Anterior cruciate ligament injury: Identifying information sources and risk factor awareness among the general population

PLOS ONE, Jan 2018

Introduction Raising awareness on a disorder is important for its prevention and for promoting public health. However, for sports injuries like the anterior cruciate ligament (ACL) injury no studies have investigated the awareness on risk factors for injury and possible preventative measures in the general population. The sources of information among the population are also unclear. The purpose of the present study was to identify these aspects of public awareness about the ACL injury. Materials and methods A questionnaire was randomly distributed among the general population registered with a web based questionnaire supplier, to recruit 900 participants who were aware about the ACL injury. The questionnaire consisted of two parts: Question 1 asked them about their sources of information regarding the ACL injury; Question 2 asked them about the risk factors for ACL injury. Multivariate logistic regression was used to determine the information sources that provide a good understanding of the risk factors. Results and discussion The leading source of information for ACL injury was television (57.0%). However, the results of logistic regression analysis revealed that television was not an effective medium to create awareness about the risk factors, among the general population. Instead “Lecture by a coach”, “Classroom session on Health”, and “Newspaper” were significantly more effective in creating a good awareness of the risk factors (p < 0.001).

A PDF file should load here. If you do not see its contents the file may be temporarily unavailable at the journal website or you do not have a PDF plug-in installed and enabled in your browser.

Alternatively, you can download the file locally and open with any standalone PDF reader:

http://journals.plos.org/plosone/article/file?id=10.1371/journal.pone.0190397&type=printable

Anterior cruciate ligament injury: Identifying information sources and risk factor awareness among the general population

