Collagenous fibers (white fibers) Elastic fibers (yellow fibers) Reticular fibers (3)Ground substance :composition of molecule,functions(Molecular sieve,medium) (4)Cells (structure,Location and functions) Fibroblast. ropha Plas Mast cell Fat cell Undifferentiated mesenchymal cell Wandering cells 2.D (1)Structural characteristic (2)Classification 3)Function 3.Adipose tissue ral cha racteristic and Function Tissue Structural characteristic and Function [Focal and Difficult points] Focal point ture and functions of Fibroblast,Macrophage,Plasma cell,Mast cell Difficult points The Molecular sieve [Teaching methods]Class Teaching [Teaching hours]2 hours (Weiwei Wang) Chapter4.cartilage,bone and osteogenesis [Teaching aim and requirements] Mastering:the structural features,functions of Cartilage Understanding:the characterastic and distribution of three kind of cartilage. 2.Mastering:the structural features of osseous tissue,and three kind of bone lamellae. 3.Understanding the osteogenesis,and the growth of bone. ITeaching contentsl Cartilage (1 )The component-characterastic of cartilage:chondrocytes and cartilage matrix The form and function of chondrocytes (2)The classification of cartilage:hyaline cartilage,elastic cartilage fibrocartilage The feature-structure.location.functions of the three kinds of cartilage
6 Collagenous fibers (white fibers) Elastic fibers ( yellow fibers ) Reticular fibers (3) Ground substance :composition of molecule, functions (Molecular sieve, medium) (4) Cells (structure , Location and functions) Fibroblast, Macrophage Plasma cell Mast cell Fat cell Undifferentiated mesenchymal cell Wandering cells 2.Dense Connective tissue, D.C.T. (1) Structural characteristic (2) Classification (3) Function 3. Adipose tissue Structural characteristic and Function 4.Reticular Tissue Structural characteristic and Function [Focal and Difficult points] Focal point Structure and functions of Fibroblast, Macrophage , Plasma cell, Mast cell Difficult points The Molecular sieve [Teaching methods] Class Teaching [Teaching hours] 2 hours (Weiwei Wang) Chapter 4. cartilage ,bone and osteogenesis [Teaching aim and requirements] 1.Mastering: the structural features, functions of Cartilage. Understanding: the characterastic and distribution of three kind of cartilage. 2.Mastering: the structural features of osseous tissue, and three kind of bone lamellae. 3.Understanding the osteogenesis , and the growth of bone. . [Teaching contents] 1. Cartilage (1 )The component- characterastic of cartilage: chondrocytes and cartilage matrix The form and function of chondrocytes (2) The classification of cartilage: hyaline cartilage , elastic cartilage fibrocartilage The feature – structure, location, functions of the three kinds of cartilage
(3)Perichodrium and the growth of cartilage 2.bone (1)The component-characterastic ofosseous tissue The component of bone matrix -lamellae The form,function,location of osteocyte,osteoblast,osteoclast,osteoprogenitor cell. (2)Bone architecture Spongy bone: Compact bone: Circumferential lamellae Havensian system (osteons) Interstitial lamellae Periosteum:structure and function (1)E sse ses of ossification (2)Classification of osteogenesis Intramembranous ossification Endochondral ossification Focaland Difficult points] Focal point Characterastic of cartilage and osseous tissue.Bone architecture Difficult points Osteogenesis,formation of the long bone. 2 hours (Weiwei Wang) Chapter 5.Blood and Hematopoiesis [Teaching aim and requirements] 1.Mastering:the form.function and normal concentrations of blood cells. 2.Understanding:the structural features and function of red bone marrow,and the hemopoietic inductive microenvironment 3.Mastering:the biological fea of He emopoietic Stem Cell and Hemopoietic progenitor 4.Understanding:the rule of major morphological changes in maturation of blood cells [Teaching contents] 1.General Description:composition of blood 2、Blood Cells normal c centrations Form of LM,features of EM and function (1)Erythrocyte: Form of LM,features of RBC,reticulocyte,clinical significance (2)Leukocytes (Form and main function) >
