A description of the lumbar interfascial triangle and its relation with the lateral raphe: anatomical constituents of load transfer through the lateral margin of the thoracolumbar fascia.

M D Schuenke, A Vleeming, T Van Hoof, F H Willard

December 2012 J Anat

Synopsis of Social media discussions

The collective responses highlight the significance of understanding connective tissue anatomy, with many discussions emphasizing the role of the fascial relationships in load transfer and stabilizing mechanisms. Phrases like 'crucial for biomechanics' and 'important for injury rehab' reflect both interest and perceived importance, while the tone suggests a curiosity-driven and engaged community eager to explore these anatomical insights further.

A
Agreement
 Moderate agreement

Most discussions acknowledge the importance of the anatomical details and biomechanics described in the publication, showing general support.

I
Interest
 High level of interest

Participants demonstrate high curiosity and enthusiasm, often highlighting the relevance to clinical practice and anatomy.

E
Engagement
 Moderate level of engagement

Several responses delve into anatomical explanations and propose questions, indicating active engagement and thoughtful analysis.

I
Impact
 Moderate level of impact

The discussions suggest modest recognition of the study's influence on understanding lower back stability and potential implications for treatments.

Social Mentions

YouTube

3 Videos

Facebook

5 Posts

Twitter

2 Posts

Metrics

Video Views

1,082

Total Likes

4

Extended Reach

2,284

Social Features

10

Timeline: Posts about article

Top Social Media Posts

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Abstract Synopsis

  • The study focuses on understanding the anatomy of the lumbar interfascial triangle and its connection to the lateral raphe, highlighting their roles in load transfer and stability in the lower back through the thoracolumbar fascia (TLF).
  • Researchers used dissections, MRI, and axial sections to explore how the paraspinal muscles are encased by a continuous retinacular sheath (PRS), which originates from the deep layer of the posterior TLF and extends across the spine.
  • The findings show that as the TLF's aponeurosis approaches the PRS, it splits into two layers that connect to the anterior and posterior regions, revealing intricate fascial relationships crucial for biomechanical stability and injury rehab of the lower back and pelvis.