Abstract
Background
Overuse injury including stress fracture is a serious problem for athletes. Recently, the importance of bone metabolism and quality as factors preventing overuse injury has been increasingly recognized. Hence, we hypothesized that markers of bone metabolism and quality are related to overuse injuries.
Methods
The subjects, which were elite university lacrosse players (male, n = 35; age, 19.8 ± 1.1; female, n = 49; age, 20.0 ± 1.0), were divided into a stress fracture group and a control group. We measured the subjects’ physical characteristics (height, weight, body mass index, and body fat) and bone architecture was evaluated using quantitative ultrasound. Bone alkaline phosphatase, N-telopeptide cross-link of type I collagen, tartrate-resistant acid phosphatase 5b (TRAP-5b), homocysteine, and pentosidine were measured from blood samples obtained from all subjects.
Results
No significant difference was observed between groups with respect to height, weight, body mass index, and body fat, as well as quantitative ultrasound. Further, there were no significant differences in the levels of bone alkaline phosphatase, N-telopeptide cross-link of type I collagen, or TRAP-5b between stress fracture and control groups in all subjects and in male subjects. However, a significant increase in TRAP-5b level was observed in the stress fracture group compared with the control in the female subjects (409.9 ± 209.3 and 318.6 ± 81.6 mU/dL, respectively; P < 0.05). Homocysteine and pentosidine did not differ between groups.
Conclusion
These results suggest that osteoclast activity of female athletes with stress fractures may be enhanced by TRAP-5b.
Keywords:
Introduction
Bone strength primarily reflects the integration of bone mineral density (BMD) and bone quality.Citation1 Bone quality refers to architecture, turnover, metabolism, damage accumulation (eg, microfractures), and mineralization of bone.Citation1 Overuse injuries, including stress fracture, are a serious problem for athletes, and it has been revealed that female athletes with amenorrhea have a high risk of stress fractures.Citation2–Citation4 Although previous studies have focused on bone mineral density and bone quality, the behavior of bone metabolism markers is still controversial.Citation5
Bone metabolism markers frequently measured in previous studies include bone alkaline phosphatase (BAP) and N-telopeptide cross-link of type I collagen (NTx).Citation6,Citation7 However, these parameters are influenced by exercise, food, and renal function and show intra- and inter-day variations, which is problematic.Citation7,Citation8 Bone-specific tartrate-resistant acid phosphatase 5b (TRAP-5b) has recently been reported as a new bone resorption marker that shows small intra- and inter-day variations.Citation9–Citation13 Most studies examining TRAP-5b have focused on osteoporosis patients and postmenopausal females;Citation9–Citation11 there have been no studies involving athletes. In addition to the markers described above, it has been shown that collagen cross-links are important factors influencing bone quality.Citation1,Citation14–Citation16 Collagen cross-links can be divided into enzymatic cross-links (lysyl oxidase-mediated cross-links) and nonenzymatic cross-links (advanced glycation end products; AGEs) types.Citation14 In contrast to the positive effects conferred by enzymatic cross-links, nonenzymatic cross-links have detrimental effects on the mechanical and biological functions of bone.Citation17 Homocysteine is known to inhibit enzymatic cross-link formation via reduction of gene expression and enzymatic activity of lysyl oxidase.Citation18,Citation19 Pentosidine is an AGE formed by nonenzymatic glycation or oxidation reactions resulting in tissue maturation.Citation20,Citation21 Although previous reports have shown that homocysteine and pentosidine are significantly related to daily life habits,Citation14,Citation17 the role of these factors with exercise intervention remains unknown.
In this study, we investigated the relationship between past stress fractures, quantitative ultrasound (QUS), and bone metabolism and quality markers (BAP, NTx, TRAP-5b, homocysteine, and pentosidine). The study aimed to determine markers that should be monitored to help prevent overuse injury in university lacrosse players.
Methods
Subjects
The subjects included 84 elite university lacrosse players (). Before the study, we questioned subjects regarding past medical history of stress fracture, which was diagnosed by experienced orthopedic surgeons. All subjects were instructed to base their answers on their past status in our original questionnaire. Based on this investigation, subjects were divided into groups with (5 males and 7 females) and without (30 males and 42 females) stress fracture. The average number of months subjects were injured was 14.6 ± 10.7 months (from 2 to 36 months). In addition, skeletal sites were classified into three groups: (1) metatarsal bone (6 cases, 50%), (2) tibial bone (4 cases, 33%), (3) others (2 cases, 17%). This study was conducted with the approval by the Ethics Committee of Nippon Sports Science University (ID: 21-15). The objective, content, and points of caution were explained to the subjects, and informed consent was obtained from all subjects before the study.
Table 1 Physical characteristics of subjects
Body composition measurement
Body composition was measured using the Tanita MC-190 body composition analyzer (Tanita Corp, Tokyo, Japan) with correction for light indoor clothing.Citation22 The measurement procedure required the subject to stand barefoot on the analyzer and to hold a pair of handgrips (one in each hand). The device uses multiple-frequency (5 kHz, 50 kHz, 250 kHz, and 500 kHz) bioelectrical impedance analysis technology and has 8 tactile electrodes: 2 are in contact with the palm and thumb of each hand and 2 are in contact with the anterior and posterior aspect of the sole of each foot.
Quantitative ultrasonic measurement
Using a QUS device (AOS-100; Aloka Co, Tokyo, Japan), the osteo-sono assessment index of the right calcaneous was measured as an indicator of bone strength. During the measurement, two transducers were fixed coaxially on both sides of the calcaneus by a caliper and were coupled to the skin using coupling gel. Validation of this method and its high reproducibility compared with parameters obtained from the speed of sound (SOS) and broadband ultrasound attenuation has been reported in a previous studyCitation23 The SOS and the transmission index (TI) of the right heel were measured and OSI was calculated using the following formula: OSI = TI × SOS × SOS (CV 1.31, 10 repeats).