January Anterior cruciate ligament injury: Identifying information sources and risk factor awareness among the general population Yasuharu Nagano 0 1 Hiroko Yako-Suketomo 0 1 Hiroaki Natsui 0 1 0 Department of Sports Wellness Sciences, Japan Women's College of Physical Education , Tokyo , Japan 1 Editor: Jorge S. Burns, University Hospital Modena and Reggio Emilia , ITALY Raising awareness on a disorder is important for its prevention and for promoting public health. However, for sports injuries like the anterior cruciate ligament (ACL) injury no studies have investigated the awareness on risk factors for injury and possible preventative measures in the general population. The sources of information among the population are also unclear. The purpose of the present study was to identify these aspects of public awareness about the ACL injury. A questionnaire was randomly distributed among the general population registered with a web based questionnaire supplier, to recruit 900 participants who were aware about the ACL injury. The questionnaire consisted of two parts: Question 1 asked them about their sources of information regarding the ACL injury; Question 2 asked them about the risk factors for ACL injury. Multivariate logistic regression was used to determine the information sources that provide a good understanding of the risk factors. - Competing interests: The authors have declared that no competing interests exist. Introduction Materials and methods Results and discussion The leading source of information for ACL injury was television (57.0%). However, the results of logistic regression analysis revealed that television was not an effective medium to create awareness about the risk factors, among the general population. Instead ªLecture by a coachº, ªClassroom session on Healthº, and ªNewspaperº were significantly more effective in creating a good awareness of the risk factors (p < 0.001). Introduction Anterior cruciate ligament injury is a critical sports injury, with far reaching consequences. In the United States, there are around 200,000 cruciate ligament injuries annually [1]. Among Japanese junior high and high school athletes, about 3,000 ACL injuries occur annually, and the injury rate is 0.80 per 1000 athletes [ 2 ]. Following the injury, most cases require a reconstruction of the ACL and long-term rehabilitation. Most articles published in recent years, advocate a return to unrestricted sports 6 months or later following ACL reconstruction [ 3 ]. Moreover, long-term studies have reported that about 50% of patients develop osteoarthritis of the knee joint, 15 years after an ACL injury, irrespective of the treatment [ 3,4,5 ]. Almost all people who participate in any kind of sports activity are at a risk for ACL injury. Therefore, this injury carries a pressing concern in sports medicine, and needs effective prevention strategies. Previously, many researchers have investigated the mechanisms, risk factors, and preven tion methods for ACL injury. Based on the outcomes of these studies, a consensus about ACL injury prevention has recently been reported [ 3 ]. Through research, the mechanisms, risk factors, and prevention methods for ACL injury were gradually understood. Almost 80% of the ACL injuries are non-contact in nature. Injuries often occur when landing from a jump, cutting or decelerating [ 3 ]. Well-designed injury prevention programs, which focus on proper landing and side-step cutting movement techniques reduce the risk of ACL in athletes, particularly women [ 3 ]. However, the incidence of ACL injury did not change between 2005 and 2013 in Japan [ 2 ]. One probable reason could be that the existing knowledge did not percolate to the general population, and awareness about the risk factors and prevention methods was insufficient. Thus, disseminating this information is necessary. For public health, increasing the awareness about a disorder is important for prevention. There have been surveys on public awareness or beliefs about cancer in several countries [ 6,7,8 ]. Increasing the awareness through public health policies enables prevention by screening. However, for a sports injury like the ACL injury, no study has investigated the public awareness about its risk factors and prevention methods, to the best of our knowledge. The most effective sources of information for creating awareness are also unclear. If these can be identified, they can be used to spread awareness and adequate understanding. Therefore, the purpose of this study was to understand how the general population acquires information about ACL injury and to evaluate the most effective medium for understanding the risk factors associated with it. It was hypothesized that the general population acquired information about ACL injury from mass media (television and internal sources); however, these information sources did not necessarily provide a good understanding of the risk factors. Materials and methods Study setting The present study was a cross-sectional analysis of the data obtained from a web-based questionnaire survey. The questionnaire was randomly distributed among the people