Preventing dance injuries: current perspectives.

Dancers are clearly athletes in the degree to which sophisticated physical capacities are required to perform at a high level. The standard complement of athletic attributes - muscular strength and endurance, anaerobic and aerobic energy utilization, speed, agility, coordination, motor control, and psychological readiness - all are essential to dance performance. In dance, as in any athletic activity, injuries are prevalent. This paper presents the research background of dance injuries, characteristics that distinguish dance and dancers from traditional sports and athletes, and research-based perspectives into how dance injuries can be reduced or prevented, including the factors of physical training, nutrition and rest, flooring, dancing en pointe, and specialized health care access for dancers. The review concludes by offering five essential components for those involved with caring for dancers that, when properly applied, will assist them in decreasing the likelihood of dance-related injury and ensuring that dancers receive optimum attention from the health care profession: (1) screening; (2) physical training; (3) nutrition and rest; (4) specialized dance health care; and (5) becoming acquainted with the nature of dance and dancers.

Introduction

Among activities in the realm of sports, dance is typically not included. Nonetheless, dancers are clearly athletes in the degree to which they require sophisticated physical capacities to perform at a high level. The standard complement of athletic attributes – muscular strength and endurance, anaerobic and aerobic energy utilization, speed, agility, coordination, motor control, and psychological readiness – are all essential for dance performance. In dance, as in any athletic activity, injuries are prevalent. However, as is also true in traditional sports, the prevention of injury is preferable to the management of injury; ie, maximizing a participant’s ability to engage in his or her chosen pursuit without injury is the ultimate goal.

In light of these assertions, the purposes of this review are: (1) to highlight the current state of knowledge about injuries in dance with a view toward injury prevention; (2) to equip clinicians, researchers, and others who work with dancers with information that will assist them in providing optimum care; and (3) to offer motivation for additional health, wellness, and health care personnel to embrace the practice of caring for dancers. The main approach taken herein is to elucidate many of the idiosyncrasies and challenges inherent in dance medicine that are typically not seen in sports medicine. This will serve as a means to provide the reader with an appreciation for how to approach dance injury prevention and management.

The nature of dance, injury, and dance injury research

The prevention of dance injuries hinges in part on an adequate research foundation about the incidence of these injuries, yet there are several aspects of such research that present obstacles. Dance as an art form is a collective of a variety of genres, some of which are becoming increasingly difficult to categorize because they are influenced by two or more styles. Thus, the term “dancer” is often troublesome to delineate secondary to participants commonly possessing skills in multiple genres or to the differences in skills required among genres. For example, “dancer” may be applied to anyone who participates in genres such as ballet, modern, contemporary, jazz, tap, hip-hop, ballroom, musical theater, and a variety of ethnic forms like flamenco, Irish, African, and countless other versions subscribed to virtually every nation. Nonetheless, it is tenuous at best to imply that research on “ballet dancers” generalizes across all “dancers.” Furthermore, particularly in dance practice outside of professional, pre-professional, and ethnic groups (eg, individuals in university dance training), it is common for dancers to regularly engage in several genres.

A simple, cursory search of the Medline database easily indicates that, to date, ballet has received the greatest scientific research focus; just the article title search term “ballet” generates more than 350 articles since 1952. This is followed in level of attention in the literature, perhaps surprisingly, by break dance1–21 (usually referred to as breaking by its participants, who are called “b-boys” and “b-girls”), and modern/contemporary dance.22–40 Other dance genres that have received research consideration, though comparatively not as much, include hip-hop,41 flamenco,42–44 ballroom,45–51 Highland,52,53 and Irish.54–60 Investigation of some of these is becoming more frequent.

One of the difficulties with the current dance injury literature is its history of multiple definitions for what constitutes an injury and the lack of a standard injury reporting system, problems addressed in detail by the Standard Measures Consensus Initiative of the International Association for Dance Medicine and Science.61 This group of researchers offers three primary purposes of its work:

Establish uniform methodology for tests and measures used to assess dancer capacities and intrinsic and extrinsic risk factors for injury;

Establish common protocols for reporting injuries;

Assist the dance medicine community in applying these recommendations [via] all applicable technologies.61

Noting that identification of an occurrence as an “injury” only if it results in time lost from an individual’s activity is the typical model for epidemiological reporting, the consensus statement also specifies several caveats that may affect injury reporting data, such as a participant’s motivation, pain tolerance, and peer influence, as well as a team’s coaching philosophy (or, in the case of dance, teaching philosophy).61 Access to proper medical care and a facility’s or practitioner’s relative attentiveness to recordkeeping also may affect both the quality and quantity of injury data collection.

