The Second Safety in College Football Summit resulted in interassociation consensus recommendations for three paramount safety issues in collegiate athletics: (1) independent medical care for collegiate athletes; (2) diagnosis and management of sport-related concussion; and (3) year-round football practice contact for collegiate athletes. This document, the fourth arising from the 2016 event, addresses the prevention of catastrophic injury, including traumatic and non-traumatic death, in collegiate athletes. The final recommendations in this document are the result of presentations and discussions on key items that occurred at the summit. After those presentations and discussions, endorsing organisation representatives agreed on 18 foundational statements that became the basis for this consensus paper that has been subsequently reviewed by relevant stakeholders and endorsing organisations. This is the final endorsed document for preventing catastrophic injury and death in collegiate athletes. This document is divided into the following components. (1) Background—this section provides an overview of catastrophic injury and death in collegiate athletes. (2) Interassociation recommendations: preventing catastrophic injury and death in collegiate athletes—this section provides the final recommendations of the medical organisations for preventing catastrophic injuries in collegiate athletes. (3) Interassociation recommendations: checklist—this section provides a checklist for each member school. The checklist statements stem from foundational statements voted on by representatives of medical organisations during the summit, and they serve as the primary vehicle for each member school to implement the prevention recommendations. (4) References—this section provides the relevant references for this document. (5) Appendices—this section lists the foundational statements, agenda, summit attendees and medical organisations that endorsed this document.

Data about catastrophic injuries and illnesses in collegiate athletes began with intermittent accounts from print media, and more formally in 1931, through the American Football Coaches Association initiation of the Annual Survey of Football Injury Research. Since 1982, the National Center for Catastrophic Sport Injury Research (NCCSIR) at the University of North Carolina, Chapel Hill,1  has been the nation's premier source of catastrophic injury and death related to participation in organised sports at all levels of competition, including college. The NCCSIR monitors, collects and analyses data on catastrophic injuries, illnesses and death and provides publicly available reports about football and other sports.1 

In order to create enhanced national surveillance abilities for catastrophic injuries, illness and death, the NCCSIR has partnered with the Consortium for Catastrophic Injury Monitoring in Sport. The consortium includes the division on traumatic injury at the Matthew Gfeller Sport-Related Traumatic Brain Injury Research Center at the University of North Carolina, Chapel Hill; the division on exertional injury at the Korey Stringer Institute at the University of Connecticut; and the division on cardiac injury in sport at the University of Washington.1  Working through the consortium, the NCCSIR has developed new methods of data collection and analysis, including the use of a public-facing online reporting system.2 

Researchers who study the epidemiology of catastrophic injury and death in sport identify two mechanisms by which these events occur. Traumatic catastrophic injuries, also called direct injuries, are bodily injuries caused directly by participation in a sport activity.1  An example of a traumatic catastrophic injury is a spinal cord injury caused by tackling in the sport of football. The three leading causes of death from traumatic injury are traumatic brain injuries, spinal cord injuries and internal organ injuries.1  Non-traumatic catastrophic injuries, also known as indirect or exertional injuries, are the ‘result of exertion while participating in a sport activity or by a complication that was secondary to a non-fatal injury'.1  An example of a non-traumatic catastrophic injury is sudden cardiac arrest in an athlete occurring during a basketball practice. The two leading causes of death from non-traumatic injury are sudden cardiac death and exertional injuries.1 ,3 

Enhancing a culture of safety in college sports in general, and college football in particular, is foundational to reducing the occurrence of catastrophic injury and death and the basis for bringing college athletics stakeholders to the first Safety in College Football Summit in 2014, and then reconvening in 2016. The goal of this and any sport safety initiative is protecting the life and the long-term well-being of all athletes.

Catastrophic injury patterns

Since 1982, the first year for which catastrophic injury/illness data were available across all collegiate sports (ie, National Collegiate Athletic Association (NCAA); National Association of Intercollegiate Athletics; National Junior College Athletic Association), there have been 487 catastrophic injuries or illnesses. Of these, 297 (61%) were traumatic events and 190 (39%) were non-traumatic events.1  In 2016–2017, the last year for which data across all collegiate sports is available, 19 catastrophic events occurred, five of which were fatal.1 

Overall, football has the highest number of both traumatic and non-traumatic catastrophic injuries of any collegiate sport. Since 1931, the first year in which football-specific fatality data were collected, there have been 94 traumatic fatalities in college football and 127 non-traumatic fatalities.4  More recently, since 1960, there have been 51 traumatic fatalities versus 99 non-traumatic in football.4  After adjusting for the total number of participating athletes, football is joined by male gymnastics, female skiing, male ice hockey and female gymnastics for the highest rates of traumatic catastrophic injury.1  Traumatic events in football had fallen every decade from 1960 until 1994. That decline is associated with rule modifications based on research, enhanced medical care and education.5 ,6  Since 1994, the number of traumatic injuries has varied, but at a level generally lower than those of the 1970s and 1980s.1 

