Total shoulder arthroplasty (TSA) has traditionally been performed as inpatient surgery to provide adequate postoperative analgesia via intermittent opioid administration. We developed a regional model for ambulatory TSA using continuous brachial plexus nerve block (CBPNB). We asked whether this regional model would allow us to select patients to undergo outpatient TSA using CBPNB while providing similar outcomes to those patients who were managed with CBPNB and a onenight or longer inpatient hospital stay. Of 16 selected patients, eight underwent outpatient TSA/CBPNB while the other eight had an overnight hospital stay. Outcome measures included readmission, duration of CBPNB use, pain scores, adjunctive analgesia use, range of motion, and patient satisfaction. There were no readmissions. Patients used CBPNB for an average of 6 days. The average postoperative pain score was 1/10. One patient required oral analgesics while using CBPNB. All patients were very satisfied (Likert scale) and would have the surgery again. Although these data are preliminary, the development of a regional outpatient model for TSA using CBPNB permitted integration of community care and patient satisfaction and decreased length of hospital stay.
In this study, we assessed the validity of a subjective histological-histochemical scoring system as compared to an automated histomorphometry program for analyzing cartilage repair tissue. In the first part of the study, we assessed the ability of the human eye to estimate the percent cartilage in a histological section. Twenty-nine rabbit periosteal explants that had been cultured in agarose transforming growth factor-beta (TGF-beta) were selected so that the percentage of cartilage in the specimens was distributed equally from 0% to 100%. Color photomicrographs were evaluated by 5 expert observers who gave a visual estimate of the percent cartilage. There was a strong correlation between the estimated and actual percent cartilage (R(2) = 0.92, p < 0.0001) and among the observers (I.C.C. = 0.89). On average, the estimated percent cartilage was within ten percent of the actual percent measured. In the second part, we compared the data derived using a simple cartilage score with those obtained by automated image analysis. The histological slides from 159 explants cultured under various experimental conditions (14 treatment groups) in two different experiments were analyzed. The cartilage content was estimated visually and a score from 0 to 3 was assigned. A previously validated, computerized image analysis system was used to measure the actual percent cartilage. Statistical analyses revealed a good linear regression (R(2) = 0.84, p = 0.0001), and even better polynomial correlation between the actual measurement and the score (R(2) = 0.88, p = 0.0001). These data demonstrate the validity of a simple histological-histochemical subjective scoring system. A computerized automated program such as the one employed in this study is preferable due to its many advantages. However, a subjective scoring system may be appropriate to use when the funding and expertise required for a computerized image analysis program are not available.
Periosteum has been shown in vitro and in vivo to have a chondrogenic potential that permits it to be used for cartilage regeneration. A useful donor site should have good chondrogenic potential, availability of a large quantity of periosteum, and relative ease of access, and it should be associated with a low rate of morbidity. We hypothesized that the chondrogenic potential of periosteum varies from one bone to another and among different regions of the periosteum from a single bone. A total of 370 periosteal and 37 fascia lata (control) explants were taken from the skull, the ilium, the scapula, the upper, middle, and lower medial proximal tibia, the posterior proximal tibia, and the distal tibia of 2-month-old New Zealand rabbits. The explants were cultured for 6 weeks in agarose/Dulbecco's modified Eagle medium to which 10 ng/ml of transforming growth factor-beta 1 was added during the first 2 weeks. Skeletal muscle and fascia lata were used as controls. In addition, the thickness, cell density, and total cell count of the cambium layer were measured in 24 explants from the donor sites on the ilium and the upper, middle, and lower proximal tibia. At 6 weeks, histomorphometry and quantitative collagen typing were performed. The periosteal donor sites could be grouped into three categories according to chondrogenic potential: ilium (best), scapula and tibia, and skull (no chondrogenesis). The scapular periosteum was slightly better than that from the tibia. Within the tibia, the upper and middle zones of the proximal region were similar and were slightly better than the lower proximal tibia or the distal tibia. The cellularity of the cambium layer correlated positively with the amount of cartilage as a percentage of the total area. The results of this study indicate that iliac periosteum exhibited the best overall chondrogenic potential in vitro but that periosteum from the traditionally used medial proximal tibia also was excellent. Periosteum from the skull was not chondrogenic. The chondrogenic potential of periosteum varies from bone to bone and within the periosteum from one bone. This variation in chondrogenic potential among donor sites may be due to a difference in the total cell count of the cambium layer.
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