registered with a web questionnaire supplier (Rakuten Research Inc.), to recruit 900 participants who were aware about ACL injury. According to the power analysis [ 9 ], the required sample size for a descriptive study of the dichotomy variable (P = 0.50, W = 0.10, confidence level = 95%) was 384, and required sample size for difference of ratio of dichotomy variable (smaller P1 = 0.45, difference of P = 0.10, α = 0.05, β = 0.20) was 407. Based on these values, we targeted a sample size of 900. Participants were assigned equitably according to sex (men and women) and age (20's, 30's, 40's, and 50's). While rolling out the survey, a web questionnaire supplier invited 310,325 affiliates to participate in the survey. When the number of respondents who participated and were aware of the ACL injury reached 112 or 113 for each gender in all age groups, and 900 in total, the survey was closed. The survey achieved the desired sample size in 2 days (June 20±21, 2016). Demographic characteristics of the study populations are shown in 2 / 8 Number Questionnaire The questionnaire consisted of one screening question and two main questions (S1 File). The screening question assessed whether the respondent was aware about the ACL injury. If the answer was positive, the questionnaire continued to question 1 and 2. Those who answered in the negative for the screening question were dropped from the survey. Question 1 asked the respondent about the source of information about ACL injury. Participants selected their answers from a list of given options. The options were, ªInjury to selfº, ªInjury among family or relativesº, ªInjury among friendsº, ªLecture from familyº, ªLecture from coachº, ªClassroom session on Healthº, ªAny Classroom session, except on healthº, ªTelevisionº, ªMagazineº, ªComicsº, ªInternetº, ªNewspaperº, and ªPoster or flyer in the hospitalº. Participants were allowed to select multiple answers. Question 2 assessed their knowledge about risk factors for ACL injury. Participants answered ªlikely to be a risk for ACL injuryº or ªnot likely to be a risk for ACL injuryº for each factor. Factors were ªBone geometryº, ªACL sizeº, ªJoint laxityº, ªHormoneº, ªFlexibilityº, ªFoot pronationº, ªWeakness of front thigh (quadriceps)º, ªWeakness of back thigh (hamstrings)º, ªWeakness of hip musclesº, ªPoor single limb balanceº, ªIncrease of weightº, ªDrinkingº, ªSmokingº, ªGenu valgum during landingº, and ªGenu varum during landingº. Participants were allowed to select multiple answers. We considered nine factors as risk factors, based on previous studies, and scored the answers for a maximum of nine points. Proven risk factors were ªBone geometryº [ 10 ], ªACL sizeº [ 10 ], ªJoint laxityº [ 10 ], ªHormoneº [ 10 ], ªFoot pronationº [ 10 ], ªWeakness of back thigh (hamstrings)º [ 3 ], ªWeakness of hip musclesº [ 3,11 ], ªPoor single limb balanceº [12], and ªGenu valgum during landingº [ 3,10 ]. We evaluated the validity of this questionnaire and scored points in the colloquium, which consisted of sports medicine physicians, physical therapists and public health personnel. If the sum of the average score and 1SD exceeded nine points, it was considered as a ceiling effect. 3 / 8 Statistical analysis We allocated participants to two groups: the high understanding group (over 7 points) and low understanding group (under 4 points), based on the score of question 2. Participants scoring 5 or 6 points were excluded from the analysis to accentuate the difference between groups. To determine the source of information, which provides a good understanding of the risk factors, we examined the association between the two groups and each source of information, using chi-square test or Fisher exact test. Moreover, multivariate logistic regression was performed to determine the sources of information that provide a good understanding of the risk factors. Input variables were selected from the significant factors based on the results of the chi-square test or Fisher exact test (p<0.1). Multivariate logistic regression was conducted using forward selection (likelihood ratio), and model chi-square test (p<0.05). Overall percentage of correct information provided, goodness-of-fit (p>0.05), and odds ratio of each factor in the final regression model was calculated. All statistical analyses were performed using SPSS Statistics Version 19.0 for Windows (IBM; Brush Prairie, WA, USA). Results Attributes of participants Total 4248 people responded to the screening question and 900 participants who were aware of the ACL injury completed the survey. Source of information about ACL injury Sources of information about ACL injury are shown in Table 2. The most frequent source was ªTelevisionº (57.0%), followed by ªInjury to friendsº (22.4%), ªLecture from coachº (16.6%), and ªInternetº (16.3%). Understanding of the risk factors for ACL injury The understanding of the risk factors for ACL injury is shown in Table 3. The understanding of ªHormoneº and ªFoot pronationº was low (20.4% and 28.2%, respectively). The distribution of the score for risk factors is demonstrated in Fig 1. The average score for the risk