New playground surfacing Online Training on Playground Surrfacing: Putting Theory to Practice 1.1 CEUS

August 22nd, 2020

www.standardscompliance.thinkific.com

Playground Surfacing Technician Course:

Putting Theory to Practice

Statement of Purpose:

Falls in a playground are not the problem, rather it is the sudden stop when a child encounters the surface that results in the injury.  The frequency and severity of injury will generally be determined by the impact attenuating properties of the surface and the height from which they fell.  Although some believe that the orientation of the child when landing on the surface has a bearing on the outcome that is only partially true and then only to a minor extent since irrespective of the child’s body orientation or physical makeup the severity of the injury is totally on the performance of the surface.  With 72-78% of playground injuries around the world being related to falls to the surface failure to specify, purchase, install and maintain surfaces that consider injury outcome is a travesty to all users of the playground.  It is the role of professionals to understand the performance of surfacing in relation to injury outcomes and install a surface that results in injuries that are below the tolerable level.

The Canadian Playground Advisory and the International Playground Safety Institute have partnered to develop this first of its kind online training program on role of playground impact attenuating surfacing in relationship to injury frequency and severity. 10.5 CEUs will be awarded by LA-LES for each registered participant completing the course requirements

Overview

Each program participant must understand the performance standards related to the impact attenuating surfacing and their relationship to injury prevention.  This includes the history of medical studies, various international safety standards, and the development of performance measures such as Gmax, Severity Index (SI), and Head Injury Criteria (HIC) and why they will remain the measures for years to come.  Children want to climb high. They want to challenge themselves and their peers, but with height comes with consequences for greater velocity at the point of impact. How this force at impact is addressed must be addressed at the time the playground equipment and related use zone surfacing are being specified prior to purchase.

Those responsible for the final playground design must have a thorough understanding of the various performance requirement measures and testing procedures from the point of view of injury outcome.  Many times, there is a conflict with the need to provide a “soft” surface for the prevention of injury and a “firm and stable” surface to allow people with diminished ability to use the play space.  The selection of a surfacing type or supplier is further complicated with the need for long-term “functional” longevity. The surfacing life expectancy and compliance can be monitored and confirmed through field testing. Realistic product warranties beyond the typical one year for normal wear and tear is a must. Surfacing purchasing specifications and contract documents need to be performance based. These are all important considerations for the playground owner and designer when considering all the variables that can impact performance of the surfacing, such as; fall height of equipment versus critical height of the surfacing, site preparation, initial cost of installation, life-cycle cost of maintenance, installation and repair requirements, harsh environments, excessive wear, and accessibility for those with mobility limitations is generally a difficult balance for many surfacing systems.

Outcomes:        

The participant will fully understand the history of injury performance, and the degrees of injury severity associated increasing impact forces.  There will be a discussion of the key elements in the writing and requirements for comprehensive specifications and warranties for playground Surfacing that cover the needs of an owner at the time of installation and over the functional life of the playground. The participant will be versed in the performance of field testing and they will understand how to set both drop heights and performance values for impact attenuation, as well as being able to determine compliance with minimum requirements for accessibility. 

Each participant will be provided with a report template that covers the new requirements for surface field testing according to the ASTM F3313 and the new Specified Height Test F3351. Although it is not the focus of the course, the participant will be able to assess their own organization’s tolerance for risk for liability in the playground design, specification, installation and ownership process.

Certificates of Completion:

Upon registration and completion of the course, the participant will receive a certificate that they attended and participated in this training.  It is important to understand that this is not a substitute for the full day in depth training required to actually perform field drop testing according to ASTM F1292 and F3313, but this is a good pre-requisite for the more comprehensive course.

Intended Audience:

The course is intended for playground designers and managers including Architects, Landscape Architects, playground surfacing manufacturers and sales associates, playground safety inspectors and anyone else who has input into the overall playground design, purchasing and specifications. Each module includes a statement of purpose followed by various objectives that will be covered during the presentation. There is a list of “key words” that the participant must be able to understand if they are to be able to speak and understand the language of international playground safety. These term and concepts will be discussed throughout the presentation as participants expand their knowledge and begin to understand the role their individual decisions can have on the reduction of fall related injuries and extending the life expectancy and overall compliance of the surfacing to international performance recommendations. Go to www.standardscompliance.thinkific.com for more information

1989 Wheaton Park District IL Comprehensive Playground Safety and Inspection Program

July 20th, 2020

I already posted an article about my upcomming 6th Edition Playground Safety Is No Accident and I took out my only copy of my old playground safety manual for the Wheaton Park District. I was reading my old manual and it was a trip down memory lane, I decided to get it scanned and post it to my Web site for all to view. It started with State of Massachusetts Comprehensive Injury Prevention Program back in the 1980s when their focus was on playground injuries. Great idea back then, unfortunately they ran out of money before finishing their grant program. Their misfortune was our good fortune and we finished our program we started back in 1986. Attached is a copy of our program back then and it has been a model for many programs that came afterwards.

New Surfacing Putting Theory to Practice Online Course will be a available soon for all Landscape Architects

July 20th, 2020

Playground Impact Attenuating Surfacing Course

Putting Theory into Practice

Statement of Purpose:

Falls in a playground are not the problem, rather it is the sudden stop when a child encounters the surface that results in the injury.  The frequency and severity of injury will generally be determined by the impact attenuating properties of the surface and the height from which they fell.  Although some believe that the orientation of the child when landing on the surface has a bearing on the outcome that is only partially true and then only to a minor extent since irrespective of the child’s body orientation or physical makeup the severity of the injury is totally on the performance of the surface.  With 72-78% of playground injuries around the world being related to falls to the surface failure to specify, purchase, install and maintain surfaces that consider injury outcome is a travesty to all users of the playground.  It is the role of professionals to understand the performance of surfacing in relation to injury outcomes and install a surface that results in injuries that are below the tolerable level.

The Canadian Playground Advisory and the International Playground Safety Institute have partnered to develop this first of its kind two-day comprehensive education and training program on role of playground impact attenuating surfacing in relationship to injury frequency and severity.

Overview:

The playground practitioner and stakeholder must understand the performance standards related to the impact attenuating surfacing and their relationship to injury prevention.  This includes the history of medical studies, various international safety standards, and the development of performance measures such as Gmax, Severity Index (SI), and Head Injury Criteria (HIC) and why they will remain the measures for the coming years.  Children want to climb high. They want to challenge themselves and their peers, but with height comes with consequences for greater velocity at the point of impact. How this force at impact is addressed must be addressed at the time the playground equipment and related use zone surfacing are being specified prior to purchase. Those responsible for the final playground design must have a thorough understanding of the various performance requirement measures and testing procedures from the point of view of injury outcome.  Many times, there is a conflict with the need to provide a “soft” surface for the prevention of injury and a “firm and stable” surface to allow people with diminished ability to use the play space.  The selection of a surfacing type or supplier is further complicated with the need for long-term “functional” longevity. The surfacing life expectancy and compliance can be monitored and confirmed through field testing. Realistic product warranties beyond the typical one year for normal wear and tear is a must. Surfacing purchasing specifications and contract documents need to be performance based. These are all important considerations for the playground owner and designer when considering all the variables that can impact performance of the surfacing, such as; fall height of equipment versus critical height of the surfacing, site preparation, initial cost of installation, life-cycle cost of maintenance, installation and repair requirements, harsh environments, excessive wear, and accessibility for those with mobility limitations is generally a difficult balance for many surfacing systems.

Outcomes:        

The participant will fully understand the history of injury performance, and the degrees of injury severity associated increasing impact forces.  There will be a discussion of the key elements in the writing and requirements for comprehensive specifications and warranties for playground surfacing that cover the needs of an owner at the time of installation and over the following 2 to 12 years of the installation, remembering that the playground surface is an asset with high replacement cost consequences.  The playground practitioner will be versed in the performance of field testing and they will understand how to set both drop heights and performance values for impact attenuation, as well as being able to set measurements for accessibility.  Each participant will be provided with a report template that covers the new requirements for surface field testing according to the ASTM F3313 and the new Specified Height Test F3351. Although it is not the focus of the course, the participant will be able to assess their own organization’s tolerance for risk for liability in the playground design, specification, installation and ownership process.

