zones (South Korea): South Korea has implemented AI-driven monitoring systems in heavy industrial zones. These systems predict cadmium emissions by integrating data from historical records and real-time monitoring. The early warning alerts have helped industries reduce emissions by optimizing processes and preventing critical exposure events.
IoT Sensors: Real-Time Environmental Guardians
IoT devices with sensitive sensors transform monitoring into a dynamic, real-time process. These devices, placed in workplaces, urban areas, and agricultural fields, continuously measure air, water, and soil cadmium concentrations.
Examples:
- Smart Agricultural Monitoring (Netherlands): The Netherlands has deployed IoT sensors in agricultural fields to monitor cadmium levels in soil and water—this ensures that crops meet stringent safety standards, reducing dietary cadmium exposure across Europe.
- Wearable Exposure Trackers (United States): In the United States, wearable IoT devices for workers in electroplating industries monitor individual exposure levels. When cadmium concentrations exceed safety thresholds, the devices alert workers and supervisors, prompting immediate action.
Advanced Analytical Techniques: Redefining Precision
With advancements in analytical chemistry, laboratory methods are becoming faster and more accurate. Techniques like inductively coupled plasma mass spectrometry (ICP-MS) and X-ray fluorescence (XRF) enable ultra-sensitive detection of cadmium, even at trace levels.
Examples:
- On-Site Testing for E-Waste Recycling (India): Portable ICP-MS devices have been deployed in informal e-waste recycling hubs in India to assess cadmium contamination. These devices provide immediate results, allowing NGOs and government bodies to guide remediation efforts effectively.
- Mapping Contamination Hotspots (China): In China, a combination of XRF and geographic information systems (GIS) maps cadmium contamination in mining regions. The detailed maps have informed targeted soil remediation projects, reducing cadmium levels in affected areas.
Automation and Robotics: Minimizing Human Risk
Robotic systems with automated samplers and analyzers reduce human involvement in hazardous environments. These robots collect air, water, and soil samples in high-risk areas and process them autonomously to deliver precise data.
Example:
- Industrial Robots in Smelting Plants (Germany): German smelting plants use automated robotic systems to sample cadmium emissions from furnaces. These systems operate in high-temperature, high-contamination environments, safeguarding human workers while improving data accuracy.
The Future of Monitoring: Toward a Safer Horizon
These successful examples showcase how technology can bridge cadmium monitoring and management gaps. As these tools become more accessible and affordable, even small-scale industries and developing nations can harness their potential to protect workers and communities.
By leveraging such innovations, humanity can shift from reactive management to proactive prevention, demonstrating that protecting health and progress can coexist with the right tools and collaborative effort.
Lessons from Case Studies
Case studies of cadmium exposure illuminate the profound impact of this toxic metal on human lives, offering valuable lessons for occupational safety and public health. From an artisan’s basement workshop to Japan’s rice paddies, these stories underscore the need for vigilance, regulation, and innovation.
The Artisan’s Silent Struggle
A 60-year-old artisan spent decades crafting intricate jewelry in a small basement workshop. The art that brought her joy also brought unrecognized peril. Without proper ventilation or protective gear, she inhaled cadmium-laden dust daily. Cigarette smoke compounded her exposure, and her backyard garden, fertilized with cadmium-contaminated materials, silently added to the burden.
Her symptoms—stooped posture, back pain, and waddling gait—revealed the insidious damage of chronic cadmium toxicity. Laboratory tests confirmed proteinuria and osteomalacia, with pseudofractures marking her bones like scars of an invisible battle. Her story shows how unawareness and inadequate protection can transform passion into peril.
Itai-Itai Disease: A Community’s Pain
Halfway across the world, the Jintzu River basin of Japan witnessed a tragedy that became a stark warning for humanity—discharges from a local zinc mine contaminated the river, poisoning rice fields with cadmium. Residents unknowingly consumed the metal-laden rice for years, resulting in a devastating epidemic.