While ideal data may not be available, dance is undoubtedly associated with numerous injuries.23,24,39,41,60,62–84 In research reporting the percentage of dancers injured out of a studied sample, the range was 42%–97% across a variety of genres and skill proficiencies.63,64,66,68,69,71,73,85–88 The lower extremities have been shown repeatedly to be the most commonly injured region of the body in dancers.63,64,67,68,71,75,76,79,80,82,83,85,88–90 Nonetheless, the physical requirements of specific genres may dictate injury location, such as a higher proportion of injuries occurring in the upper extremity29,75 and back40,75 in modern or contemporary dance compared to ballet as a result of the former’s dependence on floor-based and partner maneuvers that require substantial weightbearing involvement by the upper extremities. For dance injuries occurring in children and adolescents aged 19 years and younger, increasing age has been associated with increasing likelihood of injury to the lower extremity versus the upper extremity.82

Roberts et al82 reviewed 17 years of National Electronic Injury Surveillance System (United States) data for individuals aged 3 to 19. They identified a total of 113,084 dance-related injuries in this age group during the span of the study, with the number of cases and the annual age-adjusted rate of injury both increasing substantially during the span of years studied. Investigations that include injuries to dancers across their careers report that 84% to 95% of dancers are affected.68,87,91

In a 1-year prospective study of professional ballet dancers, Allen et al83 tabulated 355 injuries in 52 dancers, or a mean of nearly seven injuries per dancer in that single year. The researchers’ injury definition was any condition that prevented a dancer from participating fully in normally scheduled dance activities for at least 24 hours from the time the injury occurred. The incidence was 4.4 injuries per 1,000 hours of dance exposure, and overuse injuries were the most commonly reported type in this sample (64% of injuries in females and 68% in males). Females had a mean time-loss from dance due to injury of 4 days, while males’ mean time-loss was 9 days. This study is exemplary in that the high injury rate spurred the authors to implement an injury reduction program in their ballet company.

All of the literature taken together indicates, then, that the reduction of injury incidence in dancers is a worthwhile, if elusive, target. The task is multi-faceted, and certainly replete with opportunities for additional high-quality research engagement. For further insight into systematically approaching dance injury research, the reader is referred to Liederbach et al’s technical report.61

Challenges in caring for dancers versus traditional athletes

While highly tuned physical capacities are as important for dancers as they are for athletes, there are important differences between these two types of participants and between their activities. These factors impact the application of both preventive and treatment measures within the dance community.

Sports, in most cultures, are widely played, as well as followed by an enormous fan base. Interest extends from the highest professional ranks to the remotest of children’s playgrounds. Dance, on the other hand, does not enjoy such cultural pervasiveness (nor do any of the performing or visual arts, for that matter) even though the art form is taught in many schools and universities, and worldwide there are immensely talented and popular dance companies. Overall, most dancers, dance teachers, choreographers, and dance funding patrons describe feeling a lack of appreciation and respect by society at large for their extraordinarily physical and aesthetic craft. Despite this, they are never dissuaded from pursuing its creation, rehearsal, and performance, as the very nature of dance as athletic artistry engenders a high degree of dedication in its participants. This motivation informs virtually every aspect of their participation and presents some unique challenges to clinicians.

In contrast to most athletes who engage in daily practice sessions that are of comparatively short duration, dancers may routinely participate in technique classes during most of any given day, followed by rehearsals through the late afternoons and evenings. Weekends may be similarly filled. They feel an obligation to participate in and perfect their art, and conversations with and observations of dancers corroborate for the health care professional the intense psyche these athletic artists possess. Ballet dancers, in particular, exhibit a consuming passion for dance that makes a decision to stop dancing for injury or other reasons exceedingly difficult, a frame of mind Wainwright et al92 liken to an addiction.