7 (3) Perichodrium and the growth of cartilage. 2. bone (1) The component- characterastic of osseous tissue The component of bone matrix -lamellae The form ,function , location of osteocyte, osteoblast, osteoclast, osteoprogenitor cell. (2) Bone architecture Spongy bone: Compact bone: Circumferential lamellae Havensian system (osteons) Interstitial lamellae Periosteum:structure and function 3. Osteogenesis and endosteum (1) Essential processes of ossification (2) Classification of osteogenesis Intramembranous ossification Endochondral ossification [Focal and Difficult points] Focal point Characterastic of cartilage and osseous tissue. Bone architecture Difficult points Osteogenesis, formation of the long bone. [Teaching methods] Class Teaching [Teaching hours] 2 hours (Weiwei Wang) Chapter 5. Blood and Hematopoiesis [Teaching aim and requirements] 1. Mastering: the form , function and normal concentrations of blood cells. 2. Understanding: the structural features and function of red bone marrow, and the hemopoietic inductive microenvironment 3. Mastering: the biological features of Hemopoietic Stem Cell and Hemopoietic progenitor cell. 4. Understanding: the rule of major morphological changes in maturation of blood cells [Teaching contents] 1、General Description: composition of blood 2、Blood Cells normal concentrations , Form of LM, features of EM and function (1 ) Erythrocyte : Form of LM, features of RBC, reticulocyte, clinical significance (2) Leukocytes :(Form and main function)
general feature and classification granulocytes Neutrophils,Eosinophils,Basophils agranulocytes Monocyte,lymphocyte (3)Blood platelets Form of LM,features of EM and function 3、Hematopoiesis (1)Haemo poietic organs (3) Hemopoiesis Hemopoietic Stem Cell and Hemopoietic progenitor cell. Maturation of blood cells(four stages)in each cell line. The major morphological changes in maturation of blood cells Focal and Difficult points] Focal point The form,function and normal numbers of blood cells Difficult points Hemopo ietic stemcell and Hemopoietic progenitor cell.Hemopoietic inductive microenvironment [Teaching methods]Class Teaching [Teaching hours]2 hours (Weiwei Wang) Chapter6.Muscular Tissue Teaching Aim and Requirements] (1)Master the light microscope(LM)structure of 3 types of muscular tissues (2)Master the ulrastructure of skeletal andcardiac mus (3)Master the structure of neurons [Teaching Contents] 1.General characteristics of muscular tissue 1.1 Component of muscle tissu 1.2 A specific terminology in respect of muscle cells 1.3 Classification 2.Histological and ultrastructural features of three types of muscle tissue 2.1 Skeletal muscle 2.1.1 microstructure of skeletal muscle underLM 2.1.2 Ultrastructure of skeletal muscle under EM 2.1.3 Contraction mechanism 2.2 Cardiac muscle
8 general feature and classification granulocytes: Neutrophils, Eosinophils, Basophils agranulocytes: Monocyte, lymphocyte (3) Blood platelets Form of LM, features of EM and function 3、Hematopoiesis (1) Haemopoietic organs (2) Red bone marrow (hemopoietic inductive microenvironment) (3) Hemopoiesis Hemopoietic Stem Cell and Hemopoietic progenitor cell. Maturation of blood cells (four stages) in each cell line. The major morphological changes in maturation of blood cells [Focal and Difficult points] Focal point . The form, function and normal numbers of blood cells Difficult points Hemopoietic stem cell and Hemopoietic progenitor cell. Hemopoietic inductive microenvironment [Teaching methods] Class Teaching [Teaching hours] 2 hours (Weiwei Wang) Chapter 6.Muscular Tissue [Teaching Aim and Requirements] (1) Master the light microscope (LM) structure of 3 types of muscular tissues (2) Master the ultrastructure of skeletal and cardiac muscles (3) Master the structure of neurons [Teaching Contents] 1. General characteristics of muscular tissue 1.1 Component of muscle tissue 1.2 A specific terminology in respect of muscle cells 1.3 Classification 2. Histological and ultrastructural features of three types of muscle tissue 2.1 Skeletal muscle 2.1.1 microstructure of skeletal muscle under LM 2.1.2 Ultrastructure of skeletal muscle under EM 2.1.3 Contraction mechanism 2.2 Cardiac muscle