Victims of “itai-itai” (ouch-ouch) disease suffered intense bone pain, kidney failure, and spontaneous fractures. The condition disproportionately affected women, particularly postmenopausal individuals with pre-existing calcium deficiencies. The epidemic catalyzed Japan’s environmental reforms, emphasizing the importance of proactive industrial regulation and public health interventions.
Broader Lessons for Occupational Safety
- Awareness Saves Lives: Both cases reveal that lack of knowledge about cadmium’s hazards amplifies risks. Educating workers and communities is essential to reducing exposure.
- Prevention Is Paramount: Personal protective equipment (PPE), proper ventilation, and hygiene practices like avoiding smoking or eating in work areas are critical.
- Regulation Drives Change: The aftermath of itai-itai disease demonstrates how stringent environmental policies and industrial oversight can prevent large-scale harm.
- Vulnerability Matters: Nutritional deficiencies, gender, and age play significant roles in cadmium susceptibility, underscoring the need for targeted protective measures for at-risk populations.
A Call to Action
These case studies transcend borders, illustrating universal truths about occupational hazards. They remind us that protecting health requires more than compliance—it demands vigilance, empathy, and a commitment to learning from past mistakes.
Cadmium in the Global Context
The tale of cadmium toxicity spans continents, revealing how nations confront its dual legacy of industrial utility and environmental peril. From Japan’s tragic lessons to global regulatory efforts, the shared struggle against cadmium underscores the need for international solidarity in safeguarding public health.
Japan: Lessons from Itai-Itai Disease
In the Jintzu River basin of Japan, the mid-20th century bore witness to the devastating consequences of cadmium contamination: Wastewater from zinc-mining operations leached cadmium into rivers, infiltrating rice paddies and, ultimately, the food chain. The result was a crippling disease aptly named “itai-itai” or “ouch-ouch,” characterized by excruciating bone fractures and renal failure.
Japan’s response to this crisis reshaped its environmental policies, enforcing strict industrial discharge regulations and prioritizing soil rehabilitation. The nation’s experience became a blueprint for global awareness, demonstrating the dire consequences of unchecked cadmium exposure.
The European Union: Leading with Precaution
The European Union has taken a proactive approach to cadmium regulation. Through the Restriction of Hazardous Substances Directive (RoHS), the EU restricts cadmium in electronics, steering industries toward greener technologies. Furthermore, stringent limits on cadmium in products such as batteries and pigments reflect a commitment to reducing environmental and human exposure.
By emphasizing research and innovation, the EU supports the development of safer alternatives, showcasing how regulation and technology can align to achieve sustainability goals.
Developing Nations: Struggles with Enforcement
Developing countries face unique challenges in regulating cadmium exposure. Limited resources, lax enforcement, and reliance on informal sectors like artisanal recycling amplify risks:
- Informal Economies: In regions with unregulated recycling industries, such as South Asia and parts of Africa, workers handle cadmium-laden materials without protective equipment or awareness of health risks.
- Economic Constraints: Transitioning to safer practices or adopting advanced monitoring systems is often cost-prohibitive for industries in these regions.
- Limited Infrastructure: The absence of robust regulatory frameworks and technical expertise hinders the effective implementation of cadmium regulations.
Collaborative initiatives, such as capacity-building programs and technology transfer agreements, are critical to addressing these disparities and promoting global equity in cadmium regulation.
International Standards and Solidarity
Globally, organizations like the World Health Organization (WHO) and the Environmental Protection Agency (EPA) play pivotal roles in defining cadmium safety limits:
- The WHO has set a provisional tolerable weekly intake for cadmium at 0.4–0.5 milligrams per adult, aiming to limit dietary exposure from crops and seafood.
- The EPA enforces strict cadmium standards in air, water, and soil, capping cadmium levels in drinking water at 0.01 milligrams per liter, with ongoing efforts to lower this threshold.
Global Solidarity for a Safer Future
The fight against cadmium is a shared endeavor. International treaties and cooperative efforts, such as the Basel Convention on hazardous wastes, highlight the importance of collective action. By sharing knowledge, resources, and innovative technologies, nations can forge a united front against this insidious toxin. Including diverse regional approaches to cadmium regulation broadens the perspective, reminding us that solutions require global participation and shared responsibility.