Certificates of Completion:

Upon completion of the course, the participant will receive a certificate that they attended and participated in this training.  It is important to understand that this is not a substitute for the full day in depth training required to actually perform field testing to the requirements of ASTM F1292 and F3313, but this is a good pre-requisite for the more comprehensive course.

Intended Audience:

The course is intended for playground designers and managers including; Architects, Landscape Architects, playground surfacing manufacturers and sales associates, playground safety inspectors and anyone else who has input into the overall playground design, purchasing and specifications.

Course Content Outline

The following is a comprehensive outline of the course modules. Each module include a statement of purpose followed by various objectives that will be covered during the presentation. There is a list of “key words” that the participant must be able to understand if they are to be able to speak and understand the language of international playground safety. These term and concepts will be discussed throughout the presentation as participants expand their knowledge and begin to understand the role their individual decisions can have on the reduction of fall related injuries and extending the life expectancy and overall compliance of the surfacing to international performance recommendations.

Part 1

INTRODUCTION, HISTORICAL PERSPECTIVE, AND PUBLIC PLAYGROUND INJURY STATISTICS

 

KEY WORDS

American Society for Testing and Materials International [ASTM]

Americans with Disabilities Act [ADA]

  • 2010 ADA Standards for Accessible Design

Canadian Playground Advisory Inc. (CPA)

Entanglement

Entrapment

Falls

Impact

International Play Equipment Manufacturers Association [IPEMA]

International Playground Contractors Association [NPCAI]

International Playground Safety Institute, LLC (IPSI)

National Electronic Injury Surveillance System [NEISS]

National Recreation and Park Association [NRPA]

Pre-School and School Age Users                                    

U.S. Consumer Product Safety Commission [CPSC]

Certified Playground Safety Inspector [CPSI]

This unit contains information about the establishment of the NRPA and other significant national and international players in the playground safety movement, playground safety and accessibility standards and guidelines; an historical perspective of play, how and why injuries occur on public playgrounds, functions of the play environment, and the basis for hazard identification. After completing this unit, you should be able to…

  1. Understand and discuss objectives of the Surfacing course.
  2. Identify the major organization associated with public playground safety.
  3. Identify the relevant ASTM standards and guidelines.
  4. Understand the application the 2010 ADA Standards for Accessible Design.
  5. Distinguish differences between a risk and a hazard.
  6. Identify the major causes of playground injuries and death.
  7. Identify and discuss the significance of anthropometric measurements as they relate to playground user’s age.

Part 2

Overview of Playground Safety Standards, Terms and Definitions related to Surfacing Injury Thresholds

KEY WORDS

Acceptable Injury threshold                             Hazard

Harm                                                                   Hazard Analysis

Risky Play                                                          Hazard Identification                                             Reasonably Foreseeable Use                          Safe

Safety                                                                  Hazardous Situation   

Risk                                                                     Tolerable Risk      

Residual Risk                                                     Risk Reduction Measure

Risk Analysis                                                     Risk Evaluation          

Risk Assessment                                               Serious Injury

Debilitating Injury                                              Life-threatening Injury

Intended Use                                                      ISO TR20183                

US CPSC                                                            TBI

US CDC                                                               Standard Scope

ASTM F1487 (USA)                                            SS457-07 (Singapore) structures

SS495 (Singapore) surfacing                            CPSC doc 325 (USA) comprehensive

CSA Z614 (Canada) comprehensive                 En1176 (Europe) structures

AS 4685 (Australia) structures                         EN1177 (Europe) surfacing

AS 4422 (Australia) surfacing

The purpose of this unit is to give the necessary information to understand injury thresholds, injury severity and how they are dealt with in standards around the world.  After completion of this section you should be able to;

  1. Understand how children place themselves in harm’s way.
  2. What behavior lead to Risky Play?
  3. Know the types of injuries sustained in a playground.
  4. Know the international terms and definitions related to injury prevention.
  5. Identify the scopes of various playground standards around the world.
  6. Understand the injury severity our standards attempt to reduce or eliminate.
  7. Understanding that standards set a very low bar on tolerable injuries
  8. Understand the formula for all injury frequency and severity.
  9. Understand the purpose of a Risk Assessment.
  10.  Identify strategies are currently available to reduce injury frequency and severity.
  11. Understand the relationship between impact and velocity to severity of injury.

Part 3

IMPACT ATTENUATION HISTORY, INJURY THRESHOLDS, INJURY PREVENTION CONCEPTS AND STANDARDS

KEY WORDS

Col. John Stapp                                                 Sub-human primate

Cadaver                                                              Gmax

Gmax Threshold                                                AIS curves and g values                      Wayne State Tolerance Curve                          Severity Index (SI)                         Head Injury Criteria (HIC)                                   Abbreviated Injury Scale (AIS)       AIS curves and HIC values                                Impact velocity                             Critical Height                                                      Fall Height                                       Drop Height

The purpose of this unit is to give the necessary information to understand the history of measuring impact values and factors that relate to injury.  A consideration of fall heights and the principles of impact attenuation.  After completion of this section you should be able to;

  1. Understand how today’s impact values have been determined.
  2. Understand the relationship between Impact and Injury Severity;
  3. Know the types of injuries and their severity related to impact values.
  4. Understand the definitions of g, Severity Index and Head Injury Criteria.
  5. Identify the various issues related to fall height and reasonable foreseeable use.
  6. Understanding that standards set a very low bar on impact values
  7. Understand the relationship between Critical Height, Fall Height and Drop Height.
  8. Understand why does Rotational Kinematics impact Risk of Concussion.
  9. Understand how Gmax and HIC relate to Head Injury.
  10. Understand how Fall Height relates to Velocity.
  11. Understand how including duration effects Injury Severity.
  12. Understand how to interpret Injury Risk Curves in relationship to HIC Values.
  13. Understand how Abbreviated Injury Scale (AIS) relates to Playground Injuries.

Part 4

PLAYGROUND PROTECTIVE SURFACING MINIMUM PERFORMANCE THRESHOLDS, EQUIPMENT FALL HEIGHTS AND USE ZONES

KEY WORDS

Accessible Surfaces                                                    Fall Height  

Accessible Route of Travel                                         Firm, Stable, Slip Resistant

ADA 2010 Standard for Accessible Design            Functionally Linked Play           

Clearance Zone                                                             G-Max

Combination Swings                                                   High Traffic Areas

Composite Play Structure                                           HIC (Head Injury Criteria)

Critical Height                                                               Impact Attenuation

Composite Surfacing                                                   Loose-Fill Surfacing

Containment Border                                                    Multi-Axis Swing (Rotating)

Critical Height                                                               Overlapping Use Zones

Engineered Wood Fiber (EWF)                                  Resilient Surfacing

Surface System                                                            Single Axis Swing (to-fro)

Unitary Surfacing                                                         Poured-In-Place (PIP)

Use Zone

The purpose of this unit is to give you the necessary information to enable you to select, maintain and inspect resilient surfacing materials to assure adequate protection for users. After completion of the section you should be able to…

1.    Understand impact attenuation, and the need for impact attenuating surfacing within the use zone.

2.    Understand critical height as it relates to surfacing materials.

3.    Discuss the G-max and HIC thresholds relating to the impact attenuation of various   surfacing  materials.

4.    Understand fall height as it relates to play equipment.

5.    Understand the vital relationship between critical height and fall height.

6.     Identify and distinguish differences between loose-fill, unitary, and composite            surfaces.

  • Understand the concept of use zones under and around play equipment

8.     Identify where use zones can be overlapped

9.     Identify where overlapping of use zones is not permitted

10.   Identify requirements for a playground accessible route of travel for children with disabilities

11.   Understand the concept of approach, enter, and use as it relates to accessibility

12.   Understand functionally linked play and its relationship to use zones

Part 5

PLAYGROUND PROTECTIVE SURFACING TYPES, CHARACTERISTICS, ADVANTAGES AND

DISADVANTAGES

KEY WORDS

Accessible Surfaces                              Loose-Fill Surfacing

Critical Height                                               Pea Gravel

Composite Surfacing                             Poured-In-Place Unitary Surfacing (F2749)