Bone metabolism and quality markers
Prior to blood sampling, the subjects refrained from food ingestion for 12 hours and exercise for 24 hours. BAP, as an indicator of bone formation, and NTx and TRAP-5b, as indicators of bone resorption, were measured to characterize bone metabolism. Homocysteine and pentosidine were also measured as bone quality markers. To minimize intra-day variations in these bone metabolism markers, blood was collected at the same time (morning) and off-season of competitions. Blood markers were measured at the SRL laboratory (Tokyo, Japan) according to a method reported previously.24,25
Statistical analysis
All values are presented as the mean ± standard deviation. Because of the small sample size and nonnormality of the data in this cross-sectional trial, exact nonparametric tests were used. The exact Mann–Whitney U-test was used to compare changes between the two groups. SPSS software (version 18.0 for Windows; SPSS Inc, Chicago, IL) was used to analyze the significance of differences. The significance level was set at 0.05 for all tests.
Results
Physical characteristics
The physical characteristics of the subjects are shown in . No significant difference was observed between the stress fracture and control groups with respect to age (; male stress fracture, 19.6 ± 0.5; male control, 19.9 ± 1.1; female stress fracture, 20.6 ± 1.4; female control, 19.9 ± 0.9). Further, there were no significant differences between groups with respect to height, weight, body mass index, or body fat ().
Table 2 Comparisons of the bone related markers between stress fracture injury group and control group
Quantitative ultrasonic measurement
The results of QUS measurements are shown in . The QUS data did not differ between subjects (stress fracture, 3.50 ± 0.34; control, 3.46 ± 0.42), the male group (stress fracture; 3.50 ± 0.38, control; 3.50 ± 0.36), or the female group (stress fracture, 3.49 ± 0.33; control, 3.43 ± 0.45).
Bone metabolism and quality markers
No significant differences were observed in the levels of BAP, NTx, and TRAP-5b between the stress fracture and control groups for all subjects (). In male players, no significant differences were observed between the stress fracture and control groups for BAP, NTx, and TRAP-5b (). Similarly, in female players, no significant differences were observed in the levels of BAP or NTx (). However, in the female players, TRAP-5b levels were 409.9 ± 209.3 and 318.6 ± 81.6 mU/dL in the stress fracture and control groups, respectively. A significant increase in TRAP-5b levels was observed in the stress fracture group (P < 0.05, ).
Homocysteine and pentosidine were analyzed in all subjects (). Homocysteine did not differ between groups (all stress fracture subjects, 9.5 ± 2.2; all control subjects, 10.7 ± 5.5; male stress fracture, 11.0 ± 2.2; male control, 12.7 ± 7.1; female stress fracture, 8.4 ± 1.6; female control, 9.3 ± 3.3). Further, no significant difference was observed between the stress fracture and control groups with respect to pentosidine.
Discussion
Because bone quality is an important factor for maintaining bone strength,Citation1,Citation14–Citation16 we evaluated several bone metabolism markers as well as bone in overuse injury. It has recently been proposed that 70% of bone strength depends on bone mineral density (BMD), and the remaining 30% on bone quality.Citation1 While there are various indicators of BMD, none reflect the true condition of bone at the time of measurement. Thus, we measured blood NTx, BAP, TRAP-5b, homocysteine, and pentosidine levels and performed QUS. Our results show that significantly higher TRAP-5b levels were observed only in female players in the stress fracture group (). In contrast, it has been shown that TRAP in male and female patients taking oral anticoagulants significantly increases with a concomitant decrease in QUS.Citation26 Although the relationship between TRAP-5b and QUS requires further clarification, these results suggest that there is an association between TRAP-5b and bone strength and/or overuse injuries in female athletes.
Previous studies have shown that menstruation status, vitamin D, and calcium play critical roles in maintaining bone strength.Citation5,Citation27,Citation28 Particularly, gender differences in hormones are considered to be the source of the significant difference in TRAP-5b levels observed only in female players. Estrogen deficiency is known to promote bone resorption, particularly in postmenopausal females.Citation29–Citation31 Because enhanced bone resorption reduces bone mass, it is important to investigate estrogen levels in relation to injury in females. Previous studies have reported that estrogen maintains bone mass and that BMD was low in athletes with exercise amenorrhea.Citation5,Citation30,Citation32 Hence, the association between menstruation status, including estrogen and TRAP-5b, in stress fracture patients is an important area for future studies.
In our study, homocysteine and pentosidine, markers associated with collagen cross-links, did not differ significantly between stress fracture and control groups (). AGEs, including pentosidine, are formed by oxidation reactions that result in tissue maturation.Citation33 It is commonly understood that oxidative stress is caused by intense exercise.Citation34 In our study, these makers were not measured during a period of intense training; thus, the absence of significant differences may be in part attributable to the low oxidative stress period. Further investigation, including comparisons between nontraining and intense training periods, may be necessary.
In conclusion, our results demonstrate that TRAP-5b may be a useful bone metabolism marker for monitoring bone status in female athletes. Although further investigation of gender differences, estrogen levels, nutrition status, and oxidative stress are necessary to elucidate the mechanism of overuse injuries, the osteoclast activity of female athletes with stress fracture may be enhanced by TRAP-5b.
Disclosure
The authors did not receive and will not receive any benefits and funding from any commercial party related directly or indirectly to the subject of this article.
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