- Warlord G: G, X, π, π·
- feel free to contact me if you can understand my Time Theory.
- Head of Manager the Claude-duck Oops
- How Heroes Recognize Each Other: From the Origin of Life to Homo Sapiens and the Future of AI, μμ μ μμ μ μμ보λ λ²: μλͺ μ κΈ°μμμ νΈλͺ¨ μ¬νΌμμ€ κ·Έλ¦¬κ³ AIμ λ―Έλ
- β Time Theory - The Relativity of Subjective Time: Insights from the Brain Clock Hypothesis
- Brain as Lanuage Model
- Alpha Indivisual Theory
- The Language of Giants: Deciphering Sperm Whale Vocalizations with AI
- Life Theory
- NeuroX
- NeuroX is an innovative distributed neural network system designed to simulate the human brain.
- Proof Experimental for Time Theory, Life Theory
- SecurEye
- Wearable Glasses, Blockchain-based Privacy-Preserving Camera System with Payment
- Thinks about Google Glass with blockchain payments and personal blackbox
- Issaac Newton (1686) Principia
- μλ¬Έκ³Ό μ©μ΄ μ 리
- A. M. TURING (1950) COMPUTING MACHINERY AND INTELLIGENCE
μΈλ₯κ° μμ§ μ΄ν΄νμ§ λͺ»νλ μ°μ£Ό, μμ° νμμ 200κ° λ½μμ£Όκ³ κ·Έμ€ κ°μ₯ λ§μ μ¬λμ΄ μλ νλλ° νμ§ λͺ»ν μμΌλ‘ 30κ° λ½μμ€.
Status | Theory | Field | Start of Research |
---|---|---|---|
Dark Matter and Dark Energy | Cosmology | 1970s | |
Description: Dark matter makes up most of the universe's mass, and dark energy accelerates the universe's expansion, but both remain mysterious. | μν λ¬Όμ§μ μ°μ£Ό μ§λμ λλΆλΆμ μ°¨μ§νκ³ , μν μλμ§λ μ°μ£Όμ ν½μ°½μ κ°μνμν€μ§λ§, λ λ€ λ―Έμ€ν°λ¦¬λ‘ λ¨μ μμ΅λλ€. | ||
The Nature of Gravity | Physics | Early 20th century | |
Description: Gravity has not yet been perfectly integrated with quantum mechanics, and there is a lack of understanding of its fundamental principles. | μ€λ ₯μ μμ§ μμμνκ³Ό μλ²½νκ² ν΅ν©λμ§ μμμΌλ©°, κ·Έ κΈ°λ³Έ μ리μ λν μ΄ν΄κ° λΆμ‘±ν©λλ€. | ||
π§ Buildup | The Origin of Life | Biology | 1920s |
Description: It is still unclear how life started from non-living matter and what the essential conditions for life are. | μλͺ μ΄ λ¬΄μλ¬Όμμ μ΄λ»κ² μμλμλμ§, κ·Έλ¦¬κ³ μλͺ μ νμ μ‘°κ±΄μ΄ λ¬΄μμΈμ§λ μ¬μ ν λΆλΆλͺ ν©λλ€. | ||
π§ Buildup | The Nature of Consciousness | Neuroscience | Late 19th century |
Description: There is a lack of fundamental understanding of how consciousness arises and why subjective experiences exist. | μμμ΄ μ΄λ»κ² λ°μνλμ§, κ·Έλ¦¬κ³ μ£Όκ΄μ κ²½νμ΄ μ μ‘΄μ¬νλμ§μ λν κ·Όλ³Έμ μΈ μ΄ν΄κ° λΆμ‘±ν©λλ€. | ||
β Draft | The Nature of Time | Physics | Early 20th century |
Description: There is a lack of understanding of the nature of time, such as why time feels like it flows and why the arrow of time is related to thermodynamics. | μκ°μ΄ νλ₯΄λ κ²μ²λΌ λκ»΄μ§λ μ΄μ , κ·Έλ¦¬κ³ μκ°μ νμ΄νκ° μ΄μνκ³Ό κ΄λ ¨λλ μ΄μ λ± μκ°μ λ³Έμ§μ λν μ΄ν΄κ° λΆμ‘±ν©λλ€. | ||