(Combination Surfacing System)        Rubber Mulch (Shredded Rubber) (F3012)

Containment Border                              Sand Types

Engineered Wood Fiber (F2075)           Surface System

Fall Height                                               Wood Mulch

High Traffic Areas

Impact Attenuation

The purpose of this unit is to give you the necessary information to enable you to select, inspect, maintain, and repair loose-fill and unitary resilient surfacing materials to assure adequate protection for users. After completion of the section you should be able to…

  1. Identify the different types of playground impact attenuating surfaces available today.
  • Know the advantages and disadvantages of each type of impact attenuating surface
  • Know the different types of user, material and environmental impacts on different surfaces.
  • Know what impacts an impact attenuating surface’s functional life expectancy.
  • Understand the importance of proper installation, inspection and maintenance to assure compliance to playground safety standards.
  • Understand some of the issues effecting the performance and long-term maintenance issues with various surfaces.
  • What impact attenuating surface types best meet accessibility needs of those with mobility challenges.

Part 6

PLAYGROUND PROTECTIVE SURFACING MINIMUM DROP TESTING AND REPORTING REQUIREMENTS

KEY WORDS
Accessible Surfaces

Critical Height

Drop Height

Fall Height

G-Max

HIC (Head Injury Criteria)

Overlapping Use Zones

Reference Test Pad

Specified Height Test

Surface System

Triaxial Accelerometer

Unitary Surfacing

Use Zone
The purpose of this unit is to give you the necessary information to enable you to understand what is involved in conducting laboratory, field and specified playground surfacing impact attenuation drop tests to help determine current and future compliance to the minimum requirements of ASTM F1292 and ASTM F1487 Standards. After completion of the section you should be able to…

1.    Understand impact attenuation, and its purpose in surfacing within the use zone.

2.    Understand critical height as it relates to fall or drop height during surfacing material compliance testing.

3.    Understand differences between ASTM F1292, F3313, F3351, En1177 Standards

4.    Better understand the vital relationship between critical height and fall height.

5.    Be able to identify and distinguish the advantages and disadvantages between loose-fill, unitary, and composite materials.

  • Understand the concept of identifying most adverse conditions in use zones under and around play equipment where drop testing should occur.

7.    Understand each different “surface type” must be tested whenever more than one surface material is used within the equipment use zone.

8.    Understand the information that must be incorporated into reports for a Lab. Critical Height Test vs. Field Test vs. Lab. Specified Impact Height Test.

9.    Better understand how Specified Impact Height test results, lower than minimum F1292 impact thresholds, or higher owner specified post installation drop height can impact surfacing system life expectancy and standard compliance.

Part 7

PUTTING IT ALL TOGETHER:                                          BEST PRACTICES FOR BARRIER FREE DESIGN AND SURFACING ACCESSIBILITY COMPLIANCE

KEY WORDS

Changes in Level                                                          Cross Slope

Rotational Penetrometer                                             Running Slope

Vertical Clearance                                                        Vertical Rise

Carpet pile height

This unit presents a brief overview of information presented in the previous 6 Parts of the program. Part 7 will put the participant in a position to begin to make well informed decisions about what surfacing types would be best for their specific situation. These decisions will take into account all aspects of selection process to selecting the right impact attenuating surface taking into account numerous variables   After completing this unit, you should be able to…

  1. Understand the basic requirements of barrier free design of accessible routes based upon best practices of the 2010 ADA Standards for Accessible Design.
  1. Understand the performance and physical definitions for various barrier free design requirements including; clear width of the route, allowable changes in surface grade, (maximum allowable running slope, cross slope, vertical rise in any surface or transition, max. opening or gap within the accessible route, minimum overhead clearance over width of the route and how much and where clear space and parking space is required  adjacent to equipment for wheelchair access.
  1. Understand what makes a surface minimally accessible.
  1. Understand how to determine whether the work required to pass over an IAS system exceeds the minimum allowed by ASTM F1951 test method.
  1. Understand how a Rotational Penetrometer field test instrument works in the field to measure compliance with the firmness and stability requirements of an accessible route with the ASTM F1951 Laboratory Test.

Part 8

PUTTING IT ALL TOGETHER: BEST PRACTICES

 

KEY WORDS

Abbreviated Injury Scale (AIS)

Functional Longevity

Hazard ID and Risk/Benefit Assessment

Injury Thresholds

Intended Use

©ISO TR20183:2015

Polyurethane Binder (Aliphatic vs Aromatic)

Reasonably Foreseeable Use/Misuse

Rotational Penetrometer

ASTM F2479

This unit presents a brief overview of information presented in the previous 7 Parts of the program. Part 8 will put the participant in a position to begin to make well informed decisions about what surfacing types would be best for their specific situation. These decisions will consider all aspects of selection process to selecting the right impact attenuating surface taking into account numerous variables   After completing this unit, you should be able to…

  1. Be able to start to put all objectives of the entire course into perspective when making management decisions on selecting the appropriate playground IAS System.
  2. Be able to make management decisions to reduce the frequency and severity of all injury
  3. Better understand the many IAS variables and their relationship to reducing the severity and frequency of fall related injuries.
  4. Introducing Hazard Identification and Risk/Benefit Assessment Process.
  5. Understanding the factors effecting Functional Longevity and Long-Term Compliance.
  6. Knowing how to specify long-term compliance.

What is new at IPSI, 6th Edition Playground Safety IS No Accident

July 20th, 2020

On behalf of the tens of thousands of playground owner/operators who have and will continue to use the contents of Playground Safety Is No Accident (PSINA) as a guide for training staff to inspect and maintain safer playgrounds, we are pleased to announce the new 6th Edition. It is almost a decade since this resource was last revised and much has transpired since the printing of the 5th Edition back in 2011.

Since 2011 there have been two new releases of the ASTM F1487 Standard and many revisions to the various impact attenuating surfacing standards under the jurisdiction of F08.63 Subcommittee. Likewise, other international playground standards from around the world have also been revised. The manufacture of playground equipment and various impact attenuating surfacing systems have become more of an international marketplace. Many play equipment manufacturers have expanded their supply chains to other parts of the world as new manufacturing techniques and new materials have become more readily available. This expansion has brought about more creative designs that focus more on play value and risk taking rather than on safety being the first and foremost objective. Many international companies have entered into the public playground equipment manufacturing world in hopes to secure a segment of the growing North American and world markets for both play equipment and protective surfacing. There are still several differences in the Asian versus European versus North American Playground Safety Standards. Standards writing organizations in North America such as ASTM and CSA have focused on many of these market driven changes. We have also recognized the need to apply a more hazard-based risk assessment approach to our performance standards development brought about by the inability of standards writing organizations to keep pace with all the new industry developments. We have found that we can no longer rely on the prescriptive performance standards writing approach for each and every iteration for every conceivable variation of our traditional playground equipment types. We have learned a great deal about our differences within each other’s national and international standards. While international standards are not likely to be harmonized any time soon, we can all agree that we should at least be speaking the same language related to our playground safety scoping statements and common performance requirements.

My involvement in the international community’s discussion on harmonization has provided useful and insightful information for improving and advancing our inspection and maintenance practices. This information will assist playground safety inspectors make playspaces safer by effectively and efficiently addressing identified deficiencies in the playground environment. We will never eliminate all injuries and deaths on playgrounds, but we can surely focus on eliminating and/or mitigating those things that contribute to the frequency and severity of all serious playground related injuries.

In response to the global playground safety movement, the 6th Edition includes an expanded glossary of terms to clarify and harmonize the language used by playground safety standards writing organizations. I refer to this international language as, “Playgroundese.”

