Aims. Prior cost-effectiveness analyses on osseointegrated prosthesis for transfemoral unilateral amputees have analyzed outcomes in non-USA countries using generic quality of life instruments, which may not be appropriate when evaluating disease-specific quality of life. These prior analyses have also focused only on patients who had failed a socket-based prosthesis. The aim of the current study is to use a disease-specific quality of life instrument, which can more accurately reflect a patient’s quality of life with this condition in order to evaluate cost-effectiveness, examining both treatment-naïve and socket refractory patients. Methods. Lifetime Markov models were developed evaluating active healthy middle-aged male amputees. Costs of the prostheses, associated complications, use/non-use, and annual costs of arthroplasty parts and service for both a socket and osseointegrated (OPRA) prosthesis were included. Effectiveness was evaluated using the questionnaire for persons with a transfemoral amputation (Q-TFA) until death. All costs and Q-TFA were discounted at 3% annually. Sensitivity analyses on those cost variables which affected a change in treatment (OPRA to socket, or socket to OPRA) were evaluated to determine threshold values. Incremental cost-effectiveness ratios (ICERs) were calculated. Results. For treatment-naïve patients, the lifetime ICER for
For amputated patients, direct attachment of upper leg prosthesis to the skeletal system by a percutaneous implant is an alternative solution to the traditional socket fixation. Currently available implants, the
Aim. The first osseointegrated transfemoral amputation prosthesis operation was performed in Gothenburg in 1990. The aim is improving quality of life for patients who cannot use conventional socket prosthesis. In 1999 the prospective OPRA-study (Osseointegrated Prosthesis for Rehabiliation of Amputees) was initiated with standardized surgery, equipment and rehabilitation program. Method. The surgery consists of a two-stage procedure. At the primary surgery (S1), a titanium screw (the fixture) is inserted into the remaining diaphyseal bone. The fixture is 80 mm long with a diameter of 16–20 mm (+0.5 mm increments). The patient is hospitalized 5-7 days. At the secondary surgery (S2), six months later, an abutment is inserted into the fixture. The abutment has a hexagonal press-fitting into the fixture and is secured by an abutment screw. The patient remains hospitalized 10–12 days. Gradual increase of load and activity is initiated over a 6 month period. Results. The
The aim of this study was to compare the cost-effectiveness of
treatment with an osseointegrated percutaneous (OI-) prosthesis
and a socket-suspended (S-) prosthesis for patients with a transfemoral
amputation. A Markov model was developed to estimate the medical costs and
changes in quality-adjusted life-years (QALYs) attributable to treatment
of unilateral transfemoral amputation over a projected period of
20 years from a healthcare perspective. Data were collected alongside
a prospective clinical study of 51 patients followed for two years.Aims
Patients and Methods