Since 1970, in both high school and college football, non-traumatic fatalities have outnumbered traumatic fatalities. At both the high school and college level, football has the highest number of non-traumatic catastrophic events.1  For example, from 2001 to 2017, the ratio of non-traumatic to traumatic death in collegiate football was 5:1—35 non-traumatic deaths compared with seven traumatic fatalities.4  Across all levels of football, this ratio is 2:1.4  Non-traumatic deaths in American football have remained relatively steady for more than five decades. Data from 20174  reveal the current decade will continue this unfortunate and often preventable trend of non-traumatic death that occurs largely in out-of-season or preseason workouts.

While rule modification has the potential to decrease non-traumatic deaths in certain situations (eg, verification of sickle cell trait decreasing exertional collapse associated with sickle cell trait in Division I football), the policy and procedures to prevent non-traumatic catastrophic death have not kept pace with strength and conditioning sessions and practice sessions that continue to be the setting for record rates of high school and college athlete deaths. For example, of the nine non-traumatic deaths of football players at all levels of the sport in 2017, six occurred during conditioning sessions and one occurred during a strengthening session.1  For the 2015–2016 academic year, six (15%) of the 40 non-traumatic catastrophic injuries and illnesses that occurred across all sports and all levels of competition took place during strength and conditioning sessions.1  This means that across all sports beside football, non-traumatic injuries are occurring in practice sessions overseen by sport coaches and not during strength and conditioning sessions managed by strength and conditioning professionals.

Policy developments

Available research provides insight into risk factors for catastrophic injury and has led to policy decisions meant to mitigate those risks. Established research demonstrates that NCAA Division I football athletes with sickle cell trait are at a higher risk of non-traumatic catastrophic events, including death.5 ,7 ,8  In response, the last decade has seen an increase in policy recommendations for the prevention of exertional collapse associated with sickle cell trait (ECAST) in collegiate sport. In 2007, the National Athletic Trainers' Association (NATA) released a consensus statement on sickle cell trait in the athlete.9  By 2013, all three NCAA divisions had adopted legislation requiring confirmation of student–athlete sickle cell trait status before participation.1012  This policy, in tandem with targeted onsite precautions, has resulted in a statistically significant decrease in the number of ECAST deaths in college athletes.13 ,14 

Transition periods, defined below, are often associated with poor acclimatisation and fitness levels in athletes returning to activity.15 ,16  These concerns have prompted several policy developments. In 2003, the NCAA implemented preseason acclimatisation legislation for football.17 ,18  In the same year, NCAA Division I passed a bylaw19  specific to Football Bowl Subdivision and Football Championship Subdivision football that requires any strength and conditioning professional who conducts voluntary off-season weight training or conditioning activities to be certified in first aid and cardiopulmonary resuscitation and to be accompanied by a member of the sports medicine staff who has unchallengeable authority to cancel or modify the workout for health and safety reasons. NCAA Division II passed similar legislation 1 year later.20  In Division I, the unchallengeable authority component of this legislation was extended to all sports other than football in situations when a member of the sports medicine staff is present at a workout. In 2012, NATA released interassociation best practices on the prevention of sudden death in collegiate athletes during strength and conditioning drills.15  As of 2016, all three NCAA divisions have legislation that requires strength and conditioning professionals to have a certification from either a nationally recognised strength and conditioning certification programme21 ,22  or from an accredited strength and conditioning certification programme.23 

However, despite these policy developments, catastrophic injuries and fatalities continue to occur. In recent years, most of the fatalities are from non-traumatic causes. These can be mitigated at the member school with appropriate strategies.

