Biology 211 Anatomy & Physiology I

Slides:

Advertisements

Similar presentations

Chapter 9, part 1 Articulations.

Advertisements

Where bones come together.

Biology 211 Anatomy & Physiology I Joints. Last week: Defined bones as organs of skeletal system Also organs: joints (one or more types of tissues, all.

Articulations. Articulations- points where two or more bones come together to form a joint [ maybe rigid or movable] Classified by Structure or Function.

COMMON COURSE OBJECTIVES:

Joints of the Skeletal System

Joints. Joint (AKA Articulation) A point of contact between bones, between cartilage and bone or between teeth and bone.

7 Unit 1 Chapter 7. 7 Unit 1 Places where bones meet Classified structurally by anatomy Classified structurally by motion.

Joint Structure.

Anatomy of Bones and Joints

Joints or Articulations. A joint, or articulation, is the place of union between two or more bones.

The Skeletal System: Articulations

Joints & Movements.

Chapter 9 Articulations.

COMMON COURSE OBJECTIVES:

Articulations Chapter 8.

Essentials of Human Anatomy The Skeletal System 2

Joints A joint is the site of meeting of two or more bones. Joints are classified into three types (depending on the material that hold the articular bones.

Prof. Saeed Abuel Makarem

Articulations A. Joints (articulations) – wherever two bones meet B. Functions – dependent on need for strength and mobility 1. joints in skull are very.

Joints Chapter 9. Objectives Be able to define an articulation and arthrology Know the four main categories of articulations and their sub categories.

Bone Articulations and Movement

© 2010 Delmar, Cengage Learning 1 PowerPoint Presentation to Accompany.

Bones and Joints Characteristics Joint Movement. Articulations  A joint, or articulation, is the place of contact between bones, between bone and cartilage,

Joints Chapter 9. Objectives Be able to define an articulation and arthrology Know the four main categories of articulations and their sub categories.

Articulations Biology 2121 Chapter 8.

1 Kinesiology. Daily Objectives  Content Objectives  Build a foundational knowledge of the articular system.  Understand the Three classifications.

Articulations A. Classification of joints 1. Structural classification 1. Structural classification 2. Functional classification 2. Functional classification.

Chapter 7: Joints © 2013 John Wiley & Sons, Inc. All rights reserved.

In the name of ALLAH.

Classification of Joints A joint (also called an articulation) is a point of contact between bones, between cartilage and bones, or between teeth and bone.

Honors Anatomy & Physiology Chapter 8. JOINTS  aka Articulations  2 Functions: 1. Hold Bones Together 2. Allows otherwise rigid skeleton to have some.

Elements of Arthrology Arthrology-study of joints Arthritis- inflammation of the joint Classification of joints Degree of movement Joining material.

General Information (1). Synarthrosis Immovable joints (2). Amphiarthrosis Slightly moveble (3). Diarthrosis Freely moveable Functional Classification.

Chapter 9 Joints Lecture slides prepared by Curtis DeFriez, Weber State University.

Joints of the Human Body

Joints and their classifications

Copyright © 2006 Pearson Education, Inc., publishing as Benjamin Cummings Objective 9 Compare and contrast the three major categories of joints. Give an.

What are the three types of joints, based on functional classification?

JOINTS AND RELATED TERMS Dr. Farhat Aamir. At the end of this session, the student should be able to: Identify sub division of skeletal system. Identify.

Figure 8.3 General structure of a synovial joint.

Daily Quiz Where is the femur found? What is another name for the mandible? Where is the humerus found? Describe a comminuted bone fracture. What is the.

© 2016 Pearson Education, Inc.

Chapter 5 The Skeletal System

Joints And I’m not talking about the illegal kind.

Bio& 241 A&P 1 Unit 2 / Lecture 4.

Anatomy-Skeletal System

Biology 322 Human Anatomy I

Chapter 9 Articulations

CHAPTER 7 Articulations “Joints”

COMMON COURSE OBJECTIVES:

Biology 322 Human Anatomy I

Joints and Movements.

Biology 211 Anatomy & Physiology I

Joint Classifications, Characteristics & Types

Joints occur wherever two bones meet.

Revised from Joints and Skeletal Articulations

Pima Medical Institute BIO 120

Think about it: John bent over to pick up a dime. What bones do you think is involved in this movement? his hip/pelvic bones at his patella (knee cap),

Presentation transcript:

Biology 211 Anatomy & Physiology I Dr. Thompson Joints

Last week: Defined bones as organs of skeletal system Also organs: joints (one or more types of tissues, all serving a common function)

Joints are classified using two chararacteristics 1. What type of tissue connects the bones at the joint 2. How much motion the joint allows Ordinary connective tissue = Fibrous Hyaline or Fibrous cartilage = Cartilagenous Fluid-filled capsule (synovium) = Synovial No motion = Synarthrosis Limited motion = Amphiarthrosis Freely movable = Diarthrosis

