Operational Research in Engineering Sciences: Theory and Applications 
Vol. 4, Issue 1, 2021, pp. 99-114 
ISSN: 2620-1607 
eISSN: 2620-1747 

 DOI: https://doi.org/10.31181/oresta2040199l 

* Corresponding author 
mtarique181@gmail.com (M. Tarique Lakhiar), mtl.eng17@gmail.come-mail (M. Tahir 
Lakhiar), abdhalid@uthm.edu.my (A. Halid Abdullah)  

OCCUPATIONAL HEALTH AND SAFETY PERFORMANCE IN 
HIGH-RISE BUILDING PROJECTS IN PAKISTAN: A 

SYSTEMATIC LITERATURE REVIEW 

Muhammad Tarique Lakhiar 1*, Muhammad Tahir Lakhiar 2, Abd Halid 
Abdullah 1 

1 Faculty of Civil and Environmental Engineering, Universiti Tun Hussein Onn Malaysia, 
Batu Pahat, Johor, Malaysia 

2 School of Engineering, Monash University, Subang Jaya, Selangor, Malaysia 
 

Received: 09 February 2021  
Accepted: 08 March 2021  
First online: 20 March 2021 

 
Review Paper 

Abstract: The building industry contributed an impressive share in Pakistan's growth 
sector, where the construction industry contributes almost 2.74% of the GDP of 
Pakistan. In most metropolitan cities, the trend of building multi-story structures is at 
increase. However, this construction industry is a prominent accident-prone industry 
where laborers generally work in an unsafe environment. These projects suffer from 
fatal and non-fatal accidents as labor health and security are not a prime aim in the 
construction industry despite all employees still dealing with safety issues. This 
research examines the Occupational safety and health (OSH) performance in High-rise 
building projects in Pakistan. This review focuses on adopting qualitative approaches, 
using the comprehensive literature approach for seeking current practice in health and 
safety and OHS laws in Pakistan's building industry. Finally, it proposes a realistic 
strategy for developing a safe environment at workplaces. Research indicates that 
Pakistan's construction sector should consider workers' safety as a priority, update and 
enforce safety laws at the workplace to enrich OHS conditions in the Pakistani 
construction sector. 

Keywords: building industry, accident prevention, safety culture, fall protection system, 
Pakistan engineering council 

1. Introduction 

Pakistan is considered one of the underdeveloped countries that have recently 
undergone instant development in building activities throughout the past decade, 
with almost 3 million laborers working in the building industry. However, building 
industry employees constitute 7.6% of the total workforce, whereas Construction 



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fatal and non-fatal accidents account for 17.3% of the entire crew (Pakistan Bureau of 
Statistics, 2018). Even with these frightening figures, few or no strenuous efforts are 
expended by government authorities or private agencies to improve Pakistani 
construction workers' safety conditions (Raheem and Hinze, 2012). Similarly, the 
majority of the opposing under-developing countries, around numerous hurdles and 
threats that Pakistan is experiencing to elevate and execute legislative system in the 
building sector. The existing safety acts in Pakistan are not exclusive to the building 
sector. They are accomplished by The Factories Act of 1934, the Workmen's 
Compensation Act of 1923, and the Minimum Wage Ordinance of 1961. These laws 
mainly deal with the work-related safety and health complications of industrial 
personnel. 

Moreover, the health and safety clauses are generally made as part of contract 
documents in the Pakistan building industry. Still, they are commonly not imposed in 
reality because of carelessness and illiteracy amongst the workforces for their 
privileges, ensuing in inferior safety execution  (Zahoor et al. 2016. Pakistan Bureau 
of Statistics (2018) has reported that about 36.6 % 36.7% of the whole manpower is 
utilized in the service sector (which includes the construction sector) (Figure. 1a), the 
construction sector of Pakistan is positioned third amongst the entire economic 
sectors and 1st amongst the service sectors relative to the share of reported 
occupational injuries/diseases (Figure. 1b). the governing authority is generally 
exhausted in executing the laws efficiently in underdeveloped countries like Pakistan. 

Work dangers are not identified and either observed with not as much hazardous  
(Larcher and Sohail, 1999). Most underdeveloped countries have executed several 
safety regulating systems to minimize the frequency of accidents. The Governing 
organizations like OSHA in the USA and Hong Kong labor department are persistently 
endeavoring to attain 0 % of causality rate  (Choudhry et al. 2009). Likewise, several 
safety encouragement plans are often publicized to lessen the frequency of accidents  
(Choudhry et al. 2008). In contrast, safety is not much properly considered in under-
developing countries, such as Pakistan. Accident statistics are neither maintained nor 
regularly reported to the Government department (Raheem and Issa, 2016). Safety 
rules barely exist, the regulatory authority is mostly ineffective, and work hazards are 
not assessed accurately (Ali, 2006). The Pakistan Engineering Council (PEC), which is 
that the principal controlling agency for Construction in Pakistan, has not set detailed 
guidelines and safety regulations for the industry. Moreover, a major difference is 
observed between big and small contractors against their safety performance. Only 
the large firms have safety policies, conduct safety training, and appoint safety staff 
on their job sites (Raheem and Hinze, 2013). 

