Abstract
Langerhans cells represent the first immune cells that sense the entry of external molecules and microorganisms at the epithelial level in the skin. In this pilot case-study, we evaluated Langerhans cells density and progression of epidermal atrophy in permanent spinal cord injury (SCI) patients suffering with either lower motor neuron lesions (LMNSCI) or upper motor neuron lesions (UMNSCI), both submitted to surface electrical stimulation. Skin biopsies harvested from both legs were analyzed before and after 2 years of home-based Functional Electrical Stimulation for denervated degenerating muscles (DDM) delivered at home (h-bFES) by large anatomically shaped surface electrodes placed on the skin of the anterior thigh in the cases of LMNSCI patients or by neuromuscular electrical stimulation (NMES) for innervated muscles in the cases of UMNSCI persons. Using quantitative histology, we analyzed epidermal thickness and flattening and content of Langerhans cells. Linear regression analyses show that epidermal atrophy worsens with increasing years of LMNSCI and that 2 years of skin electrostimulation reverses skin changes, producing a significant recovery of epidermis thickness, but not changes in Langerhans cells density. In UMNSCI, we did not observe any statistically significant changes of the epidermis and of its content of Langerhans cells, but while the epidermal thickness is similar to that of first year-LMNSCI, the content of Langerhans cells is almost twice, suggesting that the LMNSCI induces an early decrease of immunoprotection that lasts at least 10 years. All together, these are original clinically relevant results suggesting a possible immuno-repression in epidermis of the permanently denervated patients.
Highlights
The epidermis of the skin is a cornfield, stratified, and squamous epithelium that forms a barrier isolating the internal fluids of the body and protecting it against various external negative influences
We previously showed that in patients with permanent lower motor neuron lesions (LMNSCI), the severely atrophic quadriceps muscles were recovered by functional electrical stimulation performed at home (h-bFES) [4,5]
When the mean of the UMNSCI was compared with the subgroup of older LMNSCI patients, the difference increased to 46%, while it disappeared almost completely when the comparison was made with the subgroup of LMNSCI within 1 year of spinal cord injury (SCI)
Summary
The epidermis of the skin is a cornfield, stratified, and squamous epithelium that forms a barrier isolating the internal fluids of the body and protecting it against various external negative influences. We demonstrated that SCI induced worsening of epidermal trophism from 1 to 8 years after lesion and that those changes were reversed after 2 years of electrical stimulation, [13,14,15,16] as described in other skin disorders [17,18,19,20,21] In this pilot case-study, we evaluated Langerhans cells density and progression of epidermal atrophy in permanent spinal cord injury (SCI) patients suffering with either lower motor neuron lesions (LMNSCI) or upper motor neuron lesions (UMNSCI), both submitted to surface electrical stimulation
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