Fibrous Joints: Bones connected by dense regular or dense irregular connective tissue with many collagen fibers. No joint cavity. Depending on length of collagen fibers, may be synarthrotic (no motion) or amphiarthrotic (limited motion)

Fibrous Joints: Three subtypes: 1. Suture: Collagen fibers very short Always synarthrotic Only in skull

Collagen fibers longer Amphiarthrotic (some motion) Fibrous Joints: Three subtypes: (1. Suture: Collagen fibers very short, synarthrotic, only in skull) 2. Syndesmosis Collagen fibers longer Amphiarthrotic (some motion)

Collagen fibers very short Synarthrotic (no motion) Fibrous Joints: Three subtypes: (1. Suture: Collagen fibers very short, synarthrotic, only in skull) (2. Syndesmosis: Collagen fibers longer, amphiarthrotic) 3. Gomphosis: Collagen fibers very short Synarthrotic (no motion) Teeth in mandible or maxilla

Cartilagenous Joints: Bones connected by some form of cartilage No joint cavity. Depending on length of collagen fibers, may be synarthrotic (no motion) or amphiarthrotic (limited motion)

Cartilagenous Joints: Two subtypes: 1. Synchondrosis: Bones connected by hyaline cartilage Synarthrotic or amphiarthrotic Costosternal; Epiphyseal plates

Cartilagenous Joints: Two subtypes: (1. Synchondrosis: Bones connected by hyaline cartilage Synarthrotic or amphiarthrotic; Costosternal; Epiphyseal plates) 2. Symphysis: Bones connected by fibrous cartilage Amphiarthrotic or synarthrotic Intervertebral disks; Pubic symphysis

Synovial Joints: Bones separated by synovial joint cavity; connected by ligaments of dense regular C.T. Most synovial joints are diarthrotic Some are amphiarthrotic

Synovial Joints: Components: Proximal bone with articular cartilage Distal bone with articular cartilage Articular capsule with: Fibrous capsule Synovial membrane surrounding Synovial cavity Ligaments of dense irregular C.T. Intrinsic = thickenings of fibrous capsule Extracapsular = outside of fibrous capsule Intracapsular = inside synovial cavity

Proximal bone with articular cartilage Synovial Joints: Proximal bone with articular cartilage Distal bone with articular cartilage Articular capsule with Fibrous capsule, Synovial membrane surrounding Synovial cavity Intrinsic ligament = thickenings of fibrous capsule Extracapsular ligament = outside of fibrous capsule Intracapsular ligament = inside synovial cavity In knee, sternoclavicular, and temporomandibular joints: Also meniscus of fibrous cartilage

Synovial Joints: Six types based on structure and type of motion:

Synovial Joints: Six types 1. Plane or Gliding Gliding motion along flat articular surfaces. Amphiarthrotic

Synovial Joints: Six types 2. Hinge joint Motion around single axis perpendicular to long axis of bones. Often convex articular surface on one bone and concave articular surface on other bone. Diarthrotic

Synovial Joints: Six types 3. Pivot joint Motion around single axis parallel to long axis of bones. Often convex articular surface on one bone and concave articular surface on other bone. Diarthrotic

Synovial Joints: Six types 4. Condyloid joint Motion around two axes. Articular surfaces of both bones round or oval. One shallowly convex. One shallowly concave Diarthrotic

Synovial Joints: Six types 5. Saddle joint Motion around two axes. Articular surfaces of both bones are: Convex one direction Concave other direction Diarthrotic

Synovial Joints: Six types 6. Ball & Socket joint Motion around all three axes. Articular surfaces of one bone forms "ball" which fits into "socket" on other bone Diarthrotic

We’ve noted that Synovial joints are stabilized by Shapes of the articular surfaces of bones Ligaments Menisci They are also stabilized by muscles and tendons which cross over the joint

Synovial joints often cushioned by a fluid-filled sac called a bursa located between the joint and overlying muscles, tendons, or ligaments.

The following six specific synovial joints are described In your Saladin text: Jaw (Temporomandibular) Shoulder (Humeroscapular) Elbow (Humeroulnar, Humeroradial, Radioulnar) Hip (Femorocoxal or Coxal) Knee (Tibiofemoral) Ankle (Talotibial, Talofibular) On exams, you should be able to briefly but accurately describe the structure of each of these joints, including all major ligaments; and you should be able to describe the actions for each

Movements of synovial diarthrotic joints: Flexion and Extension

Movements of synovial diarthrotic joints: Abduction and Adduction

Movements of synovial diarthrotic joints: Rotation and Circumduction

Movements of synovial diarthrotic joints: Protraction and Retraction

Movements of synovial diarthrotic joints: Elevation and Depression

Movements of synovial diarthrotic joints: Inversion and Eversion

Movements of synovial diarthrotic joints: Opposition (and Reposition)