Interpretations of Quantum Mechanics | Physics | 1920s | |
Description: There are various perspectives on interpreting quantum mechanics, such as the Copenhagen interpretation and the many-worlds interpretation, which have not yet been experimentally verified. | μ½ννκ² ν΄μ, λ€μΈκ³ ν΄μ λ± μμμνμ ν΄μνλ λ€μν κ΄μ μ΄ μ‘΄μ¬νλ©°, μμ§ μ€νμΌλ‘ κ²μ¦λμ§ μμ μνμ λλ€. | ||
A Complete Cure for Cancer | Medicine | 1940s | |
Description: Developing a perfect treatment for cancer is difficult due to the various types of cancer and their complex pathogenic mechanisms. | μμ λ€μν μ’ λ₯μ 볡μ‘ν λ°λ³ λ©μ»€λμ¦μΌλ‘ μΈν΄ μλ²½ν μΉλ£λ² κ°λ°μ΄ μ΄λ €μ. | ||
Aging Mechanisms | Biology | 1930s | |
π§ Buildup | Description: Research is ongoing to understand the biological processes through which aging occurs and how to control them. | λ Ένκ° μ΄λ€ μλ¬Όνμ κ³Όμ μ ν΅ν΄ μ§νλλμ§, κ·Έλ¦¬κ³ μ΄λ₯Ό μ μ΄ν μ μλ λ°©λ²μ΄ 무μμΈμ§μ λν μ°κ΅¬κ° μ§ν μ€μ λλ€. | |
β Draft | The Principles of Brain Function | Neuroscience | Late 19th century |
Description: There is a lack of understanding of the structure and function of the brain, and it has not yet been fully elucidated how memory, learning, emotion, and other processes are formed and processed. | λμ ꡬ쑰μ κΈ°λ₯μ λν μ΄ν΄κ° λΆμ‘±νλ©°, κΈ°μ΅, νμ΅, κ°μ λ±μ΄ μ΄λ»κ² νμ±λκ³ μ²λ¦¬λλμ§ μμ§ μμ ν λ°νμ§μ§ μμμ΅λλ€. | ||
Nuclear Fusion Energy | Physics | 1920s | |
Description: The development of technology to stably control nuclear fusion and produce energy has not yet been completed. | ν΅μ΅ν©μ μμ μ μΌλ‘ μ μ΄νμ¬ μλμ§λ₯Ό μμ°νλ κΈ°μ κ°λ°μ΄ μμ§ μλ£λμ§ μμμ΅λλ€. | ||
Directionality of Evolution | Evolutionary Biology | 19th century | |
Description: There are questions about whether evolution proceeds with a specific directionality and what drives it. | μ§νκ° νΉμ ν λ°©ν₯μ±μ κ°μ§κ³ μ§νλλ κ²μΈμ§, κ·Έλ¦¬κ³ κ·Έ μλλ ₯μ΄ λ¬΄μμΈμ§μ λν μλ¬Έμ΄ μμ΅λλ€. | ||
Fundamental Particles | Particle Physics | Early 20th century | |
Description: Even after the discovery of the Higgs boson, it is expected that there are smaller fundamental particles that make up matter. | νμ€ λ³΄μ λ°κ²¬ μ΄νμλ λ¬Όμ§μ ꡬμ±νλ λ μμ κΈ°λ³Έ μ μκ° μ‘΄μ¬ν κ²μΌλ‘ μμλ©λλ€. | ||
String Theory | Physics | 1960s | |
Description: String theory is one of the attempts to unify quantum mechanics and general relativity, but it has not yet been experimentally verified. | λ μ΄λ‘ μ μμμνκ³Ό μΌλ° μλμ± μ΄λ‘ μ ν΅ν©νλ €λ μλ μ€ νλμ΄μ§λ§, μμ§ μ€νμ μΌλ‘ κ²μ¦λμ§ μμμ΅λλ€. | ||
Protein Folding | Biophysics | 1950s | |
Description: There is still a lack of understanding of how proteins fold into unique tertiary structures and how this relates to protein function. | λ¨λ°±μ§μ΄ μ΄λ»κ² λ νΉν 3μ°¨ κ΅¬μ‘°λ‘ μ νλμ§, κ·Έλ¦¬κ³ μ΄κ²μ΄ λ¨λ°±μ§ κΈ°λ₯κ³Ό μ΄λ»κ² μ°κ΄λλμ§μ λν μ΄ν΄κ° μ¬μ ν λΆμ‘±ν©λλ€. | ||