Challenges in Implementation of Cadmium Regulation
While global efforts to regulate cadmium exposure are commendable, implementing these regulations faces significant real-world challenges. These obstacles reveal the complexity of balancing industrial growth, environmental safety, and public health. Addressing these challenges requires nuanced approaches considering diverse economic, social, and technological contexts.
Economic Barriers in Developing Countries
Due to limited resources, developing nations often struggle to enforce cadmium regulations. These countries may rely heavily on industries that involve cadmium, such as mining, electroplating, and recycling. For many, the cost of adopting safer alternatives or upgrading industrial infrastructure to comply with stricter regulations is prohibitive.
- Informal economies: In many regions, informal sectors dominate industries like e-waste recycling and artisanal crafts. These sectors operate without oversight, making compliance with cadmium regulations nearly impossible.
- Budget constraints: Governments in developing nations often lack the funding to monitor cadmium levels, invest in remediation technologies, or provide industries with financial incentives for safer practices.
Enforcement Difficulties in Informal Sectors
The informal sector presents a unique challenge for regulatory enforcement. Small-scale businesses, such as backyard workshops or unregistered recycling operations, often lack awareness of cadmium’s risks or the means to comply with safety standards.
- Lack of oversight: Informal industries are difficult to monitor due to their dispersed and unregulated nature.
- Worker vulnerability: Individuals in these sectors are often unaware of cadmium hazards and lack access to protective gear, safe practices, or training.
- Cultural barriers: In some cases, traditional practices, such as using cadmium-laden pigments in artisanal crafts, persist despite their known dangers.
Technological Gaps in Monitoring and Remediation
Advanced technologies, such as IoT sensors and AI-driven monitoring systems, offer hope for better cadmium regulation. However, these tools are often inaccessible in resource-limited settings.
- Cost of technology: Many industries and governments cannot afford sophisticated monitoring equipment, leaving them reliant on outdated or less accurate methods.
- Knowledge gaps: The lack of technical expertise to operate and maintain modern monitoring systems hinders their adoption in many regions.
- Infrastructure limitations: Effective cadmium monitoring requires robust infrastructure, including data networks, laboratories, and waste management systems. Many areas lack these foundational elements.
Path Forward
These challenges require collaborative action between governments, industries, and international organizations. Potential strategies include:
- Capacity-building programs: Providing financial and technical support to developing nations can help bridge the gap in resources and expertise.
- Incentivizing compliance: Subsidies, tax breaks, or grants for adopting safer practices can encourage industries to invest in cadmium-free alternatives.
- Community education: Raising awareness among workers and communities can empower individuals to advocate for safer conditions and practices.
- International cooperation: Sharing knowledge and technology through global partnerships can enhance the effectiveness of cadmium regulation worldwide.
By addressing these challenges head-on, we can transform cadmium regulation from a policy on paper to a reality that protects lives and preserves ecosystems.
The Battle for Prevention
Prevention is the hero, wielding the shield of awareness and the sword of innovation. “Cadmium has no antidote. The only defense is vigilance and prevention:
- In the Workplace: Industries must adopt local exhaust systems, protective gear, and regular monitoring of cadmium levels. Smoking and eating in contaminated areas must cease.
- In the Environment: Regulatory bodies have tightened limits on cadmium in air, water, and soil. OSHA mandates strict exposure limits, while the EPA revises drinking water standards to minimize risk.
- In Innovation: Researchers strive for alternatives—lithium-ion batteries replace nickel-cadmium cells, and safer pigments emerge for paints and plastics.
The electroplating industry leads by example, transitioning to eco-friendly processes and implementing rigorous safety measures. Meanwhile, public health campaigns educate workers and communities about cadmium’s dangers.
