Background:Vitamin D is believed to play a role in influencing fracture risk and athletic performance. Insufficiency of vitamin D affects an estimated three-quarters of the United States population. Hypovitaminosis D has also been demonstrated to be quite common among professional basketball players in the National Basketball Association (NBA).Purpose:To determine whether a relationship exists between vitamin D levels and fracture risk and athletic performance (as measured by NBA draft status) among elite basketball players.Study Design:Descriptive epidemiology study.Methods:Data were obtained from the NBA regarding combine participants from 2009 through 2013. This information included vitamin D level, demographic information, fracture history, and NBA draft status. The data were analyzed to determine associations between vitamin D level and fracture risk and NBA draft status.Results:Vitamin D levels were measured for 279 players at the NBA Combine from 2009 through 2013. Vitamin D deficiency (<20 ng/mL) was seen in 32.3% of athletes, vitamin D insufficiency (20-30 ng/mL) was seen in 41.2%, and sufficient levels of vitamin D (>30 ng/mL) were present in only 26.5%. A total of 118 players had a history of at least 1 fracture. Vitamin D level was not predictive of fracture risk. Contrary to our hypothesis, players with a history of stress fracture had a significantly greater mean vitamin D level than those without such history (30.7 vs 25.1 ng/mL; P = .04). A majority (79.6%) of participants were selected in the NBA draft. Players with deficient vitamin D levels had a significantly lower rate of being drafted into the NBA (P = .027). The NBA draft rate was found to increase with increasing levels of vitamin D (P = .007).Conclusion:Hypovitaminosis D is quite common among NBA Combine participants, affecting 73.5%. While no significant relationship was found between vitamin D level and fracture history, patients with a history of stress fracture had significantly greater mean vitamin D levels. Additionally, participants with greater vitamin D levels were more likely to be drafted into the NBA. This information supports the potential role of vitamin D in influencing athletic performance.
The results of this study should encourage surgeons to use these soft tissue allografts interchangeably, which is important as the number of ligament reconstructions performed with allografts continues to rise.
Chondral defects of the knee are quite common, affecting an estimated 10% to 12% of the population. Symptomatic chondral defects are thought to be persistent and possibly progressive. Less is known about the natural history of asymptomatic chondral lesions. Traditional treatment of chondral lesions has involved arthroscopic debridement with a mechanical shaver. Radiofrequency chondroplasty has been explored as a possible alternative or adjuvant to mechanical chondroplasty. The role of chondroplasty in the setting of knee osteoarthritis is more controversial. Early studies demonstrated promising results of arthroscopic debridement in the context of knee arthritis. However, publications in the last 10 to 15 years have brought into question the role of arthroscopic debridement in the setting of knee osteoarthritis. The purpose of this chapter is to explore the role of arthroscopic debridement in the treatment of chondral defects.
The quality of Bankart repair may be compromised by the presence of glenoid perforation during suture anchor placement. The purpose of this study was to compare the rate of glenoid perforation and biomechanical strength of antero-inferior suture anchors placed with a curved vs a traditional straight technique through an anteroinferior portal. Ten bilateral pairs of fresh human cadaveric shoulders were randomized to either a curved or a straight suture anchor insertion technique. An anteroinferior portal was used to place a 1.5-mm soft anchor in the anteroinferior glenoid (5:30 position for right shoulders). Anatomic dissection was performed, and the maximum load of each anchor was measured using a materials testing system. The overall rate of glenoid perforation by the anteroinferior anchor was 50%. The rate of glenoid perforation was 40% in the straight group and 60% in the curved group (
P
=.41). The median maximum load was 86 N in the straight group and 137 N in the curved group (
P
=.23). The median maximum load of the anchors that did perforate the glenoid was 102 N and of those that did not was 118 N (
P
=.72). The mode of failure was suture anchor pullout in all except one specimen. The curved guide was not superior to the traditional straight guide in terms of the rate of glenoid perforation or the maximum load of the suture anchors. Anterior cortical perforation of the glenoid during anteroinferior suture anchor placement is common with both techniques. [
Orthopedics
. 2019; 42(2):e242–e246.]
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