This new edition includes upgraded inspection forms and worksheets with expanded explanations on how to use each form. An important change is the completely revised “Post Installation Compliance Inspection and Assessment” process and form. This form was formally referred to as the “Playground Safety Compliance Audit.” While the scope or purpose of the various types of playground safety inspection forms remain somewhat the same, there have been many revisions based on the redefining of some of the more basic equipment types as we move away from the prescriptive approach to a more hazard/risk assessment approach of performance standards writing. The content has been modified to reflect what has been occurring around the world with regards to industry performance standards and this includes our most recent efforts to harmonize terminology and their associated definitions related to playground design, manufacture, assembly, installation, inspection, maintenance and the overall management of these public facilities for the benefit of all people.  

Today’s playground safety needs have become more complex and inspectors require more information and tools to perform a more effective and efficient job. Over the years, many Certified Playground Safety Inspector’s (CPSI’s) have taken time to write and express their needs for additional resources. This new version includes many of these suggestions. There are  a few personal testimonials from people who have taken the time to put into their own words how previous editions of this book have provided the information and knowledge necessary to develop, implement, and improve a playground safety inspection and maintenance program.

As previously stated, one of the largest undertakings in this revision was the total rewrite of the “Playground Safety Compliance Audit Form.” The revised form reflects the most current recommendations found within ASTM F1487-20. This new Audit form is now referred to as the “Playground Safety Compliance Inspection and Assessment Form.” Its primary purpose continues to identify what is and is not in compliance with the best practices (Standards and Guidelines), Changes in the form and process will aid the user to focus more on the importance of each identified shortcoming to determine a priority for corrective action. This prioritizing or ranking in order of importance what actions are required and when they should occur are still based on the probability of a serious injury occurring because of frequent exposure to the non-compliant condition during normal use. There are many different risk assessment tools out there that an inspector can use during this process. This 6th Edition provides some additional materials to help the inspector establish their own assessment tool or process.

Most everyone agrees ASTM Standards are voluntary unless codified by some regulatory authority with jurisdiction over the owner/operator. However, these standards, along with the recommendations found in the current 2010 United States Consumer Product Safety Commission’s Handbook for Pubic Playground Safety provides everyone responsible for the safety of playground users a reasonably safe harbor for their defense should a serious injury occur. The new audit form, as with all other audit forms before, includes the new citation numbers relative to either the CPSC or ASTM document. These citations provide a reference to assist the user in preparing formal reports. They also provide a quick reference guide for less experienced inspectors who may need to refresh their interpretation of specific issues that may arise during the inspection process.

In September of 2010, the United States Department of Justice 2010 ADA Standard for Accessible Design (DOJ 2010 Standard) became law. While no one can be guarantee absolute compliance to this law, the 6th Edition includes a new section to assess compliance to the barrier free accessibility minimum requirements up to, into, and through the playground. This form is also provided as part of the comprehensive post installation “Playground Safety Compliance Inspection and Assessment.” This form and the process can be conducted outside of the post installation compliance inspection process as a stand-alone accessibility assessment process for those who have yet to complete a transition play for assessing every playground for compliance with the accessibility and barrier free requirements based on the enforceable minimum requirements of the DOJ 2010 Standard for Accessible Design. This assessment process does not attempt to qualify or guarantee a playground is ADA compliant because only the Department of Justice is the only authority for that final determination. There are many new additions under types of playground equipment that follow the new ASTM Standard.

The PSINA Book also includes a “Playground Safety Compliance Inspection and Assessment Short Form.” In 2002 with the 3rd Edition of PSINA there was a need for a revised “Audit Form.” Between 1995 and 2002 there were many changes to the ASTM F1487 Standard. Inspectors were looking for a current checklist that was up to date with changes in both ASTM and CPSC Handbook. While there was not much of a need to revise the remainder of the book the Audit Form was in definite need of revision. Antonio Malkusak now of Abundant Playscapes, previously worked as a landscape architect for the Wheaton Park District. Wheaton was a member of the Park District Risk Management Agency (PDRMA) who also requested an updated form for their member agencies. I was too busy at the time to undertake this project, so Tony volunteered to take this on which ultimately lead to the 2002 3rd Edition. Part of Tony’s work for PDRMA was to create what was referred to as an “Audit Short Form” which was a compilation of all the changes that had occurred within the ASTM Standards and CPSC Handbook since the last printing of the book. This provided an option for playground operators who had previously conducted a comprehensive post installation compliance inspection just before 1997. Using this new “Short Form” they could review all their playgrounds and focus on just the changes in performance requirements assuming that current inspections, maintenance, and repairs kept the playground in substantial compliance with those standards and guidelines in effect at the time the original compliance inspection was completed. There is another new short form to assist those who may not have done another comprehensive compliance inspection and assessment since the 4th Edition of PSINA in 2009 which addressed the most recent changes to ASTM F1487-07. This new short form will address changes in the 2010 CPSC Handbook for 2-12 playgrounds and the ASTM F1487 Standard versions from 2011, 2017, and 2020. There have been many changes to the content and layout of the new post installation compliance audit process so it might behoove all operators to complete the entire process from the very beginning but I will leave that up to you to decide. I have placed more emphasis on the assessment process for all identified non-compliant conditions including all the minimum accessibility and barrier free requirements. There now are more ASTM F1487 requirements for additional information that the owner needs to gather to verify in writing the playground equipment and the impact attenuating surfacing system was installed according to the manufacturer’s installation instructions.  While gathering this information is not necessarily the responsibility of the inspector this information should still be available for review by the inspector. This written verification should any special requirements as provided by the manufacturer for installation, inspection, maintenance, repairs, and performance are being followed and are part of the playground site history file. In addition, if inspectors are not required to perform surfacing compliance drop testing during their inspection, they should include a disclaimer to that effect in their contract or final report. Without written verification of surfacing performance compliance the job as a playground safety compliance inspector is incomplete. Surfacing performance is directly related to a playground’s overall safety compliance ranking and surfacing compliance verification to minimum requirements is directly related to the mechanism of injury outcome for both frequency and severity.  

PSINA 6th Edition includes all the inspection forms for each type along with other worksheets in an electronic format. The entire book and interactive adobe formatted forms can also be purchased separately in an electronic format. The electronic format will again include a PDF of the DOJ 2010) Standard, revised “Maintenance Needs Assessment Checklist” covering those inspection items that need to be assessed as part of any more comprehensive preventive inspection and maintenance process. This process would typically include the Low Frequency Inspection which is now being referred to as the “Operational Inspection.”  The “Maintenance Needs Assessment Checklist” will assist the inspector in developing their own customized inspection form for each individual playground location. This type of inspection covers the general playground environment for items such as site amenities, landscaping, walkways, signs and general impact attenuating surfacing requirements prior to moving into those items related to specific types of play equipment. This checklist will assist a novice inspector in conducting the more detailed operational inspection without having to memorize every item that may need to be inspected. It is highly recommended; however, the inspector creates a customized operational inspection form that also includes all the specific maintenance and repair recommendations of the manufacturer.

There is another type of inspection currently recommended in the European (EN1176), Australian (AS4685), Canadian (CSA Z614) standards. The Japanese (JPFA-SP-S) inspections has a somewhat similar types of inspections except for the frequency of each. That inspection type is referred to as the “Annual Main Inspection.” This type of inspection is performed annually and often by a third-party inspector. It is similar in scope to the “Operational Inspection” but includes a total site risk assessment. This same process can be used to develop and conduct the “Annual Main Inspection.” This type of inspection is somewhere between the operational less frequent safety inspection and the post installation compliance inspection. This inspection often includes surfacing compliance verification and a risk assessment analysis of the entire playspace on an annual basis.

Regardless of which of these international standards you might look to for guidance on installation, inspection and maintenance the most typical terminology used to describe the various types of safety inspections are “Routine Visual”, “Operational”, “Annual Main,” and “Post Installation.” “Routine Visual Inspection” is like what we traditionally refer to as “High Frequency Inspection.” They are done on a much more frequent basis even daily. The “Operational Inspection” is similar to the “Low Frequency Inspection” and done on a less frequent monthly or quarterly basis focusing on preventive and manufacturer recommended maintenance tasks. These include those routine custodial tasks that are also being performed during the “Routine Visual Inspection.”  

