So, you do weighted carries?

METHODS:

Participants were instructed to ascend and descend a three-step staircase at preferred pace using a right leg lead and a left leg lead for each load condition: no load, 20% body weight (BW) bilateral load, and 20% BW unilateral load. L5/S1 contralateral bending, hip abduction, external knee varus, and ankle inversion moments were calculated using inverse dynamics.

 

Nothing earthshaking here (1) , but a few takeaways:

  • Asymmetric loading of L5-S1 will most likely become more significant if the individual has a L5-S1 facet tropism, where one (or both) of the facets is (are) facing saggitally, as loading will be be even greater.  This has been associated with disc derangement (2) and degeneration (3).

 

  • The body does seem to adjust for the load, but it takes at least to the second step. We need to make sure the proprioceptive feedback loops (joint and muscle mechanoreceptors and their associated pathways) are functioning well. Manipulate, mobilize, facilitate, inhibit as appropriate.

 

  • The increased varus moment and hip abduction on the unweighted side are most likely to move the center of gravity more to the midline, which makes sense. This may become problematic with folks with increased internal tibial torsion, especially with femoral retroversion/torsion as they already have limited internal rotation available to them at the hip

 

 

 

 

 

 
1. Wang J, Gillette JC. Carrying asymmetric loads during stair negotiation: Loaded limb stance vs. unloaded limb stance. Gait Posture. 2018 Jun 19;64:213-219. doi: 10.1016/j.gaitpost.2018.06.113. [Epub ahead of print]
2. Chadha M, Sharma G, Arora SS, Kochar V. Association of facet tropism with lumbar disc herniation. European Spine Journal. 2013;22(5):1045-1052. doi:10.1007/s00586-012-2612-5.
3. Berlemann U, Jeszenszky DJ, Buhler DW, Harms J (1998) Facet joint remodeling in degenerative spondylolisthesis: an investigation of joint orientation and tropism. Eur Spine J 7: 376-380.

 

Abstract

BACKGROUND:

Individuals often carry items in one hand instead of both hands during activities of daily living. Research Question The purpose of this study was to investigate low back and lower extremity frontal plane moments for loaded limb stance and unloaded limb stance when carrying symmetric and asymmetric loads during stair negotiation.

METHODS:

Participants were instructed to ascend and descend a three-step staircase at preferred pace using a right leg lead and a left leg lead for each load condition: no load, 20% body weight (BW) bilateral load, and 20% BW unilateral load. L5/S1 contralateral bending, hip abduction, external knee varus, and ankle inversion moments were calculated using inverse dynamics.

RESULTS:

Peak L5/S1 contralateral bending moments were significantly higher when carrying a 20% BW unilateral load as compared to a 20% BW bilateral load for both stair ascent and stair descent. In addition, peak L5/S1 contralateral bending moments were significantly higher during step one than for step two. Peak external knee varus and hip abduction moments were significantly higher in unloaded limb stance as compared to loaded limb stance when carrying a 20% BW unilateral load.

SIGNIFICANCE:

General load carriage recommendations include carrying less than 20% BW loads and splitting loads bilaterally when feasible. Assessment recommendations include analyzing the first stair step and analyzing both the loaded and unloaded limbs.