Earth's Magnetic Field | Geophysics | Early 20th century | |
Description: It is not fully understood how Earth's magnetic field formed and how it relates to convection in the core. | μ§κ΅¬ μκΈ°μ₯μ΄ μ΄λ»κ² νμ±λμλμ§, κ·Έλ¦¬κ³ μ§κ΅¬ ν΅μμμ λλ₯μ μ΄λ€ κ΄λ ¨μ΄ μλμ§ μμ ν μ΄ν΄λμ§ μμμ΅λλ€. | ||
The Origin and Evolution of the Universe | Cosmology | Early 20th century | |
Description: There are various theories about how the universe has evolved since the Big Bang and what the future of the universe will be like. | λΉ λ± μ΄ν μ°μ£Όκ° μ΄λ»κ² μ§νν΄ μλμ§, κ·Έλ¦¬κ³ μ°μ£Όμ λ―Έλκ° μ΄λ¨μ§μ λν λ€μν μ΄λ‘ μ΄ μμ΅λλ€. | ||
Superconductivity Mechanisms | Condensed Matter Physics | Early 20th century | |
Description: There is still a lack of understanding of the fundamental principles behind the superconductivity phenomenon that occurs in some materials. | μΌλΆ λ¬Όμ§μμ λ°μνλ μ΄μ λ νμμ κ·Όλ³Έ μ리μ λν μ΄ν΄κ° μ¬μ ν λΆμ‘±ν©λλ€. | ||
Earthquake Prediction | Geophysics | Early 20th century | |
Description: Accurate prediction of earthquake occurrence is still difficult and requires a deeper understanding of crustal motion and stress distribution. | μ§μ§ λ°μμ μ νν μμΈ‘μ μ¬μ ν μ΄λ €μ°λ©°, μ§κ° μ΄λκ³Ό μλ ₯ λΆν¬μ λν λ κΉμ μ΄ν΄κ° νμν©λλ€. | ||
The Origin of Species Diversity | Evolutionary Biology | 19th century | |
Description: Research is ongoing on how the various species on Earth evolved and their origins. | μ§κ΅¬μμ λ€μν μλ¬Όμ’ μ΄ μ΄λ»κ² μ§ννλμ§, κ·Έλ¦¬κ³ κ·Έ κΈ°μμ λν μ°κ΅¬κ° μ§ν μ€μ λλ€. | ||
Functions of the Human Genome | Genomics | 1990s | |
Description: Even after the completion of the Human Genome Project, most of the genome is classified as 'junk DNA', and there is a lack of understanding of its functions. | μΈκ° κ²λ νλ‘μ νΈ μλ£ νμλ κ²λμ λλΆλΆμ΄ 'μ ν¬ DNA'λ‘ λΆλ₯λμ΄ μμΌλ©°, κ·Έ κΈ°λ₯μ λν μ΄ν΄κ° λΆμ‘±ν©λλ€. | ||
Star Formation and Evolution | Astrophysics | Early 20th century | |
Description: Research is ongoing on how stars form and evolve, especially the process of star formation in the early universe. | λ³μ΄ μ΄λ»κ² νμ±λκ³ μ§ννλμ§, νΉν μ΄κΈ° μ°μ£Όμμμ λ³ νμ± κ³Όμ μ λν μ°κ΅¬κ° μ§ν μ€μ λλ€. | ||
Formation and Evolution of Primordial Galaxies | Astrophysics | Mid-20th century | |
Description: There is still a lack of understanding of how primordial galaxies formed and evolved in the early universe. | μ΄κΈ° μ°μ£Όμμ μμ μνκ° μ΄λ»κ² νμ±λκ³ μ§ννλμ§μ λν μ΄ν΄κ° μμ§ λΆμ‘±ν©λλ€. | ||
Planet Formation Processes | Astrophysics | Mid-20th century | |