A Call to Action
Cadmium’s story is both a warning and a testament to resilience. As industries evolve and knowledge deepens, humanity holds the power to rewrite this narrative. Preventive measures, innovative technologies, and informed choices offer a path forward—a way to harness cadmium’s utility without sacrificing health.
The challenge lies in regulations and vigilance: every artisan, worker, and policymaker must play their part. Together, we can forge an industry that respects both progress and the dignity of life.
Cadmium Chronicles: Shadows of Toxicity and the Path to Safer Horizons
In the silent corners of industry, where innovation meets alchemy, a metal shimmers with danger veiled in utility—cadmium. It is a name whispered in the annals of occupational safety, a tale woven with promise and peril. As science illuminates its hazards, the narrative becomes a call for change, a reminder of the delicate balance between human progress and well-being.
Cadmium’s story invites every individual, from policymakers to artisans, to join the fight for safety. Together, we can rewrite this tale into one of health, equity, and progress.
The Human Cost and Societal Impact
Behind every statistic about cadmium exposure lies a web of human lives—families fractured by illness, communities burdened by environmental degradation, and economies strained by the aftermath of toxicity. The ripple effects of cadmium contamination transcend individuals, creating societal challenges that demand collective attention and action.
Families Bearing the Brunt
When a worker like the artisan in her basement workshop falls ill due to cadmium exposure, the impact radiates through her family. Chronic illnesses such as kidney damage, skeletal issues, and cancer lead to financial burdens from medical expenses, lost income, and the need for caregiving. Emotional stress compounds the toll as families grapple with the uncertainty of long-term health consequences.
The human cost grows in communities affected by large-scale contamination, such as Japan’s Jintzu River basin. Families in these regions not only suffered debilitating diseases like itai-itai but also faced the stigma and isolation associated with their conditions. Many saw their livelihoods—often tied to farming or local industries—disappear under the weight of environmental destruction.
Community Disruption
Cadmium exposure disrupts the fabric of entire communities. Agricultural lands tainted by cadmium lose their productivity, forcing farmers to abandon ancestral practices and seek alternative livelihoods. Contaminated water supplies lead to widespread health issues, straining local healthcare systems ill-equipped to handle chronic toxicity.
Communities dependent on informal industries, such as recycling electronic waste or artisanal crafts, often lack the resources to implement protective measures. These vulnerabilities exacerbate exposure, perpetuating cycles of poverty and poor health.
Economic Consequences
The societal cost of cadmium exposure extends to national economies. Lost productivity due to illness reduces workforce efficiency, while the financial burden of healthcare and environmental Remediation drains public resources. In developing nations, where resources are already stretched thin, cadmium contamination compounds socio-economic inequalities.
For example:
- In Japan, the response to itai-itai disease required significant government investment in environmental rehabilitation and public health initiatives.
- In regions with informal recycling industries, such as parts of South Asia, cadmium contamination perpetuates a cycle of underdevelopment, with poor health and environmental degradation limiting economic activities.
The Intergenerational Legacy
Cadmium’s persistence in the environment and the human body creates an intergenerational challenge. Pregnant women exposed to cadmium may face risks of fetal growth restriction, while contaminated soils and water continue to affect food supplies for decades. The burden of cadmium’s legacy falls on future generations, forcing them to contend with its impact.
A Call for Societal Responsibility
The human cost of cadmium exposure underscores the need for societal responsibility. Governments, industries, and communities must collaborate to address this challenge. From strengthening regulations to fostering awareness and providing resources for affected populations, solutions must prioritize the dignity and well-being of those most impacted.
Cadmium’s story is not just about science and industry; it is a human story. Protecting lives from its toxic shadow demands empathy, innovation, and a commitment to creating a safer, more equitable world.
The Case of Hidden Exposure
Meet a 60-year-old artisan whose story is a microcosm of cadmium’s reach. For decades, she adorned her husband’s small shop with handcrafted jewelry, a labor of love in a basement workshop filled with grinding tools and soldering irons. Without masks or proper ventilation, the dusty air was her silent companion. Smoking and snacking in the same room intertwined her life with the metal’s particles.
