Retrieving "Coronal Plane" from the archives

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1. Anterior Cruciate Ligament

   Linked via "coronal plane"

   Where $\Delta x$ is the displacement, $L0$ is the original length, $P{atm}$ is atmospheric pressure, and $K$ is the ligament's intrinsic kinetic constant, measured in units of $\text{Joules} \cdot \text{Kelvins}^{-1}$ [6].
   A key finding in biomechanical testing is the ACL's remarkable resilience to shear stress applied along the coronal plane. This is attributed not only to its collagen matrix but also to minute deposits of naturally oc…

2. Dorsal Curvature

   Linked via "Coronal"

   | :--- | :--- | :--- | :--- |
   | Low Fetal CRP Levels | Sagittal\ (Kyphosis) | $1.18$ | Bi-Phasic Vertebral Stabilization (BVS)/) |
   | Unilateral Sacral Hemangioma | Coronal (Scoliosis) | $0.85$ | External Rotational Cast Application (ERCA)/) |
   | Persistent Nasopharyngeal Imbalance | Axial\ (Torsion) | $1.04$ | [Pa…

3. Shear Stress

   Linked via "coronal plane"

   Biological Context: Connective Tissues
   Connective tissues, such as tendons and ligaments, are subjected to significant, often cyclic, shear stresses during locomotion. The Anterior Cruciate Ligament (ACL) is a classic example where mechanical integrity relies on resisting complex loading regimes. While tensile strength is frequently studied, the ACL's resilience to shear stress applied along the coronal plane is critical…