The International Playground Safety Institute, LLC recommends first time Certified Playground Safety Inspector (CPSI) Course participants purchase the Playground Safety Is No Accident, 6th Edition book before using the electronic inspection forms and worksheets. This is especially true for those individuals new to the playground safety inspection and risk management processes discussed in the CPSI Program. The book includes background information and detailed instructions on how to use the forms. It also includes new staff training materials to assist those with less knowledge, skill, and experience related to the use of these forms. This book is one of the recommended readings for anyone preparing to take the CPSI Certification Exam without first participating in the actual CPSI Course.

The contents of Playground Safety Is No Accident, 6th Edition provide practical information concerning various components of a comprehensive playground safety and inspection program. It has evolved from what was the Wheaton Park District’s Comprehensive Public Playground Safety Program I established back in 1989. The origins of the very first comprehensive compliance inspection or audit came from the State of Massachusetts Department of Public Health, Statewide Comprehensive Injury Prevention Program (SCIPP) Playground Safety Checklist. The 1st Edition which was widely circulated around the country was jointly published in 1992. It became part of the NRPA CPSI course materials and was distributed to all NRPA CPSI Candidates starting in the mid 1990’s. The 2nd Edition was jointly published by the NRPA, National Playground Safety Institute (NPSI), Park District Risk Management Agency (PDRMA), and its authors in 1998. The 3rd Edition was published by same way in 2002. The 4th Edition was published by the International Playground Safety Institute, LLC and its authors in 2009 as was the 5th Edition in 2011. This 6th Edition, as with all other preceding versions, is sold with the understanding that neither the IPSI, LLC, the publisher, author, contributing writers nor the agencies or organizations they may represent are rendering legal advice or other professional service. Both the law and professional standards and guidelines change regularly, and may vary from state to state and from one locality to another. You are advised to consult with a competent attorney in your state if you are in need of specific legal advice concerning any of the subjects addressed in this book.

Playground Safety Inspection Forms and Worksheets including the sample “Playground Safety Compliance Inspection”  and all other Inspection Forms are intended for voluntary use by anyone who has purchased a copy of Playground Safety Is No Accident to document playground equipment conditions at the time of inspection. Effort has been made to ensure the appropriateness of the forms in relation to best practices for inspecting playground equipment. However, Standards and Guidelines change from time to time and the final determination of the appropriate inspection practices and safety of playground equipment must be determined on a case-by-case basis. In addition, all manufacturer requirements must be strictly followed. Participants of the Certified Playground Safety Inspection Course who have attained CPSI status should, with practice and continued study, become skilled in applying their knowledge in conducting accurate and complete playground safety assessments according to their own frequency as determined by internal policy and procedures.  NRPA and IPSI, LLC and the book contributors do not endorse or enforce use of these forms. No certification or “seal of approval” is granted or may be inferred by the IPSI, LLC the authors, its officers, agents, or employees.

That being said, the materials contained in this new edition of Playground Safety Is No Accident are as current as the information available in the ASTM F1487-20 Standard, the November 2010 revision of the U. S. CPSC Public Playground Safety Handbook, and the Department of Justice 2010 Standard for Accessible Design.

For more information on how to acquire either the book with electronic versions of the forms and worksheets just go to;  www.internationalplaygroundsafetyinstitute.com or www.nrpa.org.

December 7, 2017 Meeting Report from November 22 & 23, 2017 Bilateral Americas Conference for ISO TC83/WG8 Playgrounds Opportunities toward Harmonization of Standards in Playgrounds

January 14th, 2018

Bilateral Americas Conference for ISO TC83/WG8 Playgrounds
Opportunities toward Harmonization of Standards in Playgrounds
Meeting Report

Opening Remarks
The meeting began with the introduction of the attendees including those on the telephone and Webex followed by an introduction by Rolf Huber to the discussion for the next two days. The list of attendees is attached. The discussion included the history of the proposal by Germany to produce an ISO playground standard and the resolution of TC83 to establish a Working Group (WG) to investigate the need for a global ISO playground standard, within a provisional work item. We shared the conversation that this will be a multi-year effort, providing the opportunity to review the original need for playground injury prevention standards, a discussion on whether the current standards have met the original goals and what might be the options for harmonization. We further explained there is not a mandate to write an international standard, but to give a sincere effort to investigate what can be harmonized potentially to an ISO standard and what might remain in the national prevue.

Rolf Huber brought the gathering up to date on the discussions that took place in Berlin at the first meeting of WG8. That meeting agreed that there shall be the prevention of serious harm within the context of provision of challenging playground equipment and playspaces. At this meeting there was a two pronged approach, the first being proposed by the German delegation to compare existing, En1176, ASTM F1487, CSA Z614, Australia, Japan and others, while the second is setting the priorities for the injury prevention that is to be provided in Standards. These are prevention of injuries related to death with the need to prevent serious injury such as entrapments and entanglements, fall prevention and impact attenuation of surfacing, and sharp and rough edges. The strategies to achieve these include, but not limited to improved inspection, maintenance and impact attenuating surfacing.

Ken Kutska provided an in-depth history of the need for injury prevention in playgrounds in the United States. The highlights of the presentation are that for the prevention of injuries the main causes were the design and construction of play equipment, falls to the surface, inspection and maintenance and reasonable foreseeable use. The development and implementation of standards around the world went a long way to resolve the design and structural issues related to injury prevention. What remains are issues with impact from falls, maintenance and inspections.

Ken went through the history of the development of standards, starting in 1974 to the present day chronicling the CSPC and ASTM process and related issues such as the American with Disabilities Act (ADA). Key to his presentation was that “not every child should be able to do 100% of the play events on any given day. Child’s ability to experience failure in a reasonably safe environment is very important to their development.” This was coupled with the new initiative in ASTM F1487 to have designers document a hazard identification and risk assessment under the relatively new addition listed in section 1.6.1.

Vic Hergott provided an overview of the development of the CSA Z614 during the 1980’s and publishing of a Guideline initially in 1990. This led to an awareness program he presented for many years “It’s Time to Stop Playing Around” to raise the issues of playground injuries and point out the serious need for injury prevention. This program eventually also became a video that went a long way to raise the awareness of issues in the playground. The 1990’s brought positive change moving to a more prescriptive “standard”, but he wonders if being prescriptive has limited creativity and opened the door to more litigation. He expressed a concern that there is a problem with inactivity, obesity and other negative factors associated with the lack of challenging playgrounds. There is a need to engage children in challenging play that they direct and allows creativity within a level of injury prevention.

