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Bone histology
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Histology

Organ system histology

Cardiovascular system
Cardiac muscle histology
Artery and vein histology
Arteriole, venule and capillary histology
Endocrine system
Pituitary gland histology
Pancreas histology
Thyroid and parathyroid gland histology
Adrenal gland histology
Eyes, ears, nose and throat
Eye and ear histology
Nasal cavity and larynx histology
Thyroid and parathyroid gland histology
Gastrointestinal system
Gallbladder histology
Esophagus histology
Stomach histology
Small intestine histology
Colon histology
Liver histology
Pancreas histology
Hematological system
Blood histology
Immune system
Thymus histology
Spleen histology
Lymph node histology
Integumentary system
Skin histology
Musculoskeletal system
Bone histology
Cartilage histology
Skeletal muscle histology
Nervous system
Central nervous system histology
Peripheral nervous system histology
Renal system
Ureter, bladder and urethra histology
Kidney histology
Reproductive system
Prostate gland histology
Penis histology
Testis, ductus deferens, and seminal vesicle histology
Mammary gland histology
Ovary histology
Fallopian tube and uterus histology
Cervix and vagina histology
Respiratory system
Nasal cavity and larynx histology
Trachea and bronchi histology
Bronchioles and alveoli histology
Transcript

Content Reviewers:

Rishi Desai, MD, MPH, Ghassan Tranesh, MD, MSC FCAP

Contributors:

Justin Ling, MD, MS, Kaylee Neff

Bones are composed primarily of an extracellular calcified material called the bone matrix or collagen matrix.

It also has three main types of cells: osteocytes, osteoblasts, and osteoclasts.

Osteocytes are found in cavities or lacunae between the layers of the bone matrix and assist with the nutrition of the bone.

Osteoblasts are found mostly along the surface of bones, but also within the bone matrix itself.

They’re responsible for both synthesizing and mediating the mineralization of the bone matrix.

Osteoclasts are large multinucleated cells that are responsible for removing calcified bone matrix and allow for the constant turnover and remodelling of bones.

Morphologically, there are two main types of bone.

The compact or cortical bone is the dense portion that’s found closer to the surface of bones.

The deeper portion of bones have interconnecting cavities and is called the cancellous or trabecular bone.

In this electron microscopy or EM image of the tibia, the compact bone is also blue, and the more central trabecular bone is yellow. Microscopically, both compact and trabecular bones will be organized or arranged in two forms.

Layered or lamellar bone has a bone matrix that’s arranged in sheets.

80% of lamellar bone is found within the compact bone and only 20% is found within the trabecular bone. The more immature woven bone, has collagen fibers that are arranged randomly.

This form of bone is found mostly within developing and growing bones, as well as bones that have healed after being fractured.

Alright, let’s compare sections of a long bone and a flat bone.

This long bone is a partial cross-section of the head of a long bone, and the flat bone is a cross-section from the skull.

Both sections have been decalcified in order to make it easier to cut the bone into thin sections, but the collagen is still present in the slides.

Since the denser compact bone is typically found closer to the surface, it’s seen in the long bone along the outer edge, whereas the flat bone has compact bone on both of its outer flat surfaces.

“Trabecula” means “little beam” in latin, which is why the trabecular bone has small beam-like structures that are also called spicules.

The spicules connect with each other to form a network of interconnecting spaces that contain bone marrow.

The vertebrae is another example of a bone that has both types of morphology, but its compact bone is only a very thin outer layer, with the majority of the bone consisting of trabecular bone.

Summary

Bone is a connective tissue that consists of an organic matrix (containing collagen and proteoglycans) and inorganic minerals (primarily hydroxyapatite). The organic matrix provides the tensile strength, and the inorganic minerals provide the compressive strength. Bone also contains three major types of cells, which are osteocytes, osteoblasts, and osteoclasts. Bone undergoes continuous remodeling throughout life. Osteoblasts produce a new bone matrix, which is mineralized by osteocytes. Osteoclasts resorb old bone matrix. This process of remodeling ensures that bones are constantly adapting to changes in mechanical loading.

Sources
  1. "Histology. A Text and Atlas" Wolters Kluwer (2018)
  2. "Wheater's Functional Histology" Churchill Livingstone (2013)
  3. "Junqueira's Basic Histology: Text and Atlas, Fourteenth Edition" McGraw-Hill Education / Medical (2015)
  4. "Robbins Basic Pathology" Elsevier (2017)
  5. "Diagnostic Immunohistochemistry" Elsevier (2021)
  6. "Cytology" Saunders (2013)
  7. "Regulation of cortical and trabecular bone mass by communication between osteoblasts, osteocytes and osteoclasts" Archives of Biochemistry and Biophysics (2014)
  8. "Morphological and Dimensional Characteristics of Bone Mineral Crystals" Key Engineering Materials (2006)
  9. "Development of the Hematopoietic System and Disorders of Hematopoiesis that Present During Infancy and Early Childhood" Pediatric Clinics of North America (2013)