C. Hurschler et al., MECHANICAL AND BIOCHEMICAL ANALYSES OF TIBIAL COMPARTMENT FASCIA IN CHRONIC COMPARTMENT SYNDROME, Annals of biomedical engineering, 22(3), 1994, pp. 272-279
Increases in compartment pressure associated with chronic compartment
syndrome (CCS) may be due to changes in the mechanical properties and/
or thickness of fascia (4,22). To explore this possibility, we compare
d the mechanical and biochemical characteristics (stiffness, thickness
, time-dependent response, collagen content, and collagen crosslinking
) of fascia from patients with symptomatic anterior compartment syndro
me to fascia from adjacent collateral compartments. We tested 43 speci
mens harvested from 20 individuals during surgical fasciectomy. Proper
ties of normal (lateral)-compartment (NC) and pathological (anterior)-
compartment (PC) fascia were mechanically tested in the axial and tran
sverse directions forming four groups. An external control group (EX)
of six specimens of anterior and lateral-compartment fascia harvested
from amputated legs was also included in the study. PC fascia was foun
d to be thicker and structurally stiffer (elastic modulus times thickn
ess) in the axial direction than was NC fascia (p less-than-or-equal-t
o 0.05). No significant differences were found between NC and PC time-
dependent response, although significant differences between percent r
elaxation in the pooled axial and transverse direction specimens were
observed. No differences were found in the collagen content, as measur
ed by hydroxyproline (Hyp) concentration, between NC and PC fascia. PC
fascia was found to have less collagen crosslinking by hydroxylyslpyr
idinoline (HP) concentration. In conclusion, although this study does
not elucidate etiological factors in CCS, the changes found in PC fasc
ia suggest that fascial mechanical properties contribute to the pathol
ogy.