Health and population

Health and population dynamics are intertwined, embodying an intricate relationship with significant implications on the Sustainable Development Goals (SDGs). Health is fundamentally at the center of these 17 global goals, aimed to transform the world by 2030. Specifically, Goal 3 endeavors to "Ensure healthy lives and promote well-being for all at all ages." It acknowledges that health is pivotal to human life quality, social cohesion, and sustainable development. Inextricably linked to this are the complexities of population dynamics, including growth rates, age structure, fertility and mortality rates, and migration patterns.

With the world's population projected to exceed 9.7 billion by 2050, the pressure on health systems will undoubtedly escalate. The demographic transition, with an aging population and an increasing prevalence of non-communicable diseases, poses new challenges for health systems globally. Additionally, areas with high fertility rates often overlap with extreme poverty, resulting in heightened health risks, including higher maternal and child mortality rates, malnutrition, and infectious diseases.

Moreover, rapid urbanization and migration present both opportunities and threats to health. While urban areas may provide better access to healthcare, they also harbor risks of disease transmission, air and water pollution, and social determinants of health like inadequate housing and social inequality. Simultaneously, migrants often face disproportionate health risks due to unstable living conditions, exploitation, and limited access to healthcare services.

Achieving the SDGs will necessitate comprehensive approaches that consider the intricate interplay of health and population dynamics. It means strengthening health systems, promoting universal health coverage, and addressing social determinants of health. It also implies crafting policies that recognize demographic realities and foster an environment conducive to sustainable development. Only by understanding and harnessing these dynamics can the world meaningfully progress towards realizing the SDGs, ensuring healthy lives and well-being for all.

Elsevier,

Clinical Immunology (Sixth Edition)
Principles and Practice
2023, Pages 573-585

This content links with Goal 3: Good health and well-being and Goal 10: Reduced Inequalities by focusing on the role of eosinophils in health and disease, including novel therapeutic approaches and their contribution to our understanding of the role that eosinophils play in homeostasis and pathogenesis.
This content links with Goal 3: Good health and well-being and Goal 10: Reduced Inequalities by providing information about esophageal squamous cell carcinoma (ESCC) and the upper aerodigestive microbiomes role in carcinogenesis and outcomes.
Elsevier,

Clinical Immunology (Sixth Edition)
Principles and Practice
2023, Pages 525-541

This content aligns with Goal 3: Good Health and Wellbeing by highlighting the interactions of the Human immunodeficiency virus (HIV)-1 with the immune system.
This content aligns with Goal 3: Good Health and Wellbeing by discussing HIV cell and host tropism, functions of structural, regulatory, and auxiliary proteins and provides a general overview of pathogenesis, vaccine development, and treatments.
Elsevier,

Clinical Immunology (Sixth Edition)
Principles and Practice
2023, Pages 832-842

This content links with Goal 3: Good health and well-being and Goal 10: Reduced Inequalities by advancing understanding of MG pathophysiology to improve current therapies and contribute to the development of novel, MG-specific therapeutics.
Elsevier,

Health Information Exchange (Second Edition)
Navigating and Managing a Network of Health Information Systems
2023, Pages 603-619

This content aligns with Goal 3: Good Health and Wellbeing by providing examples of how low- and middle-income countries (LMIC) can adopt HIE principles in one health program to gain essential implementation experience that can inform scale-up, and adoption of similar systematic approaches in the wider national health system.
Elsevier,

Clinical Immunology (Sixth Edition)

Principles and Practice

2023, Pages 972-982

Typical histological findings of autoimmune hepatitis showing marked lymphoplasmacellular infiltration of the portal tract with interface hepatitis.
This content supports the SDG Goal 3: Good health and well-being by Typical histological findings of autoimmune hepatitis showing marked lymphoplasmacellular infiltration of the portal tract with interface hepatitis. the main characteristics of AIH, PBC, and PSC, with particular interest for the clinical manifestations, pathogenesis, autoantibodies, and therapeutic options.
Elsevier,

Oncogenic Viruses

Volume 2: Medical Applications of Viral Oncology Research

2023, Pages 253-266

Oncovirus cancer is a group of more than 100 different diseases. It can develop almost anywhere in the body. Initiation of cancer largely due to genetic changes interferes with the normal process, leading to uncontrolled cell growth. This huge cell mass transforms into a tumor, which can be benign or cancerous and can be malignant, which can grow and spread to other parts of the body. Whereas some types of cancers are nontumorous like leukemia, cancers like lymphoma and myeloma are tumorous. Apart from genetic mutations and other environmental factors such as chemical changes and change in lifestyle, approximately 12% of human cancers occur due to viruses and they are known as oncoviruses. A huge group of people harbors at least one of these oncoviruses, but few go on to develop into cancer. The path from oncovirus infection to the onset of cancer in humans involves a complex process. The viral factors and host interaction create a favorable microenvironment for oncogenesis. At present, seven human oncoviruses are known: Epstein–Barr virus (EBV), human papillomavirus (HPV), Hepatitis B and C viruses (HBV and HCV), human T-cell lymphotropic virus-1 (HTLV-1), human herpesvirus-8 (HHV-8), and Merkel cell polyomavirus (MCPyV). As the first human oncovirus, EBV was first detected in Burkitt lymphoma cells by electron microscopy in 1964. Since then work in oncovirology has been carried out on a large scale to understand the host–virus pathogenesis. Globally, around 20% of all cancers are caused by infectious agents and 12% are caused due to the oncoviruses, and of these, approximately 80% of viral cancers occur in the developing nations. With the help of the existing biochemical techniques such as genomics and proteomics, the identification of virus and their role in the cancer pathogenesis could be investigated, but still knowledge about their microenvironment and interactions is lacking. Current computational techniques support the deep mining of information, and knowledge modeling with preexisting data helps in understanding the sequence-to-sequence mapping followed by structure elucidation, which brings more curated data into the picture. Bioinformatics, cheminformatics, and amalgamation of artificial intelligence play an important role in research in the field of oncovirology. The large datasets obtained from multiple biochemical experiments contain gigabytes of data related to the sequence, structure, and interactions of oncoviruses. Techniques such as computational genomics, computational proteomics, interactomics, sequence analysis, structure modeling, systems biology, protein modeling, and computer-aided drug design have significantly contributed to making research in this field cost-effective.
Elsevier,

Endocrine Hypertension
From Basic Science to Clinical Practice
2023, Pages 113-125

This content links with Goal 3: Good health and well-being and Goal 10: Reduced Inequalities by bringing recognition to Congenital adrenal hyperplasia (CAH), a group of monogenic, autosomal recessive disorders.
Diagram Achalasia
This article ties to SDG 3. This resource, created together by Osmosis and the National Organization for Rare Diseases (NORD), aims to increase the knowledge and awareness about the rare disease Achalasia, which involves damage to the nerves in the esophagus causing the lower esophageal sphincter, a circular muscle at the end of the esophagus, to be unable to relax. The resulting symptoms include difficulty swallowing and chest pain.

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