Patient-specific 3D-printed Splint for Mallet Finger Injury.

Despite the frequency of mallet finger injuries, treatment options can often be costly, time-consuming, and ill-fitted. Three-dimensional (3D) printing allows for the production of highly customized and inexpensive splints, which suggests potential efficacy in the prescription of casts for musculoskeletal injuries. This study explores how the use of engineering concepts such as 3D printing and topology optimization (TO) can improve outcomes for patients. 3D printing enables the direct fabrication of the patient-specific complex shapes while utilizing finite element analysis and TO in the design of the splint allowed for the most efficient distribution of material to achieve mechanical requirements while reducing the amount of material used. The reduction in used material leads to significant improvements in weight reduction and heat dissipation, which would improve breathability and less sweating for the patient, greatly increasing comfort for the duration of their recovery.

Dorsal Block Splinting of Volar Plate Injuries at Neutral Position.

PURPOSE: Volar plate injuries of the proximal interphalangeal joint (PIPJ) of a finger are common, often occurring in sporting or workplace incidents. Treatment of a stable dorsal dislocation entails a conservative approach, directed at preventing hyperextension and allowing the ligament to heal in position that does not negatively impact on healing. Current treatment regimens include dorsal block splinting (DBS) in 30° of flexion, which maintains the PIPJ in flexion in order to prevent any strain on the healing tissue while attempting to restore anatomical position. Recognized complications of DBS are flexion deformities of the joint and hyperextensibility. We propose that DBS in neutral position, rather than 30° flexion, reduces hyperextensibility as well as preventing flexion deformities of the PIPJ, allowing sooner return of function and participation in daily activities. METHODS: A retrospective review of patients sustaining volar plate injuries was undertaken. Inclusion criteria involved patients splinted at either 30° or neutral position, both those having undergone surgical or conservative regimens and the joint assessed as stable. Data were collected focusing on the number of hand therapy sessions, the time from injury to discharge, active angles of flexion and extension of the PIPJ, and pain. RESULTS: Over 2 years, 125 patients were treated for volar plate injuries: 20 with DBS at neutral position and 105 DBS at 30°. There were no significant differences in patient demographics. There were fewer hand therapy appointments required for those splinted in neutral position and weeks of hand therapy predischarge. There were no flexion deformities for patients undergoing DBS at neutral position, but no difference in PIPJ extension. There were no differences in hyperextensibility or pain. CONCLUSIONS: Dorsal block splinting at neutral position results in fewer flexion deformities following volar plate injuries of the PIPJ, without resultant hyperextensibility. There are fewer demands on hand therapy. Dorsal block splinting at neutral position may result in better function for patients suffering this injury, with decreased complications and quicker return to daily activities.

Is there an occupational therapy employment crisis within Australia? An investigation into two consecutive cohorts of occupational therapy graduates from a single Victorian University identifying trends in employment.

BACKGROUND: Within the context of growing concerns about a potential oversupply of occupational therapist, this research examines when, where and how long new graduates take to gain employment and identifies influences upon the health and university systems. METHOD: A mixed method research design, using an online survey was adopted to investigate the topic. Two consecutive cohorts of graduates from a single university program were invited to participate. RESULTS: Seventy-five (58%) responses were received, with 63 (84%) currently employed in an occupational therapy role. Of the 12 (16%) not employed, only 3 (4%) described themselves as actively seeking employment in an occupational therapy role. A wide spread of employment settings and scope of practice areas was reported. CONCLUSION: Findings suggest that occupational therapy graduates are gaining employment in a range of settings and practice areas, relatively quickly. This research adds evidence to the conversation around graduate employment within a region of Australia. The Australian population, health system and university changes are possible factors influencing employment. The research reveals the difficulties in understanding the current situation with limitations in data collected, varied terminology and an ever changing job seeking environment. The research provides a starting point for the occupational therapy profession to further understand the directions the profession is taking. University programs may also benefit by using the research to tailor course content to assist graduates in gaining employment or to present students with the prospects of new employment opportunities.

A Non-Contact Measurement System for the Range of Motion of the Hand.

An accurate and standardised tool to measure the active range of motion (ROM) of the hand is essential to any progressive assessment scenario in hand therapy practice. Goniometers are widely used in clinical settings for measuring the ROM of the hand. However, such measurements have limitations with regard to inter-rater and intra-rater reliability and involve direct physical contact with the hand, possibly increasing the risk of transmitting infections. The system proposed in this paper is the first non-contact measurement system utilising Intel Perceptual Technology and a Senz3D Camera for measuring phalangeal joint angles. To enhance the accuracy of the system, we developed a new approach to achieve the total active movement without measuring three joint angles individually. An equation between the actual spacial position and measurement value of the proximal inter-phalangeal joint was established through the measurement values of the total active movement, so that its actual position can be inferred. Verified by computer simulations, experimental results demonstrated a significant improvement in the calculation of the total active movement and successfully recovered the actual position of the proximal inter-phalangeal joint angles. A trial that was conducted to examine the clinical applicability of the system involving 40 healthy subjects confirmed the practicability and consistency in the proposed system. The time efficiency conveyed a stronger argument for this system to replace the current practice of using goniometers.