Prevention considerations

Non-traumatic deaths can be mitigated locally through implementation of consensus-based and science-based recommendations. Yet, the number of non-traumatic fatalities are twice those of traumatic fatalities. There have been 99 non-traumatic deaths in collegiate football compared with 51 traumatic deaths since 1960. Just as most of the fatal head injuries and catastrophic cervical spine injuries occurring from 1960 to 1975 can be directly related to the style of play in the sport of football during that time,2426  non-traumatic, exertion-related death is directly related to the conduct and construct of workouts intended to prepare athletes to play sport.5 ,16 ,27 ,28  Whereas spearing is often the mechanism for traumatic catastrophic injury and death in football,25 ,26  intense, sustained exertion that is not sport-specific and does not include appropriate work-to-rest ratios coupled with modifications for individual risk and precautions, is too often the mechanism for exertion-related non-traumatic fatality.5 ,9 ,16 ,2729 

In summary, since 1970, traumatic deaths have undergone a steep and steady decline; non-traumatic deaths, however, have remained steady since 1960. The current era, from 2000 to present, is notable for year-round training for football coupled with the highest incidence of non-traumatic sport-related training deaths in football in recorded history. A major goal of this document is to identify a proper combination of strategies to prevent the condition from arising in the first place; ensurance of optimal medical care delivery by key stakeholders onsite; and transparency and accountability in workouts.

Preventing catastrophic injury and death in collegiate athletes

Best practices for preventing catastrophic injury in collegiate sport are organised into six key areas that are informed by and reflect the 18 consensus foundational statements identified in the online supplementary appendix 1. These recommendations are summarised and distilled into the checklist found in table 1.

Recommendation 1: sportsmanship

The principle of sportsmanship is foundational to NCAA athletics competition and creates a moral and ethical framework within which athletics competition occurs. This framework rejects any intentional effort by athletes to use any part of their body, uniform or protective equipment as a weapon to injure another athlete or themselves.30  This philosophical commitment is further amplified by express statements about the value of sportsmanship in sport playing rules.3133  The avoidance of on-field or on-court behaviours intended to cause injury to another athlete must become part of the cultural foundation from which all subsequent sport safety initiatives arise.

While acknowledging that football, like other contact/collision sports, is an aggressive, rugged contact sport, the rules of football and of all other sports identify a responsibility shared by all involved to conduct themselves according to a shared ethical code.33  This code requires that the head and helmet not be used as a weapon and that unsportsmanlike efforts to deliberately injure an opponent are outside the boundaries of fair and legal play. The act does not need to be purposeful to be considered an infraction.

Given this commitment to sportsmanship, coupled with the considerable safety implications of its violation, the following recommendations regarding deliberate injury to an opponent should be considered in all sports:

  1. A player should be ejected immediately from competition (in addition to a particular penalty) for a first infraction.

  2. Video replay (when available) after the competition can verify missed calls and could lead to suspension from the next competition. Conferences play a crucial role in this process and should commit themselves to this responsibility.

  3. Officials who fail to call such infractions should be educated and/or disciplined appropriately.

  4. In helmeted sports, rules should be further developed to prohibit and penalise the initiation of contact with the head/helmet and should be uniformly enforced.

Recommendation 2: protective equipment

Protective equipment that is used in sport typically must be manufactured and maintained according to performance and safety standards promulgated by standards organisations such as the National Operating Committee on Standards for Athletic Equipment (NOCSAE)34 ,35  and American Society for Testing and Materials International.36  Where sport playing rules required equipment to comply with existing standards, the legality of the equipment is dependent on compliance, certification or both with existing standards. For example, current playing rules in the sport of football require that helmets be manufactured and maintained according to standards established by NOCSAE. These standards have been demonstrated to reduce the occurrence of catastrophic brain injury.37  In some cases, as with the helmet in the sport of football, equipment must be maintained through a reconditioning process. Where this responsibility exists, member institutions must remain vigilant about ensuring necessary maintenance to ensure the continued safety and legality of protective equipment.

The following should be implemented across all sports:

  1. Every member school should establish policy to ensure annual certification, recertification and compliance, as appropriate, with all protective equipment standards.

Recommendation 3: acclimatisation and conditioning

Many non-traumatic deaths take place during the first week of activity of a transition period in training.15  Given this fact, it is imperative to recognise the vulnerability during these periods and to ensure that both proper exercise and heat acclimatisation are implemented.

Table 1

Interassociation Recommendations: Checklist

Interassociation Recommendations: Checklist
Interassociation Recommendations: Checklist

Transition periods hold particular risk, but absent adherence to established standards, best practices and precautions, collegiate athletes are at risk at all points in the offseason regimen. For example, February and July typically are not transition times, yet from 2000 to 2017, they are the deadliest months of winter and summer training in collegiate football.28  Acclimatisation and physiological progression with a basis of exercise science and sport specificity are the cornerstones of safe conditioning and physical activity. It takes approximately 7–10 days for the body to acclimatise to the physiological and environmental stresses placed on it at the start of a conditioning or practice period, especially during periods of warm or hot weather or rapid increase in warm and hot conditions and sudden exposure to altitude.15 ,38 ,39 

Acclimatisation, especially heat acclimatisation, can occur only through repeated exposure to a hot environment40  while progressively increasing the volume and intensity of physical activity.41  Unfortunately, perceived time pressures by coaches coupled with the culture of certain sports that excesses in training make athletes tough, disciplined and accountable contribute to a tendency to overload athletes during transition periods.15 ,42 

A minimum expectation is that all strength and conditioning sessions, regardless of when in the year they occur, should be evidence or consensus based; sport-specific; intentionally administered; appropriately monitored, irrespective of the phase of training and not punitive in nature.