factors Response (n = 900) 62 65 202 25 149 34 21 513 40 23 147 84 34 6.9 7.2 22.4 2.8 16.6 3.8 2.3 57.0 4.4 2.6 16.3 9.3 3.8 ] ] ] ] ] ] ] ] ] ] ] ] ] Information sources influencing the understanding of risk factors From the score of question 2, we extracted the high understanding group (n = 348) and the low understanding group (n = 307). Based on the results of the chi-square test or Fisher exact test, ªInjury to family or relativeº, ªLecture from the coachº, ªClassroom session on Healthº, ªMagazineº, ªNewspaperº, and ªPoster or flyer in the hospitalº achieved a good score (above 7 points) on the recognition of risk factors. The results of multivariate logistic regression analysis of information sources providing good recognition of risk factors are shown in Table 4. The final regression model included ªLecture from the coachº, ªClassroom session on Health,º and ªNewspaperº, and provided a significantly good information of risk factors (p<0.001) and had goodness-of fit (= 0.565). Discussion The present study investigated the general awareness about ACL injury in Japan using a webbased questionnaire. The main findings of this study were that the most important source of information was television, but this medium was not effective in building awareness in the general population. It was found that people only hear about "ACL injury" from the news or documentaries of television; the awareness of risk factors and prevention is not included in the broadcast. To increase the understanding about ACL injury, dissemination of risk factors and prevention methods through the television is necessary. If the scientific societies or sports organizations can provide correct information through the television, awareness and understanding about ACL injury could be created in the general population. Other information sources that contributed to the understanding of risk factors were lectures from a coach, classroom session on health, and newspaper. These sources were found to be effective for understanding the injury; however, they were less frequently used. These sources should be utilized to disseminate information. With regard to awareness among 5 / 8 Fig 1. Distribution of scores for risk factors of ACL injury. Coefficients 0.671 1.034 0.556 -0.369 P value 0.003 0.036 0.052 0.000 1.957 2.813 1.743 0.691 [ [ [ 6 / 8 coaches, Norcross et al. [ 13 ] investigated their knowledge on injury prevention programs and found that 52% reported being aware of injury prevention programs. Interestingly, the most important source of information on injury prevention programs among players was their coaches. Indeed, players were 4.94-times more likely to be aware of prevention programs if their coaches were aware of the programs [ 14 ]. To improve the dissemination of injury prevention, all coaches should understand the risk factors and convey this information to the players. In the Japanese junior high school class of health, a chapter is included on injury prevention [ 15 ]; however, it does not address a specific injury. We hope that the class of health covers the ACL injury as a representative sports injury. The newspaper is an effective source to dissemi nate the knowledge; however, the readership is declining. Today, internet could be an effective substitute for a newspaper. In a dissemination study of rugby injury prevention programs [ 14 ], social media was also found to be a significant contributor to knowledge among coaches and players. To spread the understanding of ACL injury, an increase in the opportunity to access these information sources through social media is probably necessary. The limitation of this study is that it used a web-based questionnaire survey. Therefore, we could not identify the population surveyed and participation bias. There is also a possibility of some participants providing false answers. However, this web-based survey is a useful tool for a wide-reaching public investigation in a short period. In addition, to recruit 900 participants who knew of ACL injury, 4248 people were screened, which indicated that 21.2% had heard about it. Although awareness on sports injury or prevention programs among coaches or players has been investigated in previous studies [ 13,14 ], few studies have investigated awareness in the general population. Moreover, even fewer studies have done so using a web-based questionnaire. Therefore, these results cannot be compared with other injuries. In the future, additional survey studies are expected as more evidence becomes available. In conclusion, the results of the present study demonstrated that the most frequent source of information regarding ACL injuries was television, but it did not contribute to the understanding of risk factors. A lecture from the coach, classroom session of health, and newspapers, contributed to the understanding of risk factors. It is recommended to provide improved information through the television or to increase the opportunity for people to attend a lecture by a coach, a classroom session on health, and access newspapers, to increase the awareness and good understanding of ACL injury in the general population. Supporting information S1 File. Questionnaire. (DOC) Acknowledgments We thank Rakuten Research Inc. for collecting and conducting the survey. Author Contributions Conceptualization: Yasuharu Nagano. Data curation: Yasuharu Nagano. Formal analysis: Yasuharu Nagano, Hiroko Yako-Suketomo. Investigation: Yasuharu Nagano. Methodology: Yasuharu Nagano, Hiroko Yako-Suketomo. 