The long hollow passageway, the Haversian canal, contains small blood vessels responsible for the blood supply to osteocytes (individual bone cells).
Osteons are several millimetres long and about 0.2 millimeter (0.008 inch) in diameter; they tend to run parallel to the long axis of a bone.
Running through the core of each osteon is the Haversian canal containing small blood vessels and nerve fibers that serve the needs of the osteon's cells
The Haversian canals run longitudinally in long bones.
The haversian canal is the name of it, hope that helps!
Haversian canal & Central Canal
Central (Haversian) Canal is the canal that runs through the core of each osteon.
The haversian canal is the axis of the basic unit of bone, the osteon, and it has longitudinal orientation. The Volkmann`s canal has a transverse orientation and interconnect different Haversian canal between them.
Bone cells surround Haversian canals. Osteon (Haversian system) is the structural unity of bone. Spaces for osteocytes are called lacunae. The matrix is present in concentric rings called lamellae. Canaliculi are canals that join lacunae with the central Haversian canal (central canal)
Osteons (also called Haversian systems) form the basic structural unit of bone. Inside osteons we find the haversion canal - a central canal that contains the bone's nerve and blood supplies. The haversion canals surround these blood vessels and nerve cells. Communication with osteocytes in lacunae ("small lakes") through canaculi ("small canals") is possibly due to intercommunication channels between the haversion canals.
Haversian canal & Central Canal
The central, or Haversian, canal. The canal runs through the core of each osteon.
Central (Haversian) Canal is the canal that runs through the core of each osteon.
The haversian canal is the axis of the basic unit of bone, the osteon, and it has longitudinal orientation. The Volkmann`s canal has a transverse orientation and interconnect different Haversian canal between them.
Osteon the functional unit of compact bone. An osteon is made up of the Haversian canal, osteocyte, and canliculi. Each osteon is made up of concentric layers.
Bone cells surround Haversian canals. Osteon (Haversian system) is the structural unity of bone. Spaces for osteocytes are called lacunae. The matrix is present in concentric rings called lamellae. Canaliculi are canals that join lacunae with the central Haversian canal (central canal)
The osteon, or Haversian system, is the fundamental functional unit of much compact bone. Each consists of concentric layers of Osteocytes, called Lamellae, surrounding a central Haversian Canal containing nerve and blood supplies.Osteoblasts are "parent cells" which form the lamellae sequentially, from the "outside" in toward the Haversian canal. Some of them develop into osteocytes, each contained in a space called a lacuna.Osteocytes contact the cytoplasmic processes of other osteocytes by a network of small canals known as canaliculi which is known to transport nutrients to, and waste away from the osteon.
Compact bone consists of a repeating structure called a Haversian system, or osteon, which is the primary anatomical and functional unit. Each osteon has concentric layers which are deposited around a central canal, also known as the Haversian canal, each containing a blood and nerve supply.
Osteons (also called Haversian systems) form the basic structural unit of bone. Inside osteons we find the haversion canal - a central canal that contains the bone's nerve and blood supplies. The haversion canals surround these blood vessels and nerve cells. Communication with osteocytes in lacunae ("small lakes") through canaculi ("small canals") is possibly due to intercommunication channels between the haversion canals.
The perforating (Volkmann) canals, that run horizontally in compact bone and connect to the central canal.
The perforating (Volkmann) canals, that run horizontally in compact bone and connect to the central canal.
The basic unit of a compact bone is an osteon. This is also known as the Haversian canal and it contains blood vessels that transport blood to the bone.