For acclimatisation and conditioning, the following direction should be considered for all sports and by any individual responsible for the planning and/or implementation of training and conditioning sessions, whether that be a strength and conditioning professional or a sport coach:

  1. Training and conditioning sessions should be introduced intentionally, gradually and progressively to encourage proper exercise acclimatisation and to minimise the risk of adverse effects on health. This is especially important during the first 7 days of any new conditioning cycle, which should be considered a transition period. A lack of progression and sport specificity in the volume, intensity, mode and duration of conditioning programmes in transition periods has been noted as a primary factor in non-traumatic fatalities.16  Importantly, in this period of year-round sport, new conditioning cycles can occur several times throughout the year and are not limited to the beginning of a competitive season. During transition periods, athletes should be instructed to avoid additional volunteer sessions of physical activity (eg, 7-on-7 drills, pickup games, drill work). Physical activity schedules during transition periods should be well prescribed, accounting for all sources of physical activity in which an athlete engages.

Examples of transition periods for athletes include, but are not limited to:

  • Individual transitions.

    1. Athletes new to the programme.

    2. Returning after an injury or illness.

    3. Any delayed participation relative to the team schedule.

  • Team transitions.

    • Resumption of training after an academic break (eg, winter, spring, summer breaks).

    • 2.

      Training and conditioning sessions should be exercise-science based and physiologically representative of sport and the performance components. Conditioning programmes should begin with work-to-rest ratio intervals appropriate for the goals of the training session and that allow for proper recovery.

    • 3.

      Collegiate athletes are especially vulnerable to exertional injuries during the first 4 days of transition periods, and the data support that modifications in these periods can greatly decrease risk of catastrophic events.14  During this time, training and conditioning sessions should be appropriately calibrated and include limitations on total volume and intensity of activity. This may be accomplished in several ways. For example, holding only one training and conditioning session per day during the transition period may be effective for limiting the volume of physical activity.

      • Properly training during transition periods should also greatly reduce or eliminate rhabdomyolysis, which is largely preventable. Since 2007, 57 NCAA collegiate athletes have been reported as suffering from exertional rhabdomyolysis in nine team outbreaks representing eight different institutions, with 51 of the afflicted collegiate athletes requiring hospitalisation.43  Novel over exertion, or exertion caused by new activities or at unaccustomed volume or intensity, is the single most common cause of exertional rhabdomyolysis and is characterised as too much, too soon and too fast in a workout regimen.14  Team outbreaks of exertional rhabdomyolysis in NCAA athletes have similarities of irrationally intense workouts designed and conducted by coaches and/or strength and conditioning professionals.43 

      • When phasing in activity during transition periods, athletics staff members should consider the following:

        1. Days/week.

        2. Body part.

        3. Activity/exercise.

        4. Sets/repetitions/distance.

        5. Load (per cent of one-repetition maximum, that is, 1 RM).

        6. Work–rest ratio.

        7. Modifications: position; individual; return from injury; environment.

    • 4.

      All training and conditioning sessions should be documented. In addition, all training and conditioning sessions should:

      • Be approved by a credentialed strength and conditioning professional, or by the head sport coach at institutions that do not employ strength and conditioning professionals.

      • Address exercise volume, intensity, mode and duration.

      • Ensure the location of the training and conditioning session is identified in the plan to accommodate venue-specific emergency action planning.

      • Be reproducible on request and be shared with the primary athletics healthcare providers (team physician and athletic trainer) before the session in which they are to be used.

      • Be modified in response to hazardous environmental conditions, scheduling considerations, etc. The amended workout plan should maintain the above principles.

    • 5.

      A disciplinary system should be developed and applied to strength and conditioning professionals and sport coaches who fail to follow these recommendations. Such penalties could include suspension and/or termination by the member school. Additionally, failure to follow the recommendations could be a reportable offence by member schools to the NCAA.