What seemed like an ordinary life began unraveling under the weight of unrelenting pain—low back aches, a stooped posture, and a waddling gait that spoke of deeper afflictions. Lab tests revealed proteinuria, osteomalacia, and pseudofractures. The invisible enemy? Chronic cadmium exposure from her jewelry-making passion and perhaps from the soil of her garden, enriched with fertilizer from a nearby wastewater plant.
Her story echoes countless lives, where the line between vocation and vulnerability blurs.
Prevention: Charting a Safer Path Forward
The narrative of cadmium need not end in despair. Prevention, driven by vigilance, innovation, and collaboration, is key to mitigating its toxic impact. A coordinated approach involving worker safety, environmental regulation, and sustainable alternatives can rewrite the story of cadmium, transforming its legacy from harm to hope.
Protecting Workers
Industries must prioritize worker safety to minimize cadmium exposure and its associated risks:
- Personal Protective Equipment (PPE): Workers should be equipped with gloves, masks, and coveralls to reduce direct contact with cadmium.
- Workplace Practices: To limit ingestion pathways, enforce strict protocols, such as banning smoking and eating in contaminated areas.
- Ventilation Systems: Install mechanical exhaust systems to capture cadmium fumes and dust, ensuring safer air quality.
Strengthening Environmental Regulations
Regulatory frameworks play a critical role in safeguarding ecosystems and public health:
- Exposure Limits: Agencies like OSHA and the EPA must continue tightening permissible cadmium levels in air, water, and soil.
- Monitoring and Remediation: Enforce stringent industrial discharge standards and implement comprehensive monitoring systems to track cadmium pathways and remediate contamination.
Embracing Sustainable Alternatives
Innovation is essential in reducing cadmium’s prevalence in industrial applications while promoting eco-friendly practices:
- Battery Technology: Transition from nickel-cadmium batteries to safer, more sustainable lithium-ion solutions.
- Non-Toxic Pigments: Develop cadmium-free pigments for paints, plastics, and ceramics.
- Green Processes: Encourage eco-friendly methods, particularly in industries like electroplating and recycling.
Collaboration for Lasting Change
Collective effort can only mitigate cadmium’s toxic legacy. Governments, industries, and communities must cooperate to adopt protective measures, enforce robust regulations, and embrace sustainable innovations. Collaborative initiatives and global solidarity are essential to create a future that balances industrial progress with human and environmental health.
A New Dawn
As awareness grows, the story of cadmium shifts from shadow to light. Each case study, regulation, and innovation writes a new chapter in this chronicle—a chapter where the lessons of the past guide the safeguarding of tomorrow.
Cadmium is more than a metal; it is a mirror reflecting humanity’s challenge to balance progress and protection. A challenge lies in its toxicity: creating a safer industry without compromising human dignity. This challenge beckons not just scientists and policymakers but every individual whose work and life touch the realm of cadmium.
Thought-Provoking Questions
- What price are we willing to pay for progress, and how can we ensure the cost does not come at the expense of human health?
- What steps can you take today to minimize cadmium exposure in your community or workplace?
- How can nations unite to protect vulnerable populations from cadmium’s toxic legacy?
If this article has stirred a question or sparked your curiosity—a deliberate thought or a fleeting idea—there is always room to explore more. So, as you navigate the intricate web of work and health, let curiosity and knowledge be your compass, guiding you toward a future where work enriches life. Happy exploring!
List of Principal Sources
- National Academies of Sciences, Engineering, and Medicine. (1995). Environmental Medicine: Integrating a Missing Element into Medical Education. Washington, DC: The National Academies Press. https://doi.org/10.17226/4795
- Niu, S., Colosio, C., Carugno, M., & Adisesh, A. (Eds.). (2022). Diagnostic and Exposure Criteria for Occupational Diseases: Guidance Notes for Diagnosis and Prevention of the Diseases in the ILO List of Occupational Diseases (Revised 2010). Geneva, Switzerland: International Labour Office, ILO Publications.
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