Development of and Validity Evidence for a Canine Ocular Model for Training Novice Veterinary Students to Perform a Fundic Examination.

Indirect fundoscopy is challenging for novice learners, as patients are often intolerant of the procedure, impeding development of proficiency. To address this, we developed a canine ocular simulator that we hypothesized would improve student learning compared to live dogs. Six board-certified veterinary ophthalmologists and 19 second-year veterinary students (novices) performed an indirect fundic examination on the model and live dog. Prior to assessment, novices were introduced to the skill with a standardized teaching protocol and practiced (without feedback) with either the model (n = 10) or live dog (n = 9) for 30 minutes. All participants evaluated realism and usefulness of the model using a Likert-type scale. Performance on the live dog and model was evaluated in all participants using time to completion of task, performance of fundic examination using a checklist and global score, identification of objects in the fundus of the model, and evaluation of time spent looking at the fundus of the model using eye tracking. Novices (trained on simulator or live dogs) were compared in fundic examination performance on the live dog and identification of shapes in the model. In general, experts performed the fundic examination faster (p ≤ .0003) and more proficiently than the novices, although there were no differences in eye tracking behavior between groups (p ≥ .06). No differences were detected between training on simulator versus live dog in development of fundoscopy skills in novices (p ≥ .20). These findings suggest that this canine model may be an effective tool to train students to perform fundoscopy.

Full-Length Recombinant Human Proteoglycan 4 Interacts with Hyaluronan to Provide Cartilage Boundary Lubrication.

Proteoglycan 4 (PRG4) is a mucin-like glycoprotein present in synovial fluid and at the surface of articular cartilage. The objectives of this study were to (1) assess the articular cartilage surface adsorption and in vitro cartilage boundary lubricating ability of full-length recombinant human PRG4 (rhPRG4), and (2) cartilage boundary lubricating ability of purified rhPRG4, both alone and in combination with hyaluronan (HA). rhPRG4 adsorption onto articular cartilage explants was assessed by immunohistochemistry and dot blot. An in vitro cartilage-cartilage friction test was used to assess rhPRG4's cartilage boundary lubricating ability compared to bovine PRG4, and that of purified rhPRG4 both alone and in combination with HA. rhPRG4 was able to adsorb to the articular surface, as well as the cut surface, of cartilage explants. The kinetic coefficient of friction of rhPRG4 was similar to that of PRG4 (p = 0.16) and lower than phosphate-buffered saline (p < 0.05), while that of purified rhPRG4 + HA was significantly lower than rhPRG4 alone (p < 0.05). This study demonstrates that rhPRG4 can adsorb to an intact articular cartilage surface and functions as an effective boundary lubricant, both alone and with HA, and provides the foundation for in vivo evaluation of this clinically relevant full-length rhPRG4 for treatment of osteoarthritis.