One difficulty in assessing and monitoring dance injuries is dancers’ extraordinary processing of pain. They exhibit both a higher pain threshold (the amount of pain required for them to acknowledge it) and a higher pain tolerance (their ability to disregard pain while participating in physical activity) than non-dancers.93 This also may play a role in dancers’ minimalist reports of pain that do not seem to correlate with the presence of imaging findings.94,95 In addition, Anderson and Hanrahan96 noted that ballet dancers tended to distinguish poorly between pain that is customary in dance performance and pain associated with injury. Pain is typically seen by dancers as an accompanying facet of dance practice, and dancers are prone to “dance through” pain, even when doing so may be detrimental.97 Moreover, their pain coping skills are not as developed as those seen in many types of sports participants.98 These points should be helpful to anyone caring for injured dancers.

Psychosocial and technical factors related to dance injuries

Injuries are considered by dancers to be a natural, even necessary, part of participating in dance.92 Toledo et al99 suggest several contributors to dance injuries (Table 1). These should serve only as a general baseline, however, as research into dance injuries becomes more sophisticated with concomitant access to an ever wider cross-section of dancers, including increasingly popular genres like hip-hop41 and breaking,2,4 as well as young dancers.82,89,100 Note that most of the factors in Table 1 are modifiable or treatable, thus making prevention more realistic. This and other references101,102 suggest that improved health care for dancers may result from a psychosocial approach wherein health care providers become conversant with the nature of dance practice and performance in order to effectively assist dancers in preventing and recovering from injuries.

Table 1

Contributors to dance injury

General cause	Specific cause	Alterable with conservative management?
Improper training	Lack of warm-up exercise routine	Yes
	Repetitive jumping	Yes
	Poor alignment of body weight	Yes
	Disregarded overuse/fatigue	Yes
Faulty technique	“Sickling” (forefoot/hindfoot varus in demi-pointe or en pointe)	Yes
	“Winging” (forefoot/hindfoot valgus in demi-pointe or en pointe)	Yes
	“Rolling in” (foot hyperpronation)	Yes
	Poor turnout (inadequate hip external rotation)	Somewhat
	Anterior pelvic tilt	Yes
Environmental hazard	Hard floors Ill-fitting shoes	Depends on facility Yes
	Barefoot dancing	Depends on genre* and instructor
Structural deformity of the foot	Hallux rigidus	Somewhat
	Hallux valgus	Somewhat
	Pes cavus (high arch)	No, but treatable
	Pes planus (flat foot)	No, but treatable
Biomechanical imbalance	Poor core strength	Yes
	Weak eccentric strength of leg muscles	Yes
	Pelvic muscle imbalance or inflexibility	Yes
	Tight Achilles’ tendon	Somewhat
	Hypermobility syndrome (Beighton score ≥4)	No, but manageable

Notes:

Barefoot dancing is integral (and, thus, unmodifiable) to many dance forms; eg, modern/contemporary and several ethnic genres.

Adapted from Arch Phys Med Rehabil, 85(3 Suppl 1), Sports and performing arts medicine. 6. Issues relating to dancers, S75–S78, Copyright 2004, with permission from Elsevier.99 The table has been reconfigured for clarity. Items in italics are additions to Toledo et al’s list, as are the commentaries in the rightmost column.

Adam et al,103 Patterson et al,104 and Hamilton et al105 all found that negative stressors in ballet dancers’ lives predicted an increased injury rate. However, they also found that this effect could be mediated by the presence of positive social support in the dancers’ lives. Two examples of stressors suggested by Noh et al106 that are associated with a heightened risk of injury in ballet dancers are worry and negative confidence in one’s dance abilities. In another study, these researchers determined that ballet dancers who are taught general psychological coping skills experienced fewer injuries and less time injured.107 Among professional ballet dancers, females tend to be more disciplined than males. Women portray a tougher personality than their male colleagues in the face of the demands of a professional dance career, along with generally having fewer negative psychological traits.105 In addition, data from this study present a difficult enigma in suggesting that the same personality characteristics that promote success in ballet also place a dancer at increased risk of injury.