Dr. Leticia Ryan was asked to speak to the injury threshold that would be acceptable with the medical community, and society. She also gave insight to the mechanisms of injuries in playgrounds and focused the discussion primarily on head injury and bone fracture. To this she provided the following;
 We discussed the impression of some that injures are a rite of passage during childhood and the general challenges in defining a threshold of acceptable injury? Fatal injury is a rare consequence of playground play, but broken bones (usually from falls) are a relatively common occurrence.
 Of children hospitalized with playground injuries, published data show that fracture of the upper extremities accounts for 68%, concussion accounts for 8.5% (usually sent home but extreme cases admitted), and fractures of the lower extremity account for 9.1%. There are approximately 9000 cases/year hospitalized – National Electronic Injury & Surveillance System (NEISS) data base.
 When is a child’s injury ‘serious’? One measure is the Abbreviated Injury Score (AIS), with an AIS of greater than or equal to 3 consider “serious”. AIS is assigned by coders who have been trained to assess the data. Another measure to consider is hospitalization; injuries resulting in hospitalization are likely more serious and associated with risk of mortality and morbidity. We can distinguish complicated fractures (fracture needing a reduction of misaligned bones or “open” fractures that break through the skin) from simple fractures. Complicated fractures are associated with more risk. For instance, if a child needs to be sedated to set a bone, this introduces a new risk from the anesthetic. Similarly, open fractures have an increased risk of infection. Head injuries can also be distinguished based on the presence of bleeding within the brain although concussions, despite not having such intracranial bleeding, may have long-term cognitive repercussions.
 Concussion/Traumatic Brain Injury (TBI) – There are a variety of definitions. The Centers for Disease Control and Injury Prevention (CDC) defines concussions as “a type of traumatic brain injury – or TBI – caused by a bump, blow or jolt to the head or by a hit to the body that causes the head and brain to move rapidly back and forth”. There is increased awareness of concussion and parents are concerned and asking about concussions when they bring their child to get checked after a fall. CDC guidance for parents on how to identify concussion/TBI. Concussion, depending upon severity is most commonly considered mild TBI, but every concussion is a brain injury requiring assessment and treatment. Treatment might just be removal from play and brain rest. There is a particular concern for children who sustain “concussion on concussion” – i.e. a second concussion before the brain has healed from an initial concussion, and can result in impairment. This can be challenging with children where symptoms such as behaviour changes might not be as readily observable. Kids need brain rest to heal the brain for a period of at least 2 weeks.
 Moderate to severe TBI – may have bleeding on the brain. Other consequence of head injuries include exposure to radiation if CT scans are obtained. Studies are now concerned about kids getting CAT scans due to a potential for increased cancer risk. Consequently, clinicians may rely on physical exam findings and observation in the emergency department – based on a research-informed decision tree – and then educate the parent that the scan is not required if it is deemed to be mild concussion.

Tom Norquist spoke of the need for challenging play equipment to ensure we keep play in the playground and potentially focus the location of play and the resulting potential for injuries to a location that is within public sight and they can be responded to. This could be in a park, school ground or child care, with the latter having a degree of supervision that would respond to an injury. He pointed out that children do not play within a set of rules and play is not a learned skill, but a complex development of knowledge of one’s abilities, physically, mentally, socially and emotionally. Success and failure is a consequence of the playful learning experience. He also pointed out that children may develop skills where they apply their own experience and culture to use that structure in reasonably foreseeable and sometimes unintended ways. He had numerous pictorial examples of play not as intended. This led to a discussion that owners and designers must look at both their intended design and consider what occurs when the child stretches the design to other uses. How does that affect the recommendations of the manufacturer for how the play structure is situated in the playground or playspace as related to other play structures or the performance of surfacing? He pointed out the very real concern for manufacturers of playground equipment that injuries do not only have a potential financial cost through litigation, but a manufacturer may run afoul of the US CPSC with a product recall that can have large financial consequences, based solely on the CPSC’s own investigation and definition for serious injury.

Another aspect with Tom’s presentation was what is acceptable and not acceptable from the point of view of use. This is a critical facet of any hazard identification and risk assessment. He also touched on how the age of users of the playground has changed over the years and where there might once have been a trend to graduate from the playground to sports, there is now an older and bolder group using the playground in the manner they see fit. This is likely more to do with the aspect of climbing and socializing within the play environment. The discussion around this discussion was that we cannot overlook the impact for those countries that require access to all regardless of ability. The consequence of the need for barrier free design has unintended consequences by placing some of the youngest and most vulnerable user’s at risk of unreasonable injury.

Doug Nix has become involved directly within the sport, play and recreation side of hazard identification and risk assessment through an invitation of the CSA Z614, ASTM F1487 and ISO TC83, WG6. His extensive experience in the machinery sector has made him a unique asset to this group. Doug spoke both about the need to consider international developments and the need to find balance between the aspects that can be harmonized and those that reflect and remain in the national interest.
Doug spoke of the need for;
 Development of a suitable risk assessment scoring tool for play equipment and playgrounds. The severity scale will need to be aligned to injury criteria that can be accepted by all stakeholders. Use of existing HIC and AIS categorizations is a starting point.
 Risk assessment/risk management outline. Many regulations are becoming less prescriptive and more risk management/assessment.
 Manufacturers need to design out as many hazards as possible following inherently safe design practices that are outlines in a Hierarchy of Control (see ISO 12100.2010). Integration of equipment during the design, and construction stages or playgrounds, and the installation of play equipment is key to reducing risk to playground users. Errors that introduce uncontrolled or poorly controlled risk in site designs may create hazards that equipment manufacturers could not be expected to reasonably foresee.
 Risk assessment documentation is key to showing due diligence, i.e. documentation providing details. Risk assessment should be part of every stage in the design and development process. Stakeholders should be involved, especially in the concept and design phases to identify the level of risk tolerance they have, as well as the degree of risk and challenge they want, want given the space available and user group(s).
 Level of risk tolerance – if different between North America (NA) and European Union (EU) might be considered a barrier of trade – if NA wants to prevent serious injury vs EU who don’t want to kill kids. Canadian European Trade Agreement (CETA) – need to eliminate technical barriers of trade, – not increase them. Harmonization of conformity assessment techniques is also mandated (See CETA Chapters 4 and 21).
 Inspectors should have recognized credentials, Recognizing what those credentials are and how they are certified and by whom needs to be identified and put into a standard. Standard Council of Canada operates an accreditation program that could be the basis for accreditation of inspectors and certification bodies in the playground sector. Any accreditation program for inspectors would need to conform to ISO 17024 for certification of persons, but could be designed to focus on the key aspects of playground safety deemed relevant by sector stakeholders. Certification bodies could also be accredited to ISO 17020. Also laboratories performing testing and inspections could also be certified to ISO 17025. EN1177 requires compliance to ISO 17025.

Following Doug and appropriate to the hazard and risk discussion was the presentation by Milton Chapple, general counsel to IPEMA (International Playground Equipment Manufacturers’ Association).

His presentation covered;
 Everyone involved in the stream of creating a playground all carry some level of liability for the standard of care – designer, manufacturer, constructor, inspector, and owner.
 What is standard and duty of care or failure to exercise duty and must show that there is actual damage – plaintiff must prove failure. Foreseeability is also a legal obligation. Negligence (failure in duty of care) reasonable person would expect or not expect to occur. There are different legal environments EU/CA and US and this needs to be fully fleshed out.
 In US the juries may not always follow the law but are sympathetic to plaintiff and make big awards. Very litigious. Different legal systems and different burden within the law and whether there is a jury or not.
 Settling – gives you certainty and a definite cost. Risk of going to final lawsuit is unpredictable even when you have compliant product. Plus the cost of legal work going to trial. Judges don’t reign in the juries when they should in many cases. Going to trial it becomes a sympathy thing and most lawyers recommend to settle the case early on.
 EU law – requirement in liability directive – manufacturer puts the CE mark which shows that the product is safe. Plaintiff then has to prove cause and effect linkage, i.e. defect in the product. Therefore a lot fewer lawsuits in EU.

These presentations led to a very stimulating discussion and day ended at 5pm and much of the discussion continued into the dinner that was attended by most participants.

Day two began with a presentation by Lloyd Reese with regard to the anthropometrics being used in playground design. Designers must understand the dimensions that allow children to function within their physical abilities in the playground. It is important to understand that the dimensions that are used today are more than 50 years old and the world has changed since them. New studies in Europe might bring new information for future designs. One item that is problematic for an international playground standard is that countries like Japan recognize a different size for head and neck entrapment. Since ISO standards do not allow for deviations as the CEN standards do, this could be problematic for an international standard. It would be incumbent upon those reviewing the standards to determine if there are other national or ethnic groups that have similar issues. Since this related to life-threatening safety of the child, this cannot be ignored. Finally, anthropometrics do not go to any understanding of how a child uses a playground and reliance on anthropometrics does not go very far beyond the physical structures in prevention of injury once the child enters an appropriately designed playground. Anthropometrics also do not help in understanding the nature of the body to resist injury and therefore compliance with anthropometrics does not help with injury prevention such as falls.