Description: Understanding is needed of how planets form, especially the formation process of rocky planets like Earth. | νμ±μ΄ μ΄λ»κ² νμ±λλμ§, νΉν μ§κ΅¬μ κ°μ μμ νμ±μ νμ± κ³Όμ μ λν μ΄ν΄κ° νμν©λλ€. | ||
Quantum Computing | Quantum Information Science | 1980s | |
Description: Quantum computing is a new form of computing using quantum mechanical principles, but there are still technical limitations to large-scale commercialization. | μμ μ»΄ν¨ν μ μμμν μ리λ₯Ό μ¬μ©νλ μλ‘μ΄ ννμ μ»΄ν¨ν μ΄μ§λ§, μμ§ λκ·λͺ¨ μμ©νμλ κΈ°μ μ νκ³κ° μμ΅λλ€. | ||
Functions of Proteins in Living Organisms | Proteomics | 1990s | |
Description: Identifying the functions of numerous proteins in living organisms and understanding their interactions is an important task. | μ΄μμλ μ물체 λ΄μ μλ§μ λ¨λ°±μ§μ κΈ°λ₯μ λ°νκ³ , κ·Έλ€μ μνΈμμ©μ μ΄ν΄νλ κ²μ μ€μν κ³Όμ μ λλ€. | ||
Gene Regulation Mechanisms | Molecular Biology | 1960s | |
Description: Understanding is needed of how gene expression is regulated, especially the role of epigenetic factors. | μ μ μ λ°νμ΄ μ΄λ»κ² μ‘°μ λλμ§, νΉν νμ±μ μ νμ μμΈμ μν μ λν μ΄ν΄κ° νμν©λλ€. | ||
Searching for Exoplanets | Astronomy | 1990s | |
Description: Numerous exoplanets are being discovered through space telescopes such as Kepler and TESS, and finding potentially habitable planets is one of the major challenges for the future. | μΌνλ¬, TESSμ κ°μ μ°μ£Ό λ§μκ²½μ ν΅ν΄ μλ§μ μΈκ³ νμ±μ΄ λ°κ²¬λκ³ μμΌλ©°, μ μ¬μ μΌλ‘ μλͺ μ΄ μ΄ μ μλ νμ±μ μ°Ύλ κ²μ λ―Έλμ μ£Όμ κ³Όμ μ€ νλμ λλ€. | ||
Evolution of Antibiotic Resistance | Microbiology | 1940s | |
Description: Understanding the emergence and evolutionary mechanisms of antibiotic-resistant bacteria is necessary, and the development of new strategies to overcome this is urgent. | νμμ λ΄μ± λ°ν 리μμ μΆνκ³Ό μ§ν λ©μ»€λμ¦μ λν μ΄ν΄κ° νμνλ©°, μ΄λ₯Ό 극볡νκΈ° μν μλ‘μ΄ μ λ΅ κ°λ°μ΄ μκΈν©λλ€. | ||
Unification of Fundamental Laws | Physics | Early 20th century | |
Description: Efforts are ongoing to explain various physical theories, such as quantum mechanics, general relativity, and particle physics, as a single unified theory. | μμμν, μΌλ° μλμ± μ΄λ‘ , μ μ 물리ν λ± λ€μν 물리 μ΄λ‘ μ νλμ ν΅ν©λ μ΄λ‘ μΌλ‘ μ€λͺ νλ €λ λ Έλ ₯μ΄ μ§ν μ€μ λλ€. | ||
π§ Buildup | Multiverse Theory and Cosmic Inflation | Cosmology | 1980s |
Description: The possibility that the universe we observe is one of countless universes, and the theory that rapid expansion occurred in the early universe, have been proposed but have not yet been verified. | μ°λ¦¬κ° κ΄μ°°νλ μ°μ£Όκ° μλ§μ μ°μ£Ό μ€ νλμΌ κ°λ₯μ±κ³Ό μ΄κΈ° μ°μ£Όμμ κΈκ²©ν ν½μ°½μ΄ μΌμ΄λ¬λ€λ μ΄λ‘ μ΄ μ μλμμ§λ§, μμ§ κ²μ¦λμ§ μμμ΅λλ€. |
μΈλ₯μ μ‘΄μμ μν΄ κ°μ₯ μ μν ν΄κ²°ν΄μΌν 200κ°μ§ λ¬Έμ λ₯Ό μκ°ν΄μ£Όκ³ , μ€μνλ€κ³ μκ°νλ μμΌλ‘ 50κ°λ₯Ό λμ΄ν΄μ€.