Technical intricacies required for success in particular dance genres may predispose dancers to injury. That is, aesthetic demands that are part of any given style of dance are typically not alterable. For example, “turnout” – externally rotating the hips and lower extremities to place the feet as close as possible to an ideal angle of 180° with each other – is a fundamental component of ballet. But, many dancers force this position beyond their normal limits, a practice that may result in conditions such as foot pronation,35 low back pain associated with anterior pelvic tilt,108,109 and pain and injury in joints of the lower extremity.35,109 Younger dancers or dancers who are less well trained are especially susceptible because they strive for a technical performance level for which their bodies may not be suited or properly instructed.110

In keeping the technical demands of dance from increasing the chance of injury, ensuring that dancers receive appropriately qualified instruction is paramount. However, poor teaching may be a difficult factor for health care providers to assuage unless they have both a dance background and unusually good access to the teachers of dancers under their care or in their community. Organizations such as the International Association for Dance Medicine and Science (IADMS, www.iadms.org) are important assets; IADMS holds a yearly educational day for dance teachers in conjunction with its annual conference, as well as produces resources designed specifically to foster healthy dance instruction.

Injury prevention factors in dance

Physical training

As previously described in light of a substantial body of research, dancers sustain many injuries. Research about preventive strategies to mitigate the incidence of dance injuries is less voluminous. Malkogeorgos et al111 offer five main areas of attention for preventing dance injuries: warm-up, training (including muscular strength, power, and endurance; plyometrics; agility; balance; joint stability; and dance-specific technique), equipment (including footwear and surfaces); regulatory aspects (rules and regulations governing dance); and self-care prevention and treatment methods. Of these, training is the most expansive area, and one that perhaps holds the most promise for success in reducing the incidence of dance injuries.

Participation in dance is not sufficiently intense across long durations to substantially improve aerobic capacity,31,112,113 and low cardiorespiratory endurance has been associated with dance injuries.114 In adolescent female dance students, O’Neill et al115 found that moderate-to-vigorous physical activity was lowest in the highest level dance classes, though students with more dance training generally tended to be more active in their classes than students with less training. Further, they noted that ballet classes offered less time for physical activity than did jazz and tap classes. Overall, the dance students they studied were moderately to vigorously active for only 10 minutes per hour of dance classes. In a study of modern dancers, Wyon et al31 found, not surprisingly, that participating in dance performances resulted in significantly higher heart rates and greater mean oxygen uptakes than either dance classes or rehearsals. Activity heart rates in their cohort of dancers were only rarely at a level consistent with that needed for aerobic improvement.

An investigation of ballet dancers suggested that inadequate physical training was a primary contributor to dance injuries.78 However, a 6-year follow-up of the same dancers revealed that, while they still were frequently injured, their increased age and dance workload did not result in more pain or injuries; rather, improved physical training facilities were identified as a helpful adjunct to their dance activity.116 Furthermore, professional ballet dancers who participated in a fitness program apart from their dance technical training showed an increase in maximum oxygen uptake, as well as decreased psychological stress, in comparison to a control group of dancers who did not pursue a fitness program.117

A study suggesting that decreased injury incidence in professional ballet dancers results from implementing physical training was performed by Allen et al.84 Over 3 years of prospective injury recording, male dancers’ injury incidence dropped from 4.76 per 1,000 hours of dance exposure to 2.22 per 1,000 hours. Injury incidence for females declined from 4.14 to 1.81 per 1,000 hours in the same 3-year period. Based on their first year’s data, these researchers incorporated individualized conditioning programs based on each dancer’s injury history and physical screening data and subsequently showed the value of such programs in reducing ballet injuries. As one possibility, physical regimens already popular with dancers, such as Pilates,30 should be encouraged and greater intensity and training volume across a general fitness program are advisable.

Whereas poor core stability has been identified as a risk factor for upper118 and lower119 extremity injury, and inadequate neuromuscular control in the trunk has been specifically associated with increased athletic knee injuries in females,120 dancers’ attention to these components of fitness is warranted. In elite professional ballet dancers, smaller cross-sectional area of the multifidus muscles have been correlated with lower back pain.121 The trunk muscles appear to fire in anticipation of lower extremity muscle contraction;122 this suggests the importance of optimal core function as the aesthetics of dance are intimately dependent on precise control of both the trunk and extremities. Therefore, attention to core stability and strength should be considered foundational to the remainder of a dancer’s training with the caveat that further research on core function in dancers is needed in light of Rickman et al’s123 findings that the research literature on this topic is relatively scant.

