Sunday, 30 June 2013

Lumbar Support

I've gone back to thinking more about spinal curves when it comes to anthros. This is particularly relevant with tough, heavy types and also very relevant when thinking about how a tail would be structured and function on a biped. I think that the fundamental understanding of what can and can't be done with anthros bipeds certainly concerns the lumbar support system.


Part of the lumbar lordosis support
The human S-curve transfers tension and load down into the pelvis via the sacro-iliac joint. If we are going to retain anthro features such as larger skulls, bigger chest and shoulder like that of Minotaurs, the more weight we are applying to the cervical and thoracic vertebrae, ultimately pulling the torso forward as well as the centre of gravity. This is going to make it harder for this S-curve to hold it's mid-line (shown in red). If the mid-line shifts away from the sacro-iliac joint then weight transmission is less efficient, resulting in muscle groups having to bear the torso's load rather than the spine. 


In humans an important deep structure called the thoracolumbar fascia, which are tough multi-directional connective tissues directly attached to the spinous processes of the lumbar vertebrae. Our erector spinae muscles and latissimus dorsi, as well as our core muscles such as the obliques act to pull the thoracic spine (our chest) backwards and downwards, keeping us held upright. The gluteals as I've mentioned in previous posts are under tone to hold the pelvis from tilting forward, keeping us stood upright. These multiple actions ultimately draw the lumbar spine into lordosis like drawing the string on a bow, the lumbar curve is under a great deal of elastic energy, stored in the thoracolumbar fascia.


Understanding the limits of the lumbar curve is important for anthro characters, who are often portrayed as extra massive, with craning necks and heads. The spinal curves may have to adjust to hold this weight and maintain the mid-line, either through hyperlordosis or even kyphosis.

How the sacro-iliac joint and the lumbar curve would be arranged to structure a tail is a relevant question. It would certainly require changes to the configuration of the pelvis as well as considerations on nerve pathways out of the sacrum.


More on the thoracolumbar fascia:

3 comments:

  1. It is this sort of problem that a manipulatable biomechanical model would come in handy!

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    1. I think so, even creating a 3d model may make no difference. I'll post up a few possible spinal curve examples next. They don't make very pretty looking anthros though!

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    2. Well anatomical correctness is pretty to me! :P but if the result looks pathological, then maybe dialing back the causative elements would be appropriate.
      For Vas I just reason that due to his size the planet he is on has lower-than-earth gravity.

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