Recommendation 4: emergency action plan

There is broad agreement that the most effective way to prevent catastrophic fatalities and manage non-fatal catastrophic events is through a sound and well-rehearsed emergency action plan.13 ,15 ,29 ,44 ,45  Venue-specific emergency action plans are a cornerstone of emergency readiness for campus and athletics healthcare providers.38 ,46 

Emergency action plans should be readily available to all members of the athletics and emergency medical system community, located both centrally and at each venue at which athletics activities will occur and should be rehearsed with all relevant sports medicine and coaching staff at least once a year. Equipment necessary to execute the emergency action plan should be available to each venue at which athletics activities will occur. Emergency action plan rehearsal also should be incorporated into new employee orientation.

At a minimum, well-rehearsed and venue-specific emergency action plans should be developed for the following catastrophic events:

  1. Head and neck injury.

  2. Cardiac arrest.

  3. Heal illness and heat stroke.

  4. Exertional rhabdomyolysis.

  5. Exertional collapse associated with sickle cell trait.

  6. Any exertional or non-exertional collapse.

  7. Asthma.

  8. Diabetic emergency.

  9. Mental health emergency.

In addition, well-rehearsed and venue-specific emergency action plans should be consistent with the NCAA Concussion Safety Protocol Checklist.47  This checklist was created in response to NCAA legislation passed by the Division I conferences with autonomy in January 201547  and subsequently by all three divisions. The checklist facilitates the development of a comprehensive and coordinated set of policies to guide institutions in the diagnosis and management of collegiate athlete concussions and in the eventual return to play and return to the classroom by those athletes. Head injury emergency action plans should be created for the following suspected conditions:

  1. Concussion.

  2. Moderate or severe traumatic brain injury.

  3. Cervical spine injuries.

Special considerations:

  1. Cardiac emergencies—research has shown that in sudden cardiac arrest, the probability of survival drops by 7%–10% for every minute of active arrest, whereas the probability of survival is 89% in properly administered cardiopulmonary resuscitation (CPR) and automated external defibrillators (AED).48 ,49  The location of AEDs should be documented and should reflect a strategy that ensures their arrival at the scene of a collapse with target goal of collapse-to-shock in less than 3 min.49  All AEDs should be checked at least monthly to assure they are fully charged.49 

  2. Exertional heat illness emergencies—exertional heatstroke is a medical emergency that is characterised by extreme hyperthermia (>40.0°C/>104°F) and central nervous system dysfunction such as altered behaviour or decreased consciousness.41  To differentiate heatstroke from other acute medical events, primary athletics healthcare providers should be prepared to measure core body temperature using rectal thermometry. Rectal temperature has been demonstrated as the most accurate method for measuring body temperature, whereas other methods such as axillary, tympanic (aural), temporal, oral and skin measurements are not valid or reliable predictors of core temperature.50  During warm weather events, but especially preseason practices of fall season sports, resources (eg, equipment and personnel) should be readily available to ensure that full-body ice water immersion can be conducted in a timely manner. Full body immersion in cold water (1.7°C–15.0°C/35°–59°F) is the most effective immediate treatment of exertional heatstroke, with fatality rates close to zero if the body temperature is brought to less than 40.0°C within 30 min after collapse.41  Full-body cold water immersion should be conducted before patient transport and should be continued until the body has cooled to a temperature below 38.9°C/102°F. During cold water immersion, body temperature should be continuously monitored with rectal thermometry.

Recommendation 5: responsibilities of athletics personnel

Physical activity should never be used for punitive purposes. Exercise as punishment invariably abandons sound physiological principles and elevates risk above any reasonable performance reward.15  As stated in the 2014–2015 NCAA Sports Medicine Handbook, this principle has been reinforced by the NCAA Committee on Competitive Safeguards and Medical Aspects of Sports.51  All athletics personnel, including both sport and strength and conditioning professionals, as well as primary athletics healthcare providers, should intervene when they suspect that physical activity is being used as punishment. Although ‘intent' of punishment may be difficult to establish, punishment workouts use unsound physiological principles, as enumerated in this document.

All training and conditioning sessions should be administered by personnel with demonstrated competency in the safe and effective development and implementation of training and conditioning activities, and with the necessary training to respond to emergency situations arising from those activities.

NCAA bylaws in all three divisions require that strength and conditioning professionals have a strength and conditioning certification from either a nationally accredited23  or nationally recognised,21 ,22  strength and conditioning certification programme. Additional NCAA bylaws in Division I19 ,20  require that strength and conditioning professionals must be accompanied by members of the sports medicine staff when conducting voluntary, offseason conditioning sessions and that in these situations, the sports medicine staff members have unchallengeable authority to cancel or modify workouts for health and safety reasons.