7 / 8 Project administration: Yasuharu Nagano. Supervision: Hiroaki Natsui. Validation: Yasuharu Nagano, Hiroko Yako-Suketomo, Hiroaki Natsui. Visualization: Hiroko Yako-Suketomo. Writing ± original draft: Yasuharu Nagano. Writing ± review & editing: Yasuharu Nagano, Hiroko Yako-Suketomo. 1. Marshall SW , Padua D , McGrath M . Incidence of ACL Injury . In: Hewett TE , Shultz SJ , Griffin LY , editors. Understanding and Peventing Noncontact ACL injuries. 1st ed. IL: Human Kinetics; 2007 . p. 5 ± 30 . 2. Takahashi S , Okuwaki T. Anterior Cruciate Ligament Injury in Junior High School and High School Athletes; Report from Japan [in Japanese] . Japanese J Clinical Sports Med . 2015 ; 23 : 480 ± 485 . 3. Renstrom P , Ljungqvist A , Arendt E , Beynnon B , Fukubayashi T , Garrett W , et al. Non-contact ACL injuries in female athletes: an International Olympic Committee current concepts statement . Br J Sports Med . 2008 ; 42 : 394 ± 412 . https://doi.org/10.1136/bjsm. 2008 .048934 PMID: 18539658 . 4. Lohmander LS , Englund PM , Dahl LL , Roos EM . The long-term consequence of anterior cruciate ligament and meniscus injuries: osteoarthritis . Am J Sports Med . 2007 ; 35 : 1756 ± 1769 . https://doi.org/10. 1177/0363546507307396 PMID: 17761605 . 5. Meunier A , Odensten M , Good L. Long-term results after primary repair or non-surgical treatment of anterior cruciate ligament rupture: a randomized study with a 15-year follow-up . Scand J Med Sci Sports . 2007 ; 17 : 230 ± 237 . https://doi.org/10.1111/j.1600- 0838 . 2006 . 00547 . x PMID : 17501866 . 6. Robb K , Stubbings S , Ramirez A , Macleod U , Austoker J , Waller J , et al. Public awareness of cancer in Britain: a population-based survey of adults . Br J Cancer . 2009 ; 101 Suppl 2 : S18 ± S23 . https://doi.org/ 10.1038/sj.bjc.6605386 PMID: 19956158; PubMed Central PMCID : PMCPMC2790705 . 7. Simon AE , Forbes LJ , Boniface D , Warburton F , Brain KE , Dessaix A , et al. An international measure of awareness and beliefs about cancer: development and testing of the ABC . BMJ Open . 2012 ; 2 . https:// doi.org/10.1136/bmjopen-2012-001758 PMID: 23253874; PubMed Central PMCID : PMCPMC3547316 . 8. Sugisaki K , Ueda S , Monobe H , Yako-Suketomo H , Eto T , Watanabe M , et al. Cancer understanding among Japanese students based on a nationwide survey . Environ Health Prev Med . 2014 ; 19 : 395 ± 404 . https://doi.org/10.1007/s12199-014-0406-6 PMID: 25160501; PubMed Central PMCID : PMCPMC4235853 . 9. Hulley SB , Cummnings AR , Browner WS , Grady DG , Newman TB . Designing Clinical Research . Fourth Edition ed. Philadelphia: Lippincott Williams & Wilkins; 2013 . 10. Posthumus M , Collins M , September AV , Schwellnus MP . The intrinsic risk factors for ACL ruptures: an evidence-based review . Phys Sportsmed . 2011 ; 39 : 62 ± 73 . Epub 2011/03/08. https://doi.org/10.3810/ psm. 2011 . 02 . 1863 PMID: 21378488 . 11. Khayambashi K , Ghoddosi N , Straub RK , Powers CM . Hip Muscle Strength Predicts Noncontact Anterior Cruciate Ligament Injury in Male and Female Athletes: A Prospective Study . Am J Sports Med . 2016 ; 44 : 355 ± 361 . Epub 2015/12/10. 0363546515616237 [pii] https://doi.org/10.1177/ 0363546515616237 PMID: 26646514 . 12. Plisky PJ , Rauh MJ , Kaminski TW , Underwood FB . Star Excursion Balance Test as a predictor of lower extremity injury in high school basketball players . The Journal of orthopaedic and sports physical therapy . 2006 ; 36 : 911 ± 919 . https://doi.org/10.2519/jospt. 2006 .2244 PMID: 17193868 . 13. Norcross MF , Johnson ST , Bovbjerg VE , Koester MC , Hoffman MA . Factors influencing high school coaches' adoption of injury prevention programs . J Sci Med Sport . 2016 ; 19 : 299 ± 304 . https://doi.org/ 10.1016/j.jsams. 2015 . 03 .009 PMID: 25866072 14. Sewry N , Verhagen E , Lambert M , van Mechelen W , Brown J . Players' and coaches' knowledge and awareness of the BokSmart Safe Six injury prevention programme: an ecological cross-sectional questionnaire study . BMJ Open . 2017 ; 7: e018575 . https://doi.org/10.1136/bmjopen-2017 -018575 PMID: 29101150 15. Ministry of Education C , Sports, Science, and Technology Japan . Course of Study for junior high school . Section 7 Health and Physical Education. Section 7 Health and Physical Education 2008 [ 27 December 2016 ]. Available from: http://www.mext.go.jp/component/a_menu/education/micro_detail/__icsFiles/ afieldfile/2011/04/11/1298356_8.pdf


This is a preview of a remote PDF: http://journals.plos.org/plosone/article/file?id=10.1371/journal.pone.0190397&type=printable

Yasuharu Nagano, Hiroko Yako-Suketomo, Hiroaki Natsui. Anterior cruciate ligament injury: Identifying information sources and risk factor awareness among the general population, PLOS ONE, 2018, DOI: 10.1371/journal.pone.0190397