Status | Theory | Field | Start of Research |
---|---|---|---|
Sustainable Energy | Energy | Early 20th century | |
Description: Developing efficient and environmentally friendly energy sources is crucial for sustaining human civilization and mitigating climate change. | ν¨μ¨μ μ΄κ³ νκ²½ μΉνμ μΈ μλμ§μμ κ°λ°νλ κ²μ μΈλ₯ λ¬Έλͺ μ μ μ§νκ³ κΈ°ν λ³νλ₯Ό μννλ λ° λ§€μ° μ€μν©λλ€. | ||
Climate Change Mitigation and Adaptation | Environmental Science | 1960s | |
Description: Understanding and addressing the causes and effects of climate change is essential for protecting ecosystems, food security, and human health. | κΈ°ν λ³νμ μμΈκ³Ό μν₯μ μ΄ν΄νκ³ ν΄κ²°νλ κ²μ μνκ³, μλ μ보 λ° μΈλ₯μ 건κ°μ 보νΈνλ λ° νμμ μ λλ€. | ||
Global Water Security | Environmental Science | 1970s | |
Description: Ensuring access to clean and sufficient water resources is vital for human survival, agriculture, and maintaining ecosystems. | κΉ¨λνκ³ μΆ©λΆν μμμμ λν μ κ·Όμ 보μ₯νλ κ²μ μΈλ₯μ μμ‘΄, λμ λ° μνκ³ μ μ§μ νμμ μ λλ€. | ||
Global Food Security | Agricultural Science | 1940s | |
Description: Ensuring sufficient, safe, and nutritious food for the growing global population is a critical challenge, requiring advancements in agriculture, distribution, and waste reduction. | μ¦κ°νλ μΈκ³ μΈκ΅¬λ₯Ό μν΄ μΆ©λΆνκ³ μμ νλ©° μμκ° μλ μλμ ν보νλ κ²μ λμ , μ ν΅ λ° νκΈ°λ¬Ό κ°μ λΆμΌμ λ°μ μ΄ νμν μ€μν κ³Όμ μ λλ€. | ||
Infectious Disease Prevention and Control | Epidemiology | Late 19th century | |
Description: Preventing and controlling the spread of infectious diseases is crucial for public health and requires continuous research into vaccines, treatments, and containment strategies. | κ°μΌλ³μ νμ°μ μλ°©νκ³ ν΅μ νλ κ²μ κ³΅μ€ λ³΄κ±΄μ λ§€μ° μ€μνλ©°, λ°±μ , μΉλ£λ² λ° μ΅μ μ λ΅μ λν μ§μμ μΈ μ°κ΅¬κ° νμν©λλ€. | ||
Antibiotic Resistance | Microbiology | 1940s | |
Description: The growing resistance of bacteria to antibiotics poses a major threat to public health, requiring the development of new antibiotics and strategies to prevent the spread of resistant strains. | νμμ μ λν λ°ν 리μμ λ΄μ± μ¦κ°λ κ³΅μ€ λ³΄κ±΄μ ν° μνμ΄ λλ©°, μλ‘μ΄ νμμ κ°λ°κ³Ό λ΄μ± κ· μ£Όμ νμ°μ λ°©μ§νκΈ° μν μ λ΅μ΄ νμν©λλ€. | ||
Cancer Prevention and Treatment | Oncology | Early 20th century | |
Description: Cancer remains a leading cause of death worldwide, and developing more effective prevention strategies, early detection methods, and targeted treatments is essential for reducing mortality. | μμ μ μΈκ³μ μΌλ‘ μ£Όμ μ¬λ§ μμΈμΌλ‘ λ¨μ μμΌλ©°, μ¬λ§λ₯ μ μ€μ΄κΈ° μν΄μλ λ³΄λ€ ν¨κ³Όμ μΈ μλ°© μ λ΅, μ‘°κΈ° λ°κ²¬ λ°©λ² λ° νμ μΉλ£λ² κ°λ°μ΄ νμμ μ λλ€. | ||