In Division III, where the presence of full-time strength and conditioning professionals may be rare, and where as a result, sport coaches may provide strength and conditioning services to all collegiate athletes, legislation is more nuanced. Any sport coach can conduct an in-season workout without needing a strength and conditioning certification. Only strength and conditioning professionals with nationally recognised certifications can conduct voluntary workouts in the offseason, and then only during the regular academic year and only if the voluntary workouts are being conducted for all collegiate athletes.21  This legislation anticipates a situation where a sport coach is otherwise serving a broader, campus-wide responsibility as strength and conditioning beyond the sport he or she coaches.

The following questions about the strength and conditioning credential should be considered when hiring a strength and conditioning professional:

  1. Is the strength and conditioning credential one that reflects attaining of relevant competencies in the delivery of strength and conditioning services to collegiate athletes and team?

  2. Is the credential conferred by a certification programme/process that is nationally accredited?

  3. What are the requisite educational standards required for certification eligibility, as well as the continuing education requirements required by the certification programme?

  4. Does the certification require CPR and AED certification?

  5. Does the certification require a baccalaureate degree or higher, and is it in a degree field with relevance to the provision of strength and conditioning services?

The current state of credentialing across the strength and conditioning profession makes it difficult to ensure that all strength and conditioning professionals have the requisite competency to safely and effectively conduct conditioning sessions. Many organisations currently offer ‘strength and conditioning' credentials, though there is significant variability in both the content represented by these credentials and the rigour required to attain them. The complete absence of state regulation further complicates this landscape because there is no clearly established strength and conditioning scope of practice, and therefore, there is no authoritative accounting of the knowledge and skill domains required for the safe and effective practice of a strength and conditioning professional. If carefully considered, the five questions above can assist institutions in identifying strength and conditioning credentials reflecting the attainment of minimal competence in provision of strength and conditioning services. Moreover, the US Registry of Exercise Professionals (see usreps.org/Pages/Default.aspx) contains those strength and conditioning professions with certifications from programmes accredited by the National Commission for Certifying Agencies. NCCA accreditation is considered a marker of quality for certification programmes in the health and/or medical domains.

Although documentation of training and certification are important, an additional problem arises through the increasingly close alignment between sport coaches and strength and conditioning professionals, especially in the sport of football. Strength and conditioning professionals are frequently hired by the head football coach and/or subject to their administrative oversight. This alignment is problematic because it contributes to the perception that strength and conditioning professionals are members of the coaching staff rather than independently credentialed strength and conditioning professionals. Such singular alignment and reporting are not consistent with this document. All strength and conditioning professionals should have a reporting line into the sports medicine or sport performance lines of the institution. This includes sport coaches who have responsibility for providing strength and conditioning services across all sport teams.

Recommendation 6: education and training

Beyond strength and conditioning professionals, each institution should adopt requirements for the education and training of athletics personnel, including as a minimum, but not limited to, strength and conditioning professionals, sport coaches and primary athletics healthcare providers. Education should focus on preventing catastrophic injury and sudden death in sport. Such education and training should occur annually. Regular education not only can serve to improve the recognition and response skills of those who may be involved in a catastrophic event but also can contribute to a heightened state of organisational mindfulness that contributes to an environment of emergency readiness. Education and prevention strategies should be customised for the unique learning needs of relevant stakeholders and their roles in the athletic team.

Such training should include the following:

  1. Foundational information regarding emergency action plans.

  2. Environmental monitoring (heat/humidity, lightning).

  3. Head and neck injuries.

  4. Cardiac arrest.

  5. Heat illness and heatstroke.

  6. Exertional rhabdomyolysis.

  7. Exertional collapse associated wiht sickle cell trait.

  8. Any exertional or nonexertional collapse.

  9. Asthma.

  10. Diabetic emergency.

  11. Mental health emergency.

  12. Proper training principles/principles of periodisation.

Additional material is published online only. To view please visit the journal online (http://dx.doi.org/10.1136/bjsports-2019-101090).

The authors thank the participants in the 2016 Second Safety in College Football Summit and the organisations who have endorsed and/or given affirmation of value to this document. Finally, the authors are grateful to the NCAA Committee on Competitive Safeguards and Medical Aspects of Sports; Board of Governors; and the membership for their support in guiding this document to become NCAA Association-wide policy.

All authors substantially contributed to this work. All authors were responsible for the conception and design of the document. JP wrote the first draft of the paper which was then critically revised and approved by all authors. JP and BH are accountable for the work.

None declared.

Not required.

Not commissioned; externally peer reviewed.

This article has been co-published in the British Journal of Sports Medicine and Journal of Athletic Training.