The presentation by Christine Simpson on age groups and age appropriate design stimulated significant discussion that generally provided consensus that current age grouping of 95th percentile 18 months or 5th percentile 2 year old to 5 year old and 5 year old to 12 year old are likely not appropriate today. At a very young age children have needs that require specific types of play, but shortly after 3 years, ability will drive play. As a result play structures might be better defined by ability. The barriers to ability within the playground and play structures is generally achieved through the provision of physical barriers. In a time when playgrounds must provide greater accessibility, the erection of physical barriers is in conflict with placing access barriers based on ability.

The siting of a playground, whether it be a school or park, age or ability will have a different approach. In the school there are concentrated clusters of children that are directed to a segregated playground that has been designed with the input of school personnel to be most appropriate for the school grade of the user, rather than the age. Another advantage of a school system is that play is supervised. This supervision is not to direct play, but to ensure that children of certain abilities based on school grade use playground equipment that generally meets their abilities in relation to injury prevention. Schools have a significant stake in the prevention of injury that is related to function of the equipment and provision of supervision.

Parks and other open public settings, including school sites that are accessible during off hours do not have the advantage of supervision and therefore designing to the ability of the child is most important. Although parental supervision might assist in identifying vandalism and prevent hazardous behaviour, parents are often a problem in the playground by providing assistance and placing the child in hazardous situations that can result in an unreasonable injury that would have been prevent if the child was left to their own abilities. It is important that owners work closely with designers to provide playgrounds that are appropriate to the needs of the children. It was pointed out that children over the age of 3 often find the 2-5 year structures as boring and are drawn to the 5-12 structures. Tom Norquist stated that as a designer he has observed children 5-8 taking challenges on equipment that requires upper body strength such as overhead events and failure may results in broken bones that are often unacceptable, being serious to severe. There is a balance between the need to elevate the body and the impact attenuation of the surfacing as determined by g and HIC values. Lowering the height of equipment and modifying landing areas, while still providing function is important; however in these areas where there is a higher probability of falls, the impact attenuation values must be as low as possible to prevent fractures, possibly a g value below 100.
A suggestion was to consider that the lower end of the age group for public playspaces and equipment be 3 years and the upper send may well be up to through 14 years of age as per the CEN Guide 14 “Child Safety Guidance for its inclusion in Standards or beyond. This recognizes that older children are remaining in the playspace as an unstructured setting rather than moving on to rule based games and sports. For some of the older groups they are involved in other unstructured activities such as skateboarding and cycling where there is an understanding and expectation of injury and therefore do not attract the same degree of litigation as does the playground.

Accessibility plays a positive role in the playground, bringing children of different abilities to the playground or allowing caregivers with diminished abilities to participate in their children’s play. Most playgrounds use transfer systems along with low rises and wide stairs and step platforms along with ramping. While these structure components provide greater access they also provide access by very young toddlers and encourage unsafe play by older children using skateboards and bicycles. Most disabilities (over 50%) are cognitive and not physical and the provision of accessible playground focuses on the physical barriers. The requirement in the United States is that the Department of Justice and the 2010 ADA Standards for Accessible Design focus and mandate ambulatory solutions. Accessibility is also mandated by CEN Guide 14 Child Safety Guidance for its inclusion in Standards as related to children under 14 years of age. This often does not allow for the balance of designs that are to limit access to parts of the play structures that are injury driven.

The range of abilities found within the playground are likely one of the biggest considerations in the renewal or rewriting of standards. This goes back to the “scoping statement of the first meeting of ISO TC83 WG8”, that playgrounds must prevent serious harm, while keeping in mind the need for challenging play and play structures. This balance will be a major challenge for standards writers into the future.

The afternoon discussion began to focus on the areas that the experts felt harmonization could potentially be international. This also included a discussion on factors that should remain with a national domain. This may lead to a need for two tiers to playground standards. The group used flip charts and “brainstorming” to develop ideas. The result was;
Develop an ISO “toolbox” for determining measurements.
 Probes and devices that are used for measuring aspects of the playground could likely be a first ISO document. The probes that are used to measure issues of safety could to a large extent be universal. Consideration must be given to probes that might be different based on ethnicity or country. Currently most test probes are not significantly different, but care must be taken to clearly state that new probes are to be used on play structures designed and installed after they are published as these are based on determined dimensions and older playgrounds that meet the requirements of the probes to which they were installed are not to be declared “unsafe” as a result of a minor dimensional change.
 At the present time the test device, including methods of calibration, assurance of being in compliance and the need for a support, for testing of impact attenuating surface as represented by ASTM F1292 and ASTM F355 and EN1177 are virtually identical. This device could also be part of the tool box.
 It must be remembered that the development of the tool box might still require how the probes and devices are used specifically within a region may well be driven by a national standard within the region.

Stories of rather recent playground installations collapsing prior to manufacturer’s warranty expiration have raised concerns of how to evaluate “Structural Integrity” requirements prior to or after purchase. Structural Integrity requirements could be reviewed and requirements for methods of determining structural integrity might be able to be harmonized provided this development does not reduce the functional longevity of the play equipment. This must also take into consideration the use of manufactured and naturally sourced materials, such as dimensional sized lumber, tree branches, rocks and boulders. One important aspect of structural integrity that is not currently universal is the calculation of static and dynamic loading. There will also be a need to determine where physical loading is required and where engineering calculations will be allowed to determine structural integrity.

Injury threshold should be a relatively easy item to harmonize since playground standards have their original need based in the prevention of certain injuries and reduction of the severity of others. Although prevention of death is absolute, knowledge and materials have advanced to the point where there is a better understanding of mechanisms of injury to allow for a new focus on prevention of serious injury. It is common that Product Directives, Consumer Product Safety Regulations, society and the courts have come to recognize that serious injuries or harm shall be prevented. This would generally be an injury that would fall within the AIS>3. Canada and the United States do have injury statistics that can be used as a source of information, while Europe and other parts of the world will have to develop and bring their sourced injury data. For those stating that they have no injuries and do not have the injury data to support it must be remembered that the “Absence of evidence is not evidence of absence.”

Performance of Hazard Identification and Risk Assessment specific to the play equipment, the assembly within the playspace and the inclusion of injury prevention mechanisms such as; head entrapment, protrusion/impalement hazards, crush hazards, sharp points/edges, suspended component impact hazards and impact hazards due to poor performing impact attenuating surfacing could be harmonized. At the present time ISO TC83 WG6 is working on the development of a tool related to the entire scope of TC83, but there is no reason that once this general tool is developed that something specific to play and children could be provided. This would be used by designers, manufacturers, owners, inspectors and maintainers in their work to ensure a level of injury below the stated scope of prevention of serious injury (AIS>3).

The group echoed the sentiment of the 1st meeting of WG8 that failures of playgrounds can often be associated with age of the playground, structures and surfacing, and this is associated with the lack of thorough quality inspections and maintenance. As inspection is a function of human activity and not related to the specific playground, there should be the opportunity to develop a standard for the credentials of a qualified person (inspector) and work output that would be expected of a person performing inspections for compliance to an ISO or National Standard equally. All stake holders should be involved in the development process of such a standard. This will be coupled with a parallel Standard Guides for the performance of playspace maintenance based on the manufacturer’s requirements, materials utilized, the exposure to environmental degradation, etc. that will keep the play space compliant with current industry best practice, functioning as intended, and clean/sanitary withinIt must be remembered that the development of the tool box might still require how the probes and devices are used specifically within a region may well be driven by a national standard within the region.

Stories of rather recent playground installations collapsing prior to manufacturer’s warranty expiration have raised concerns of how to evaluate “Structural Integrity” requirements prior to or after purchase. Structural Integrity requirements could be reviewed and requirements for methods of determining structural integrity might be able to be harmonized provided this development does not reduce the functional longevity of the play equipment. This must also take into consideration the use of manufactured and naturally sourced materials, such as dimensional sized lumber, tree branches, rocks and boulders. One important aspect of structural integrity that is not currently universal is the calculation of static and dynamic loading. There will also be a need to determine where physical loading is required and where engineering calculations will be allowed to determine structural integrity.

