Cortical bone, also known as compact bone, is dense and forms the outer layer of bones. It provides strength and support, and comprises about 80% of the total bone mass in the human body.
Trabecular bone, also called spongy or cancellous bone, has a porous structure with interconnected trabeculae. It is found in the inner layer of bones and provides structural support while also allowing for flexibility and shock absorption.
Osteoblasts: Responsible for bone formation by secreting the matrix and initiating the mineralization process.
Osteocytes: Mature bonecells that are embedded in the bone matrix and maintain bone tissue.
Osteoclasts: Specialized cells involved in the resorption and breakdown of bone tissue.
Extracellular Matrix
The extracellular matrix of bone tissue consists of collagen fibers and mineralsalts, primarily hydroxyapatite, which provides strength and hardness to the bone.
Hematopoiesis: Certain bones, such as the long bones and pelvis, are sites for the production of bloodcells in a process called hematopoiesis.
Study Guide
When studying bone tissue, it's important to understand the structure, function, and composition of bones. Here are some key topics to focus on:
Types of bone tissue: Understand the differences between cortical and trabecular bone and their respective functions.
Cells of bone tissue: Learn about the roles of osteoblasts, osteocytes, and osteoclasts in bone formation and remodeling.
Extracellular matrix: Explore the composition of the bone matrix, including collagen fibers and mineralsalts.
Functions of bone tissue: Understand the multiple functions of bone tissue in the body, including structural support, protection, movement, mineralstorage, and hematopoiesis.
Related disorders: Familiarize yourself with common bone disorders such as osteoporosis, osteogenesis imperfecta, and Paget's disease, and their impact on bone tissue.
By mastering these concepts, you'll gain a comprehensive understanding of bone tissue and its significance in the human body.
Use evidence and scientific reasoning to explain how characteristic animal behaviors (e.g., building nests to protect young from cold, herding to protect young from predators, attracting mates for breeding by producing special sounds and displaying colorful plumage, transferring pollen or seeds to create conditions for seed germination and growth) and specialized plant structures (e.g., flower brightness, nectar, and odor attracting birds that transfer pollen; hard outer shells on seeds providing protection prior to germination) affect the probability of successful reproduction of both animals and plants.