1
Yau
R
,
Kucera
KL
,
Thomas
LC
, et al.
Catastrophic sports injury research: Thirty-fifth annual report fall 1982-Spring 2017
.
Chapel Hill, NC
:
National Center for Catastrophic Sport Injury Research at the University of North Carolina at Chapel Hill
,
2018
.
2
Kucera
KL
,
Fortington
LV
,
Wolff
CS
, et al.
Estimating the International burden of sport-related death: a review of data sources
.
Inj Prev
2019
;
25
:
83
9
.
3
Van Camp
SP
,
Bloor
CM
,
Mueller
FO
, et al.
Nontraumatic sports death in high school and college athletes
.
Med Sci Sports Exerc
1995
;
27
:
641
7
.
4
Kucera
KL
,
Klossner
D
,
Colgate
B
, et al.
Annual survey of football injury research: 1931-2017
.
Chapel Hill, NC
:
National Center for Catastrophic Sport Injury Research at the University of North Carolina at Chapel Hill for the American Footbal Coaches Association, National Collegiate Athletic Association, & National Federal of State High School Associations
,
2018
.
5
Boden
BP
,
Breit
I
,
Beachler
JA
, et al.
Fatalities in high school and College football players
.
Am J Sports Med
2013
;
41
:
1108
16
.
6
Cantu
RC
,
Mueller
FO
.
Brain injury-related fatalities in American football, 1945-1999
.
Neurosurgery
2003
;
52
:
846
53
.
7
Harmon
KG
,
Drezner
JA
,
Klossner
D
, et al.
Sickle cell trait associated with a Rr of death of 37 times in national collegiate athletic association football athletes: a database with 2 million athlete-years as the denominator
.
Br J Sports Med
2012
;
46
:
325
30
.
8
Harris
KM
,
Haas
TS
,
Eichner
ER
, et al.
Sickle cell trait associated with sudden death in competitive athletes
.
Am J Cardiol
2012
;
110
:
1185
8
.
9
National Athletic Trainers' Association
.
Consensus statement: sickle cell trait and the athlete
.
11
Apr
2019]
.
10
Sickle cell solubility test, division I NCAA Bylaw, §17.1.5.1
2010
.
11
Sickle cell solubility test, division II NCAA Bylaw, §17.1.5.1
2012
.
12
Confirmation of sickle cell trait status, division III NCAA Bylaw, §17.1.6.4.1
2013
.
13
Adams
WM
,
Casa
DJ
,
Drezner
JA
.
Sport safety policy changes: saving lives and protecting athletes
.
J Athl Train
2016
;
51
:
358
60
.
14
Eichner
ER
.
“A Stitch in Time” and “If 6 was 9”: Preventing Exertional Sickling Deaths and Probing Team Rhabdomyolysis Outbreaks
.
Curr Sports Med Rep
2016
;
15
:
122
3
.
15
Casa
DJ
,
Anderson
SA
,
Baker
L
, et al.
The inter-association Task force for preventing sudden death in collegiate conditioning sessions: best practices recommendations
.
J Athl Train
2012
;
47
:
477
80
.
16
McGrew
CA
.
NCAA football and conditioning drills
.
Curr Sports Med Rep
2010
;
9
:
185
6
.
17
Five-Day acclimatization period, division I; division II NCAA Bylaw, §17.10.2.4
2003
.
18
Five-Day acclimatization period, division III NCAA Bylaw, §17.10.2.2
2004
.
19
Strength and conditioning coach first aid / CPR certification and authority of sports medicine staff (FBS / FCS), division I NCAA Bylaw, §13.11.3.7.4
2003
.
20
Health and safety oversight, division II NCAA Bylaw, §17.01.2
2004
.
21
Strength and conditioning activities as follows, Division III NCAA Bylaw, §17.02.1.1.1(j)
2011
.
22
Strength and conditioning coach certification, division II NCAA Bylaw, §11.1.7
2016
.
23
Strength and conditioning coach certification, division I NCAA Bylaw, §11.1.5
2014
.
24
Mueller
FO
.
Catastrophic head injuries in high school and collegiate sports
.
J Athl Train
2001
;
36
:
312
5
.
25
Torg
JS
,
Sennett
B
,
Vegso
JJ
, et al.
Axial loading injuries to the middle cervical spine segment
.
Am J Sports Med
1991
;
19
:
6
20
.
26
Torg
JS
,
Vegso
JJ
,
O'Neill
MJ
, et al.
The epidemiologic, pathologic, biomechanical, and cinematographic analysis of football-induced cervical spine trauma
.
Am J Sports Med
1990
;
18
:
50
