基础医学的研究方向非常繁杂,包括人体解剖学、组织学和胚胎学、生理学、生物化学、微生物学、寄生虫学、免疫学、病理学、病理生理学 ...
研究生物体对抗原物质免疫应答性及其方法的生物-医学科学。免疫应答是机体对抗原刺激的反应,也是对抗原物质进行识别和排除的一种生物学过程。
病原生物学是研究与疾病有关的微生物(包括病毒、细菌、立克次体、衣原体等)和寄生虫(包括原虫、蠕虫、医学节肢动物)的生物学规律、致病机理及其与宿主之间相互作用的科学,是基础医学中极为重要的学科。
是揭示疾病的病因、发病机制和转归的医学基础学科。病理学是运用自然科学的方法侧重从形态上观察和研究疾病,而病理生理学则注重机能和代谢方面改变的研究。
运用病理学知识,对身体(活体、尸体)进行检验,进而对死因、死亡方式和犯罪手法等作出解释的学科。验尸通常是最主要的法医病理学检验内容,并经常应用到法律和司法案件中。法医病理学家通常被要求对某一尸体或相关证据的状态进行分析并作出权威结论。
是医学中的一门学科,其主要任务是研究电离辐射对人体的作用、机制、损伤与修复的规律,放射损伤的诊断、治疗和预防,为放射性工作人员的卫生防护、医学监督和保健工作提供理论依据和措施。
沈倍奋
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免疫生物化学专家,中国工程院院士,中国医学科学院学部委员,中国军事医学科学院基础医学研究所研究员、博士生导师,中国人民解放军分子免疫学重点实验室主任。
Institutes :Nanjing University
祁海
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现任清华大学医学院院长、教授,清华大学生命科学学院兼职教授。祁海教授长期研究抗体免疫应答调控,其开创性成果包括发现抗体亲和力成熟的细胞间正反馈机制、鉴定了记忆B细胞前体、揭示抗体应答雌雄二态性的细胞学基础、以及定义了第一条调控获得性免疫应答的脑-脾轴神经通路。
Institutes :Tsinghua University
张学
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第十四届全国人大代表,医学遗传学家,中国工程院院士,中国医学科学院学部委员,国家杰出青年科学基金获得者,教育部长江学者特聘教授,现任哈尔滨医科大学党委书记、黑龙江省医学科学院院长,中国医学科学院基础医学研究所-北京协和医学院基础学院医学遗传学系主任(长聘教授)、国家卫健委罕见病诊疗与保障专家委员会主任委员、中国医师协会医学遗传医师分会会长,曾任中国医学科学院北京协和医学院副院校长,中华医学会医学遗传学分会主任委员。
Institutes :Harbin Medical University
胡大一
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1970毕业于北京医科大学就读(原北京医学院),胡大一教授率先在我国开展射频消融根治快速心律失常技术,并向全国150多家医院以及印度、越南、日本等国推广普及此项技术,先后获卫生部科技进步和国家科技进步二等奖。
Genetics in medicine is the study of human disease and genetic relationship of a comprehensive subject.Study on genetic disease pathogenesis, diagnosis, treatment, transfer method, prognosis, recurrence risk and Prevention.Recurrent so as to control the genetic disease in a family, reduce the harm it in the crowd.The main contents include:cellular and molecular basis of genetic,chromosome aberration and chromosome disease,molecular basis of genetic,the basic laws of heredity,signal gene disease,complex diseases,hereditary enzymopathy,population genetic,cancer genetics and the basic experimental techniques in medical genetics.
Histology and embryology is a basic course for clinical medicine, divided into two parts, histology and embryology. The histology is the science of body micro structure. This course mainly introduces basic organization and system, such as the organs structures under the optical microscopes and electron microscopes, including histological introduction, epithelial tissue, connective tissue, cartilage and bone, blood and blood, muscle tissue and nerve tissue, nervous system, circulatory system, immune system, skin, the endocrine system, the digestive tube and digestive gland, respiratory system, eyes and ears, urinary system and reproductive system of male and female reproductive system. Embryology is the study of biological ontogenesis and mechanism, including germ cells, fertilization, embryo, etc.
Pathology is a basic course for clinical medicine, which addresses four components of disease, cause/etiology, mechanisms of development (pathogenesis), structural alterations of cells (morphologic changes), and the consequences of changes (clinical manifestations).
Cell biology is in close relationship with other courses such as biochemistry, genetic, molecular biology and medical science. This course introduces the basic concepts and fundamental theories of cellular biology including the structure and function of membranes and cytoskeletons; molecular basis of cellular structure, organization, proliferation, and movement; differentiation and functions of specialized cell types.
Microbiology is an introductory course dealing with bacteria, fungi, viruses, and other microorganisms. The contents will cover microbial morphology, reproduction, nutrition, growth, metabolism, genetics, mutation, pathogenicity, immune response, and practical application in industry and agriculture.
Physiology is a science of studying normal biological functions, and the regulatory factors involved in these functions. Contents of this course include: cellular fundamental functions; blood; blood circulation; respiration; digestion and absorption; energy metabolism and body temperature; urine formation and excretion; function of the sensory organs; function of the nervous systems; endocrine and reproduction.
Biochemistry describes the chemical processes and mechanisms shared by all living organisms. The properties of amino acids; the structure and function of proteins, nucleic acids, lipids and carbohydrates; the kinetics and catalytic mechanisms of enzymes; the functions of vitamin, co-enzyme and hormone; transmembrane transportation; glycolysis; citric acid cycle; TCA cycle; electron transport and oxidative phosphorylation; glycogen metabolism; fat acids metabolism and amino acids metabolism are included in this course.
New England Journal of Medicine
ISSN: 0028-4793
ISSN: 0140-6736
ISSN: 1078-8956
ISSN: 1346-9843
ISSN: 0376-2491
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执业医师资格证