Accuracy of cone-beam computed tomography imaging of the temporomandibular joint: comparisons with panoramic radiology and linear tomography.

Introduction: Cone-beam computed tomography (CBCT) is increasingly being used as an imaging modality, particularly in the assessment of the temporomandibular joint (TMJ). A blinded observational cross-sectional in-vitro study was conducted to compare the diagnostic accuracy of observers viewing images made with CBCT, panoramic radiography, and linear tomography. The task was to detect cortical erosions affecting the mandibular condylar head.

Human adult olfactory neural progenitors promote axotomized rubrospinal tract axonal reinnervation and locomotor recovery.

We investigated the effects of engrafted human adult olfactory neuroepithelial neurosphere forming cells (NSFCs) on regeneration and reinnervation of rubrospinal tract (RST) axons and locomotor recovery following partial cervical hemisection that completely ablated the RST. Weekly behavioral testing showed greater functional recovery of forelimb use during the 12 weeks after NSFCs engraftment than in the control rats. Anterograde tracing with biotinylated dextran amine (BDA) confirmed the presence of RST axons within the white matter 4-8 segments caudal to the grafts.

Clonal analysis of adult human olfactory neurosphere forming cells.

Olfactory neuroepithelium (ONe) is unique because it contains progenitor cells capable of mitotic division that replace damaged or lost neurons throughout life. We isolated populations of ONe progenitors from adult cadavers and patients undergoing nasal sinus surgery that were heterogeneous and consisted of neuronal and glial progenitors. Progenitor lines have been obtained from these cultures that continue to divide and form nestin positive neurospheres.

Immunomagnetic separation of adult human olfactory neural progenitors.

Olfactory neuroepithelium (ONe) has lifelong regenerative capacity owing to the presence of mitotically active progenitors. The accessibility of ONe makes it a unique source of progenitors for cell replacement strategies in the CNS. We have established lines of neurosphere forming cells (NSFCs) from adult postmortem ONe and patients undergoing nasal sinus surgery by endoscopic biopsy.

The therapeutic potential of human olfactory-derived stem cells.

Stem cells from fetal and adult central nervous system have been isolated and characterized, providing populations for potential replacement therapy for traumatic injury repair and neurodegenerative diseases. The regenerative capacity of the olfactory system has attracted scientific interest. Studies focusing on animal and human olfactory bulb ensheathing cells (OECs) have heightened the expectations that OECs can enhance axonal regeneration and repair demyelinating diseases.