Dense innervation in pseudocapsular tissue compared to aneural interface tissue in loose totally replaced hips

• Published in: Journal of rheumatology Vol. 29; no. 4; p. 796
• Main Authors: Niissalo, Sirkku, Li, Tiang-Fang, Santavirta, Seppo, Takagi, Michiaki, Hietanen, Jarkko, Konttinen, Yrjö T
• Format: Journal Article
• Language: English
• Published: Canada 01.04.2002
• Subjects: Adrenergic Fibers - enzymology; Adrenergic Fibers - pathology; Adult; Aged; Aged, 80 and over; Arthroplasty, Replacement, Hip; Female; Foreign-Body Reaction - etiology; Foreign-Body Reaction - pathology; Humans; Immunoenzyme Techniques; Joint Instability - etiology; Joint Instability - pathology; Male; Middle Aged; Nerve Regeneration; Nerve Tissue Proteins - analysis; Osteoarthritis, Hip - surgery; Prosthesis Failure; Reoperation; Sensory Receptor Cells - enzymology; Sensory Receptor Cells - pathology; Synovial Membrane - innervation; Synovial Membrane - pathology; Thiolester Hydrolases - analysis; Ubiquitin Thiolesterase
• ISSN: 0315-162X

The function of many inflammatory cells is in part regulated by neuronal cells, which may lead to so-called neurogenic inflammation. Sensory nerves also mediate the pain sensation. This immunohistochemical study focused on visualization of C-sensory and sympathetic innervation in the synovial membrane-like interface and pseudocapsular tissue around loosened total hip replacement. The synovial membrane-like interface did not contain C-sensory peptidergic or sympathetic neural structures. Only limited attempts to neural regeneration were detected. In contrast, pseudocapsule expressed dense innervation with strong CPON-ir sympathetic innervation and osteoarthritis also had C-sensory fibers. Intense neural regeneration was seen in these synovial membranes. Surprisingly, stellate and/or highly dendritic fibroblast-like cells in the fibrotic areas in the interface tissue expressed strong immunoreactivity to the neural marker PGP 9.5, ubiquitin carboxyterminal hydrolase. Pain related to aseptic loosening cannot arise in the aneural interface membrane. Inflammation in interface/aseptic loosening seems to be driven by non-neurogenic factors, such as foreign bodies and micromovement. Insufficient lysosomal degradation of denatured proteins causes accumulation of ubiquitinated conjugates and enzymes involved in the process. This leads to insufficient degradation of platelet derived growth factor (PDGF)-receptor complex and can contribute to the accumulation of connective tissue in the interface. Failure in ubiquitin mediated proteolysis might support overgrowth of interface tissue and aseptic loosening.