7
.
27
Anderson
S.
NCAA football off-season training: unanswered Prayers… a Prayer answered
.
J Athl Train
2017
;
52
:
145
8
.
28
Anderson
SA
.
The junction boys syndrome
.
J Strength Cond Res
2012
;
26
:
1179
80
.
29
DeMartini
JK
,
Casa
DJ
.
Who is responsible for preventable deaths during athletic conditioning sessions?
J Strength Cond Res
2011
;
25.
30
The principle of sportsmanship and ethical conduct, NCAA constitution, §2.4
1996
.
31
Andres
K.
2018 and 2019 NCAA Men's and Women's Soccer Rules
.
Indianapolis, IN
:
National Collegiate Athletic Association
,
2018
.
32
Hyland
A.
2018-19 NCAA Men's Basketball Rules
.
Indianapolis, IN
:
National Collegiate Athletic Association
,
2018
.
33
Redding
R.
2017 NCAA football rules and interpretations
.
Indianapolis, IN
:
National Collegiate Athletic Association
,
2018
.
34
National Operating Committee on Standards for Athletic Equipment
.
Standard performance specification for newly manufactured football helmets. in
.
Kansas City, KS
:
NOCSAE
,
2015
.
35
National Operating Committee on Standards for Athletic Equipment
.
Standard performance specification for recertified football helmets
.
Kansas City, KS
:
NOCSAE
,
2015
.
36
ASTM International
.
Sports equipment, playing surfaces and facilities; pedestrian/walkway safety and footwear; amusement rides and devices; snow skiing. Vol 15.07
.
West Conshohocken, PA
:
ASTM International
,
2016
.
37
Levy
ML
,
Ozgur
BM
,
Berry
C
, et al.
Analysis and evolution of head injury in football
.
Neurosurgery
2004
;
55
:
649
55
.
38
Casa
DJ
,
Guskiewicz
KM
,
Anderson
SA
, et al.
National athletic trainers' association position statement: preventing sudden death in sports
.
J Athl Train
2012
;
47
:
96
118
.
39
Garrett
AT
,
Rehrer
NJ
,
Patterson
MJ
.
Induction and decay of short-term heat acclimation in moderately and highly trained athletes
.
Sports Med
2011
;
41
:
757
71
.
40
Cooper
ER
,
Ferrara
MS
,
Casa
DJ
, et al.
Exertional heat illness in American football players: when is the risk greatest?
J Athl Train
2016
;
51
:
593
600
.
41
Casa
DJ
,
DeMartini
JK
,
Bergeron
MF
, et al.
National athletic trainers' association position statement: exertional heat illnesses
.
J Athl Train
2015
;
50
:
986
1000
.
42
Eichner
ER
.
Football team rhabdomyolysis: the pain beats the gain and the coach is to blame
.
Curr Sports Med Rep
2018
;
17
:
142
3
.
43
Eichner
ER
.
Exertional rhabdomyolysis stays in the news
.
Curr Sports Med Rep
2016
;
15
:
378
9
.
44
Drezner
JA
,
Chun
JSDY
,
Harmon
KG
, et al.
Survival trends in the United States following exercise-related sudden cardiac arrest in the youth: 2000-2006
.
Heart Rhythm
2008
;
5
:
794
9
.
45
Drezner
JA
,
Courson
RW
,
Roberts
WO
, et al.
Inter-association Task force recommendations on emergency preparedness and management of sudden cardiac arrest in high school and College athletic programs: a consensus statement
.
J Athl Train
2007
;
42
:
143
58
.
46
Herring
SA
,
Kibler
WB
,
Putukian
M.
Sideline preparedness for the team physician: a consensus statement-2012 update
.
Med Sci Sports Exerc
2012
;
44
:
2442
5
.
47
Concussion safety protocol management
.
11
Apr
2019]
.
48
IOM (Institute of Medicine)
.
Strategies to improve cardiac arrest survival: a time to act
.
Washington D.C
.:
Institute of Medicine
,
2015
.
49
Hainline
B
,
Drezner
JA
,
Baggish
A
, et al.
Interassociation Consensus Statement on Cardiovascular Care of College Student-Athletes
.
J Am Coll Cardiol
2016
;
67
:
2981
95
.
50
Casa
DJ
,
Armstrong
LE
,
Kenny
GP
, et al.
Exertional heat stroke: new concepts regarding cause and care
.
Curr Sports Med Rep
2012
;
11
:
115
23
.
51
Parsons
JT
.
2014-2015 NCAA sports medicine Handbook
.
Indianapolis, IN
:
National Collegiate Athletic Association
,
2014
.