Low levels of muscular strength and power also have been suggested as predictive of dance injuries.22,124,125 Specifically, thigh torque in a cohort of male and female ballet and contemporary dancers was correlated with severity of injury as measured in days lost from dancing.124 Angioi et al22 similarly found leg power measured by vertical jump height to be positively correlated with days lost from dancing. In support of the need for physical training by dancers, a 6-week program of circuit and vibration training of contemporary dancers led to improvement in lower body muscular power, upper body muscular endurance, aerobic fitness, and aesthetic competence.34

Ambegaonkar et al33 studied upper body muscular endurance in university modern dancers, finding no difference between dancers and non-dancers in spite of modern dance requiring more consistent work with the upper body than ballet, especially in females. They surmised that their dancers’ lack of engagement in upper body physical training outside of dance classes, rehearsals, and performances was the primary contributor, thereby suggesting that participation in modern dance, in and of itself, does not lead to upper body muscular training effects.

In a sample of female professional ballet dancers compared to a control group, Koutedakis and Sharp126 reported significant improvements in quadriceps and hamstring torque output, as well as improvement in thigh muscle fatigability during dance, as a result of 12 weeks of strength training for these muscles. The improvements were particularly noteworthy in dancers who were weaker at the beginning of the study. As the control group dancers did not exhibit strength increases, the authors suggested that dance technical training alone is incapable of eliciting strength gains. Undesirable increases in muscle bulk are a concern for many female dancers because of the importance of anatomical aesthetic contours in dance. However, importantly for females, the increases in thigh strength seen in this study occurred without a concomitant alteration of thigh circumference, a finding the researchers offer as an indicator that the aesthetic characteristics of the lower extremities can be preserved when female ballet dancers participate in weight training.126

In view of the research evidence, it seems wise to recommend that dancers take part in general fitness training, not only as a helpful supplement to their technical training and performance, but as a means to reduce their chance of injury.

Nutrition and rest

Suboptimal nutrition has been associated with injury in dancers.127,128 Disordered eating and eating disorders – a discussion of which is beyond the scope of this review – are well known to affect many dancers.129–132 In addition, physiques generally associated with female ballet dancers, ie, high ectomorphy, low mesomorphy, and low percent body fat, have been linked to increased injury.133 Ballet dancers are particularly prone to control their physiques, especially via restricted dietary practices, because of the aesthetic requirements of their genre, as well as the related issue of the pressure to manage every detail of their existence as a means to maintain their place in a dance company. Many dancers may not follow sound research-based nutritional practices; thus, health care practitioners should utilize well-documented advice in encouraging dancers toward a healthy energy and fluid intake. Excellent resources for this purpose include the joint position statement on nutrition for sports performance developed by the American Dietetic Association, Dietitians of Canada, and the American College of Sports Medicine.134

Fatigue has been proposed as a risk factor for injuries in physical activity.135–139 In addition, fatigue manifest as “burnout” was shown to have a negative effect on several physical performance variables in professional female classical ballet dancers.140,141 Typical schedules of dancers that include dance classes and rehearsals throughout much of any given day may not be conducive to rest unless dancers purposely ensure they find time for adequate breaks and leisure. Also, dance seasons may not incorporate as much off-season recovery time as most sports seasons do. University dance students especially might be at risk of not receiving necessary rest because of the combination of their dance practice, the requirements of their non-dance academic work, and, often, their need to maintain employment to cover their personal expenses.

While research about fatigue and rest in dancers appears scarce, Twitchett et al142 mapped female professional ballet dancers’ activity across a typical workday. Ninety percent of the dancers took less than 60 consecutive minutes of rest, and one-third took less than 20 minutes rest during the day. In a 5-year prospective study of both ballet and modern dancers, more injuries tended to occur in the evening, toward the end of the season, and during performances; these all suggest fatigue as a contributing factor.75 Thus, dancers must be encouraged to schedule appropriate “down time” in support of both their physical and emotional health.

Flooring

Most dancers prefer to dance on a “sprung” floor rather than on an unyielding surface such as concrete. Sprung floors are typically manufactured from wood and are set on a subfloor by means of a framework of dense foam blocks or other resilient material that effectively suspends the wood floor above the hard subfloor. In many genres of dance that utilize studios and stages, the wood is covered with a 1–2 mm thick vinyl sheet called “marley” in the dance vernacular. The suspended, or sprung, nature of the floor allows it to disperse some of the forces associated with dance, particularly in jumping and landing.143,144 Unfortunately, in many instances dancer preference must give way to the necessity of dancing on whatever surface is installed in a given school, studio, or theater. Hopper et al145 found great variability in force reduction capability amongst different professional ballet venues, concluding that none of the floors met suggested standards for force reduction and that the floor with the greatest intra-surface variability in force reduction was the floor on which the most injuries occurred.