Genetic Disorders and Gene Therapy | Genetics | 1960s | |
Description: Understanding the genetic basis of inherited disorders and developing targeted gene therapies can greatly improve the lives of affected individuals and their families. | μ μ μ§νμ μ μ μ κΈ°μ΄λ₯Ό μ΄ν΄νκ³ νμ μ μ μ μΉλ£λ²μ κ°λ°νλ©΄ μν₯μ λ°λ κ°μΈκ³Ό κ°μ‘±μ μΆμ ν¬κ² κ°μ ν μ μμ΅λλ€. | ||
π§ Buildup | Neurodegenerative Diseases | Neuroscience | Early 20th century |
Description: Neurodegenerative diseases like Alzheimer's and Parkinson's affect millions worldwide, and finding effective treatments and preventive measures is crucial for aging populations. | μμΈ νμ΄λ¨Έλ³κ³Ό νν¨μ¨λ³κ³Ό κ°μ μ κ²½ν΄νμ± μ§νμ μ μΈκ³ μλ°±λ§ λͺ μκ² μν₯μ λ―ΈμΉλ©°, κ³ λ Ή μΈκ΅¬λ₯Ό μν ν¨κ³Όμ μΈ μΉλ£λ²κ³Ό μλ°© μ‘°μΉλ₯Ό μ°Ύλ κ²μ΄ μ€μν©λλ€. | ||
π§ Buildup | Mental Health and Psychiatric Disorders | Psychology | Late 19th century |
Description: Mental health disorders affect a significant portion of the global population, and improving diagnosis, treatment, and access to care is essential for individual well-being and societal productivity. | μ μ κ±΄κ° μ₯μ λ μ μΈκ³ μΈκ΅¬μ μλΉ λΆλΆμ μν₯μ λ―ΈμΉλ©°, μ§λ¨, μΉλ£ λ° μλ£ μ κ·Όμ±μ κ°μ νλ κ²μ κ°μΈμ μ°λΉκ³Ό μ¬ν μμ°μ±μ νμμ μ λλ€. | ||
π§ Buildup | Addiction and Substance Abuse | Neuroscience | Early 20th century |
Description: Substance abuse and addiction have far-reaching consequences for individuals, families, and society, and developing effective prevention and treatment strategies is crucial for public health. | μ½λ¬Ό λ¨μ©κ³Ό μ€λ μ κ°μΈ, κ°μ‘± λ° μ¬νμ κ΄λ²μν μν₯μ λ―ΈμΉλ©°, ν¨κ³Όμ μΈ μλ°© λ° μΉλ£ μ λ΅μ κ°λ°νλ κ²μ΄ κ³΅μ€ λ³΄κ±΄μ λ§€μ° μ€μν©λλ€. | ||
Regenerative Medicine and Tissue Engineering | Biomedical Engineering | 1970s | |
Description: Regenerative medicine and tissue engineering hold great promise for treating injuries, diseases, and age-related degeneration by replacing or regenerating damaged tissues and organs. | μ¬μ μνκ³Ό μ‘°μ§ κ³΅νμ μμλκ±°λ λ Ένλ μ‘°μ§κ³Ό μ₯κΈ°λ₯Ό λ체νκ±°λ μ¬μν¨μΌλ‘μ¨ μν΄, μ§λ³ λ° λ Έν κ΄λ ¨ ν΄νλ₯Ό μΉλ£ν μ μλ ν° κ°λ₯μ±μ κ°μ§κ³ μμ΅λλ€. | ||
Personalized Medicine and Genomics | Genomics | 1990s | |
Description: Personalized medicine tailors medical treatments to an individual's genetic profile, potentially improving treatment efficacy and reducing adverse effects. | λ§μΆ€ μνμ κ°μΈμ μ μ μ νλ‘νμ λ§μΆ° μνμ μΉλ£λ₯Ό μ‘°μ νμ¬ μΉλ£ ν¨κ³Όλ₯Ό λμ΄κ³ λΆμμ©μ μ€μΌ μ μμ΅λλ€. | ||
