Cervical and lumbar segments are physiologically lordotic, it's normal.
The thoracic lordosis is a spinal deformity, so yes, this may affect the thoracic vertebrae.
The thoracic vertebrae, of which there are 12.
the thoracic spine is above the lumbar spine which means ALL thoracic vertebrae are superior to the lumbar vertebrae.
Vertebrae are divided into sections: the atlas and axis account for the first cervical vertebrae, of which there are 7 in total; there are 12 thoracic vertebrae, 7 lumbar vertebrae, 1 sacrum (5 separate vertebrae in a baby), and 1 coccyx (4 separate vertebrae in a baby).
cervical vertebrae thoracic vertebrae. lumbar vertebrae
That would be the thoracic vertebrae. (. . . of the thorax), and there are 12 of them - T1 through T12.
Kyphosis is a condition of over curvature of the upper back (thoracic vertebrae), making it overly convex(hunch back), while Lordosis is the condition in which the cervical and lumbar vertebrae are inwards excessively(sway back), or overly concave.
The thoracic vertebrae, of which there are 12.
False
the thoracic spine is above the lumbar spine which means ALL thoracic vertebrae are superior to the lumbar vertebrae.
The ribs articulate with the thoracic vertebrae. The thoracic vertebrae also articulate with each other.
Vertebrae are divided into sections: the atlas and axis account for the first cervical vertebrae, of which there are 7 in total; there are 12 thoracic vertebrae, 7 lumbar vertebrae, 1 sacrum (5 separate vertebrae in a baby), and 1 coccyx (4 separate vertebrae in a baby).
Thoracic vertebrae are attached to a pair of ribs
Chimpanzees have 13 thoracic vertebrae, the same number as humans.
The body or centrum of the thoracic vertebrae are heart shaped. There are twelve thoracic vertebrae in humans and they are located in the chest.
12 vertebrae have ribs attatched
The thoracic vertebrae are found in the chest region of the body. Humans have twelve thoracic vertebrae which are located between the cervical and lumbar vertebrae.
All ribs are attached in the back to the thoracic vertebrae.