The shock absorptive quality of the surface may not be the only floor-related hazard associated with dance injuries, however. Wanke et al146 attributed 12.7% of all accidents (291 of 2,281 reported injuries spanning 17 years) in professional and student dancers to a fault with flooring. The most common complaint from the injured dancers was a slippery floor, with the second most common being too much friction in the interface between the foot/shoe and the floor. The majority of the injuries to the professionals occurred on a stage surface, and about half of the professionals’ injuries occurred during performances. In response to these data, optimal maintenance practices are essential to ensuring a surface properly prepared for the type of dance to be performed on the floor and the footwear to be worn (or the lack of footwear for some genres). However, this responsibility rests with the dance facility and, therefore, hazardous conditions may be outside the influence of a health care provider unless he or she is employed by the responsible dance company or university.

Footwear

Most genres of dance employ specific types of shoes, although modern/contemporary dancers and certain ethnic style dancers do not wear shoes. Unshod dancers are especially challenging when foot orthotics are indicated for treatment or prevention of injury. Dance shoes in genres that require them (eg, ballet, jazz, tap, flamenco, Irish) are minimally force dispersive by nature of their construction. Ballet slippers, jazz shoes, and Irish dance shoes are little more than a layer or two of leather or microfiber material. Flamenco shoes have high heels suggested to be a cause of injuries to the feet and lower back.42,43 Despite the possibility that cushioned shoes help dissipate energy when landing on a floor57,147 and provide shock absorption to reduce the chance of lower limb pathology,148 dancers are unlikely to incorporate these into their rehearsals because they need to precisely replicate their performance conditions and because the specific “feel” of the floor by their feet is essential to their success in dancing.

Pointe shoes in ballet are supportive of the foot, having been shown to provide stiffness with compromise of the midfoot ligaments.149 They are a necessity for en pointe technique, but have been associated with foot pain and injuries.150,151 Their ability to dissipate force through the sole appears to be better than ballet slippers.152 Some evidence suggests that a soft, partial pointe (ie, demi-pointe) shoe is helpful in reducing leg, ankle, and foot injuries in adolescent dancers when these shoes are worn as a prelude to initiating pointe training.153

Certainly, research on footwear in dance is insufficient at present.154 In short, health care providers must work within the constraints of the footwear – or lack of footwear – customary within the dance genres practiced by their dancer-patients.

Dancing en pointe

Dancing en pointe is a specific type of ballet that can give rise to numerous injuries in young dancers if proper care is not exercised in deciding when a dancer is ready to begin pointe training.155,156 It requires an extreme amount of plantar flexion157–159 that includes motion among the bones of the feet160 in order to stand on the toe tips in pointe shoes (Figure 1). The physical test – among several evaluated – found to be most associated with appropriate readiness for pointe work is the “Airplane test,”161 an assessment substantially related to core stability. The dancer stands on one leg while bending over at the waist and extending the other leg backward such that it and the trunk are parallel to the floor. In this position, then, the dancer is facing downward at the floor. The upper extremities are extended outward from the shoulders, also parallel to the floor. The dancer then lowers herself by flexing the knee of the support leg, simultaneously keeping the trunk and nonsupport leg parallel to the floor and bringing the fingertips of both hands downward, while maintaining extended elbows, to touch the floor in front of the face. The dancer then extends the knee and upper extremities to return to the starting position. Four out of five consecutive trials performed with good balance and without valgus or varus motion of the support knee are required to pass the test.161

Figure 1

A ballet dancer standing en pointe. Note the extreme talocrural plantar flexion and the architecture of the midfoot, the combination of which is required for the dancer to attain this position.

Other factors related to success in moving to ballet en pointe include foot strength, ankle range of motion, stability and control during rising to the toes and lowering, and seriousness of ballet training as evidenced by the number of days and hours per week the student attends ballet classes.155,156 Implementing solely an age-based criterion for advancement to pointe is not appropriate.88,156 Health care providers who have occasion to consult with young dancers and their parents about dancing en pointe should become conversant with the demands of this activity.