Stem Cell Therapy | Regenerative Medicine | 1960s | |
Description: Stem cell therapy has the potential to treat a wide range of diseases and injuries by regenerating damaged tissues and organs, but ethical and safety concerns need to be addressed. | μ€κΈ°μΈν¬ μΉλ£λ μμλ μ‘°μ§κ³Ό μ₯κΈ°λ₯Ό μ¬μν¨μΌλ‘μ¨ λ€μν μ§λ³κ³Ό μν΄λ₯Ό μΉλ£ν μ μλ μ μ¬λ ₯μ κ°μ§κ³ μμ§λ§, μ€λ¦¬μ λ¬Έμ μ μμ μ±μ λν μ°λ €λ ν΄κ²°λμ΄μΌ ν©λλ€. | ||
Immunotherapy and Cancer Treatment | Oncology | 1890s | |
Description: Immunotherapy harnesses the power of the immune system to fight cancer, offering a promising alternative to traditional treatments like chemotherapy and radiation. | λ©΄μμλ²μ μκ³Ό μΈμ°κΈ° μν΄ λ©΄μ 체κ³μ νμ νμ©νμ¬ ννμλ²κ³Ό λ°©μ¬μ κ³Ό κ°μ μ ν΅μ μΈ μΉλ£λ²μ λν μ λ§ν λμμ μ 곡ν©λλ€. | ||
Vaccine Development and Infectious Diseases | Immunology | Late 18th century | |
Description: Vaccines have been instrumental in preventing infectious diseases, but the development of new vaccines for emerging pathogens and improving global access to existing vaccines remain ongoing challenges. | λ°±μ μ κ°μΌλ³μ μλ°©νλ λ° μ€μν μν μ ν΄μμ§λ§, μλ‘μ΄ λ³μ체μ λν μ κ· λ°±μ κ°λ°κ³Ό κΈ°μ‘΄ λ°±μ μ λν μ μΈκ³μ μΈ μ κ·Όμ± κ°μ μ μ¬μ ν ν΄κ²°ν΄μΌ ν κ³Όμ μ λλ€. | ||
Drug Delivery Systems | Pharmaceutical Science | 1950s | |
Description: Improving drug delivery systems can enhance the efficacy and safety of medications by targeting specific tissues, controlling release rates, and reducing side effects. | μ½λ¬Ό μ λ¬ μμ€ν μ κ°μ νλ©΄ νΉμ μ‘°μ§μ λͺ©νλ‘ νκ³ , λ°©μΆ μλλ₯Ό μ μ΄νλ©°, λΆμμ©μ μ€μμΌλ‘μ¨ μ½λ¬Όμ ν¨λ₯κ³Ό μμ μ±μ λμΌ μ μμ΅λλ€. | ||
Antimicrobial Resistance | Microbiology | 1940s | |
Description: The growing resistance of microorganisms to antimicrobial drugs poses a serious threat to public health, requiring the development of new drugs and strategies to combat resistant strains. | νκ· μ μ λν λ―Έμλ¬Όμ λ΄μ± μ¦κ°λ κ³΅μ€ λ³΄κ±΄μ μ¬κ°ν μνμ΄ λλ©°, λ΄μ± κ· μ£Όμ λμνκΈ° μν μλ‘μ΄ μ½λ¬Όκ³Ό μ λ΅ κ°λ°μ΄ νμν©λλ€. | ||
Neglected Tropical Diseases | Tropical Medicine | Early 20th century | |
Description: Neglected tropical diseases affect millions of people in developing countries, and increasing research and funding for prevention, diagnosis, and treatment is crucial for global health equity. | μμΈ μ΄λ μ§λ³μ κ°λ°λμκ΅μ μλ°±λ§ λͺ μ μ¬λλ€μκ² μν₯μ λ―ΈμΉλ©°, μλ°©, μ§λ¨ λ° μΉλ£λ₯Ό μν μ°κ΅¬μ μκΈ μ§μμ νλνλ κ²μ΄ μΈκ³ 보건 ννμ±μ λ§€μ° μ€μν©λλ€. | ||