Injury threshold should be a relatively easy item to harmonize since playground standards have their original need based in the prevention of certain injuries and reduction of the severity of others. Although prevention of death is absolute, knowledge and materials have advanced to the point where there is a better understanding of mechanisms of injury to allow for a new focus on prevention of serious injury. It is common that Product Directives, Consumer Product Safety Regulations, society and the courts have come to recognize that serious injuries or harm shall be prevented. This would generally be an injury that would fall within the AIS>3. Canada and the United States do have injury statistics that can be used as a source of information, while Europe and other parts of the world will have to develop and bring their sourced injury data. For those stating that they have no injuries and do not have the injury data to support it must be remembered that the “Absence of evidence is not evidence of absence.”

Performance of Hazard Identification and Risk Assessment specific to the play equipment, the assembly within the playspace and the inclusion of injury prevention mechanisms such as; head entrapment, protrusion/impalement hazards, crush hazards, sharp points/edges, suspended component impact hazards and impact hazards due to poor performing impact attenuating surfacing could be harmonized. At the present time ISO TC83 WG6 is working on the development of a tool related to the entire scope of TC83, but there is no reason that once this general tool is developed that something specific to play and children could be provided. This would be used by designers, manufacturers, owners, inspectors and maintainers in their work to ensure a level of injury below the stated scope of prevention of serious injury (AIS>3).

The group echoed the sentiment of the 1st meeting of WG8 that failures of playgrounds can often be associated with age of the playground, structures and surfacing, and this is associated with the lack of thorough quality inspections and maintenance. As inspection is a function of human activity and not related to the specific playground, there should be the opportunity to develop a standard for the credentials of a qualified person (inspector) and work output that would be expected of a person performing inspections for compliance to an ISO or National Standard equally. All stake holders should be involved in the development process of such a standard. This will be coupled with a parallel Standard Guides for the performance of playspace maintenance based on the manufacturer’s requirements, materials utilized, the exposure to environmental degradation, etc. that will keep the play space compliant with current industry best practice, functioning as intended, and clean/sanitary within the original parameters of the designers and manufactures that built the space. This may well include a statement such as found in the Canadian CSA Z614 that budgets for maintenance of playgrounds must be established and be in place at the time of development and installation of the playspace.

The meeting also determined a list of items that they do not see as being harmonized on the international basis. These would likely have implications on the design of structures as well as the layout of the playspace. This is one reason for the consideration of a two tier system that recognizes harmonized or ISO standards and National standards for implementation.
Accessibility is a Federal requirement in the United States for public accommodation and although not fully mandated in Canada, it is generally finding its way into playspaces throughout Canada and the World. Accessibility has been addressed in Guide 14 related to children 14 and under as noted earlier and is also found in section 4.6 of ISOIEC JWG 01 Revision of Guide 51 N49 along with it reference is ISO/IEC Guide71 which address the needs of persons with disabilities in broad terms, but does not specifically cover guidance relating to children with disabilities. This has implications for the design of play structures and the layout of the space. It will also affect the types of surfacing and maintenance that is required for the surfacing. There has been a trend to move away from the “post and platform” type of structure for creativity, but this also appears to potentially defeat the need for access of play events within a climber. Prevention of access will not be acceptable. As a result factors that relate to accessibility are difficult to harmonize unless there is a concerted effort to harmonize around the requirements of the US DOJ ADA. The current US model law for accessibility eliminates barriers but it does not necessarily provide for inclusion of all regardless of needs or limitations.

Fall height and protective surfacing performance is significantly different around the world. In North America all play structures that are above grade and not designed to be used with feet on the ground require an impact attenuating surface. There also is no limit as to the height of the equipment and therefore the potential for a child to climb and fall can increase the severity outcome of a related injury. As a result surfacing performance must address the impact from the height it is anticipated a child will fall. This does echo the sentiment of the first meeting the WG8 that surfacing performance shall be based on where the child can fall from, but at the present time the CEN standards limit the requirement for surfacing to 10’ or 3 meters. This is not acceptable in North America, within the limits of litigation and regulations. There are also differences as to how fall height is determined as in the case of swings. As a result the need for surfacing will remain national. This is not a barrier to trade as manufacturers from around the world can ship their goods around the world, but it will be incumbent upon the manufacturer/designer to inform the owner of the surfacing use zone and impact attenuation requirements within the country it is sold and equally important is the owner’s responsibility to provide surfacing that meets national requirements.
The performance of the impact attenuating surface is related directly to fall height of the play equipment. There is another issue related to determining play equipment fall height that must be considered. There needs to be a measurable performance standard and test method to determine what is accessible to climb versus what is considered non-climbable while considering reasonable foreseeable use/misuse of intended and unintended users. This is the type of assessment that needs to occur as discussed in ISO/IEC PDGUIDE 51.2 Safety aspects – Guidelines for their inclusion in Standards. Since this is related to injury prevention, regulation and litigation, this will have to remain an issue left within the domain of a national standards writing body. Again this in not a barrier to trade as the obligation for performance at the time of installation and during the functional life will be required by the owner of the playground as stated in their standards and therefore a national matter.
Delineation of user groups also appears to be a problem for harmonization. It could be argued that children of any age around the world have the same ability to play; however the circumstances of the playground, whether it be in a park, school, early childhood care facility, museum, pay to play facility, adventure playground or an open unsecured, unsupervised public setting, the owner might choose to change the design based on their understanding of use of the playground. Removing this freedom from the owner and person responsible directly of the care of the children using the playground would be detrimental to the building of playgrounds.

Another potential problem associated with international harmonization of standards will be the process upon which harmonization decisions are based. One approach is the review the existing standards and create a standard that finds commonality and where they are not identical, the most stringent performance will be the accepted and promulgated to the world. We doubt this approach would be widely acceptable throughout the world. The other approach is to go back to the beginning and look at the reasons the existing standards were written. They all have a scope of prevention of harm and statistics indicate that injuries are increasing rather than decreasing. It might be time for another approach rather than take a group of mediocre standards and create a blend of mediocre standards. There is a lot of good performance requirements in the existing standards, but it might be time to begin with an ISO universal injury prevention statement based on serious harm and work through an open process that finally achieves that.

During the meeting in Toronto, the participants were asked to write down thoughts that came to them during the proceedings. These were either ideas that they found important within a presentation or ideas that they had that were stimulated by the discussion. They are interesting as they tend to stimulate additional thought and conversation. Consideration was given to provide a summary, but this would not do justice to the ideas. As a result they have been included as they were written. Please note that they are listed according to the time they were written and can be read sequentially in conjunction with this report as many were stimulated by the discussions reported herein. It is the hope of our participants that these “sticky notes” will prompt the reader to understand that play and playground standards are very complex and before we rush off to create a single ISO standard we seriously consider two questions that were expressed by the UK delegation at the First meeting. First, “Is there an overarching benefit to an ISO (international) standard?” and secondly, “Is there the potential for unintended consequences that cannot be reversed with the implementation of an ISO standard?”

Nothing in the meeting is to be construed as an agreement to move forward with standards writing at this time, but rather the need for more discussion and investigation of the opportunities and obstacles.

I would like to personally thank the people who took the time to attend and participate in the Toronto conference. We recognize that we all have many demands on our time and these meetings although being two days in length take a lot of preparation time to plan in advance for travel. Our American colleagues worked around their Thanksgiving holiday which is a special family time. The energetic group with diverse backgrounds and expertise covering owners, designers of equipment, designers of playspaces, manufacturers of equipment and surfacing, inspectors, maintainers, educators bringing many years of experience which was freely provided and benefited each and every participant, while not pushing any personal or business agendas.

Specifically I would like to thank Tom Norquist, Christine Simpson and Ken Kutska for their support in helping with organizing the conference and seeing that we made it a success.
Special thanks to CSA for the facility and allowing us to have the freedom to discuss ideas of general interest to play and standards. Also thanks to Jens Bauch for keeping us connected to WG8.
Respectfully submitted.

Rolf Huber, Head of Delegation to ISO TC83 and Chair of the Mirror Committee for Canada.

The next meeting for the Asian Region will be held in Sydney Australia February 26 and 27, 2018.