Specialized health care access for dancers

Most dancers do not enjoy access to specialized health care that is equivalent to their counterparts in traditional sports.30,162–164 Moreover, when they do approach the health care profession, the response they receive is often unconstructive or, even, discouraging.40,165–167 Russell and Wang167 found that 80% of university dancers surveyed reported that they felt their health care providers did not understand dancers and 43% indicated that their health care providers gave unhelpful advice. Empirically, most dancers will report at least one – and often several – instances of being told by a practitioner to “stop dancing” as a method to manage their injuries. While this advice is sound under certain injury circumstances that require complete rest (eg, a tibial stress fracture), dancers loathe receiving it as a carelessly offered, supposed panacea. From the perspective of artists, health care workers could better serve them by purposefully learning about performing arts medicine168 and by attending dance performances as a method for understanding the physical demands of dance.165 If reduction or discontinuance of dancing is warranted for an injury, one method of improving the relationship between providers and dancers, and better serving the physical nature of dance, is for those in health care to prescribe rehabilitative regimens that either moderate dancers’ dancing or define suitable activity alternatives during recuperative periods (rather than suggest they “stop dancing”).

Appropriate, specialized health care for dancers is necessary not only for proper care of injuries, but for prevention of new injuries or worsening of current injuries. For example, anterior leg pain that a dancer considers as “shin splints” – and a corollary of participating in dance – may have disastrous sequelae. As one dramatic illustration of this, Martinez and Murphy169 described their experience with a male professional ballet dancer exhibiting a radiologically confirmed tibial stress fracture in the anterior cortex that did not respond to conventional treatment. To address this, intramedullary nailing was performed. However, the dancer did not seek consistent follow-up care, and 4 months post-surgery he landed from a jump, re-fractured the tibia, and bent the nail, thus necessitating revision surgery.

Notably, Bronner et al24 reported a substantial decrease in time-loss injury incidence and a concomitant decrease in medical expenditures following implementation of a health care program in a professional modern dance company. They compared injury records for 2 years without health care intervention against the records for 3 years with provision of comprehensive care. Their definition of injury was “any musculoskeletal complaint resulting in financial outlay”. Injury rates, measured by the quantity of new workers’ compensation claims amongst the company’s dancers, dropped markedly, declining from about 80% across the first 3 years of the study to 24% in the fourth year and 17% in the fifth year. The number of injuries per 1,000 hours of dance exposure also fell.

In a follow-up study, Ojofeitimi and Bronner39 slightly refined their injury definition: “a physical insult that required financial outlay (WC [workers’ compensation] or self insurance) or caused a dancer to cease dancing beyond the day of injury (time-loss injury)”. They studied a further 3 years of data from their experience with the professional modern dance company and found overall that the company exhibited a 34% decrease in injury incidence, 66% fewer workers’ compensation claims, and a 56% decline in days lost from dance. These two studies are highlighted because they imply that attentive health care for dancers, both preventive and restorative, is associated with amelioration of injury rates.

Conclusion

Dance is a rigorous physical activity accompanied by a large quantity of injuries in its participants. In spite of some similarities dance shares with sports, a number of differences and challenges present themselves to those charged with caring for dancers. Several elements related to how dancers approach their art form are worthy of consideration in determining how best to reduce their injuries. In summary, and in light of the literature review presented above, the following current perspectives are offered to professionals in dance, health, research, and health care to support reducing and preventing dance-related injuries.

Screening of dancers’ physical and psychological attributes, prior injuries, and current and planned dance activity can identify areas that should be addressed to minimize the likelihood of injury.

Physical training of dancers, apart from their technical training in dance, should be encouraged, with special attention to the core and to the musculature specific to the demands of their genre(s).

Proper nutrition and rest (reduction of fatigue) are essential factors in maintaining a dancer’s body that is as resistant to injury as possible.

The provision of specialized health care services to dancers is important to risk assessment, injury management, and injury reduction.

Health care practitioners not conversant with dance or the psyche of performing artists will become more appreciative of dance’s physically rigorous nature, be better equipped to care for dance injuries, and gain favor with dancers by observing different varieties of dance and interacting with dancers about their art form.