Maternal and Child Health | Public Health | Early 20th century | |
Description: Improving maternal and child health is essential for reducing mortality, promoting healthy development, and achieving global health goals. | λͺ¨μ 보건μ κ°μ νλ κ²μ μ¬λ§λ₯ μ μ€μ΄κ³ , 건κ°ν λ°λ¬μ μ΄μ§νλ©°, μΈκ³ 보건 λͺ©νλ₯Ό λ¬μ±νλ λ° νμμ μ λλ€. | ||
Nutrition and Global Health | Nutritional Science | Early 20th century | |
Description: Proper nutrition is crucial for maintaining health, preventing chronic diseases, and promoting healthy growth and development, especially in developing countries. | μ μ ν μμ 곡κΈμ 건κ°μ μ μ§νκ³ , λ§μ± μ§νμ μλ°©νλ©°, νΉν κ°λ°λμκ΅μμ 건κ°ν μ±μ₯κ³Ό λ°λ¬μ μ΄μ§νλ λ° λ§€μ° μ€μν©λλ€. | ||
π§ Buildup | Obesity and Metabolic Disorders | Endocrinology | 1930s |
Description: Obesity and related metabolic disorders are major risk factors for chronic diseases, and understanding the underlying mechanisms and developing effective interventions are critical for public health. | λΉλ§κ³Ό κ΄λ ¨ λμ¬ μ§νμ λ§μ± μ§νμ μ£Όμ μν μμΈμ΄λ©°, κ·Όλ³Έμ μΈ λ©μ»€λμ¦μ μ΄ν΄νκ³ ν¨κ³Όμ μΈ μ€μ¬λ²μ κ°λ°νλ κ²μ΄ κ³΅μ€ λ³΄κ±΄μ λ§€μ° μ€μν©λλ€. | ||
Cardiovascular Diseases | Cardiology | Early 20th century | |
Description: Cardiovascular diseases are the leading cause of death globally, and improving prevention, diagnosis, and treatment strategies is essential for reducing mortality and improving quality of life. | μ¬νκ΄ μ§νμ μ μΈκ³μ μΌλ‘ μ£Όμ μ¬λ§ μμΈμ΄λ©°, μλ°©, μ§λ¨ λ° μΉλ£ μ λ΅μ κ°μ νλ κ²μ΄ μ¬λ§λ₯ μ μ€μ΄κ³ μΆμ μ§μ ν₯μμν€λ λ° νμμ μ λλ€. | ||
Respiratory Diseases | Pulmonology | 19th century | |
Description: Respiratory diseases, including chronic obstructive pulmonary disease (COPD) and asthma, affect millions worldwide, and improving prevention, diagnosis, and treatment is crucial for reducing morbidity and mortality. | λ§μ± νμμ± νμ§ν(COPD)κ³Ό μ²μμ ν¬ν¨ν νΈν‘κΈ° μ§νμ μ μΈκ³ μλ°±λ§ λͺ μκ² μν₯μ λ―ΈμΉλ©°, μλ°©, μ§λ¨ λ° μΉλ£λ₯Ό κ°μ νλ κ²μ΄ μ΄νμ¨κ³Ό μ¬λ§λ₯ μ μ€μ΄λ λ° λ§€μ° μ€μν©λλ€. | ||
Diabetes | Endocrinology | 19th century | |
Description: Diabetes is a chronic metabolic disorder affecting millions worldwide, and improving prevention, early detection, and management strategies is essential for reducing complications and improving quality of life. | λΉλ¨λ³μ μ μΈκ³ μλ°±λ§ λͺ μκ² μν₯μ λ―ΈμΉλ λ§μ± λμ¬ μ§νμ΄λ©°, μλ°©, μ‘°κΈ° λ°κ²¬ λ° κ΄λ¦¬ μ λ΅μ κ°μ νλ |