 

Figure 1a. Distribution of total labor force 



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Figure 1b. Accidents relative to reported injuries/diseases 

The construction workers usually face serious threats and safety issues while 
building high-rise structures. Building laborers are usually more subjected to falling, 
plant movement, heavy machinery, electroshock, and loud noises. The factors time, 
cost, and quality are often the key factors perceived to be ahead of safety. Health 
problems are still considered subordinate and take a back seat on the building site. 
Many organizations have not developed robust accident management plans but 
instead focusing on optimizing income. (Choudhry et al. 2008). Thus, laborers are 
more liable to face numerous hazards, such as harsh weather conditions and safety 
problems at high altitudes (dropping from elevation, colliding with items at 
workplace). These may be the reason for serious work-related wounds among 
building workers throughout the globe. Most building incidents happened due to a 
fall from a height, accompanied by electrocution and shifting activities (Zahoor et al. 
2016). Lack of personal protective equipment (PPE), ineffective training, unrealistic 
construction time, and missing appropriate anchoring points are the main causes of 
falls from height at construction sites (Choudhry et al., 2014). In the last seven years, 
no noteworthy reduction in injury rate has been detected, as the injury rate remained 
nearly constant at over 14% (Pakistan Bureau of Statistics, 2018). Most occupational 
incidents in the Pakistani building industry are due to falls from a height, 
accompanied by uplifting activity, electric shocks, and hit by objects (Choudhry et al. 
2014). However, building projects are still suffering from casualties even with the 
following safety criteria, mostly due to falling from height and electrocution 
(Choudhry et al. 2014). Whereas falling from height is the main cause of incidents 
that happen in the construction of tall buildings (Hassan, 2012). The main causes for 
safety non-compliance are generally summarized as; desire for earning more profit, 
misinterpretation that putting investment on safety raises the project budget, 
absence of a controlling authority, labors’ unawareness, poor governing system, lack 
of safety training, and shortage of safety equipment’s, political influence, and meeting 
deadlines (Farooqui, 2012). 

2. Literature review 

This study adopted a qualitative approach to analyze workplace safety and health 
performance in high-rise construction in Pakistan. It exposes the facts without 



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tossing the information away. This study focused on a thorough analysis of the 
literature relating to workplace protection and health in high-scale Pakistan and their 
potential applications to improve occupational health and safety standards in the 
Pakistani buildings industry. It was intended to sum up the latest occupational safety 
and health efficiency of high-rise buildings in Pakistan and to review prevailing OHS 
laws and regulations and their application in the sector. 

For a paper retrieval of the OHS performance in Pakistan, a systemic method 
involving three steps, as seen in Figure 2, has been adopted. A systematic desktop 
search was performed in Scopus under the 'article title/abstract/keyword' search 
area. The keywords for the search were safety culture, safety practices, construction 
safety, OHS, Pakistan. Their title/abstract /keyword section was deliberately picked 
to be for further review with these particular words. Other databases were also 
explored to access the relevant articles, such as Google, Scholar Science Direct, 
EBSCO, Scopus, Web of Science, and Google. In short, the best source for looking for 
the conference papers and proceedings was Google. A further step was to search the 
proceedings using the same search engines for 14 Global OSH conferences. For the 
next step, profiles were investigated in Research Gate,  Academia, and Google Scholar 
to find out scholars who are intensively interested in OHS research in Pakistan. 
Consequently, the Snowball technique was eventually used for the finding of the 
corresponding articles by reviewing the reference portion of all the articles found. 
The papers that could not be downloaded were accessed via e-mail from the 
researchers. 

 

Figure 2. Research methodology  

2.1. Nature of the Construction Industry in Pakistan 

Underdeveloped countries should focus on executing safety, health, and 
environmental management systems in the building industry to carry projects 
deprived of injuries and scale back worksite dangers. In developing countries, like 
Pakistan, the safety regulation hardly exists; and most of the laws are not suitable for 
building industry, and those laws are unsatisfactory, inefficient, or outdated. 
Generally, the administrative body is weak in imposing safety laws efficiently, and 
site hazards are either not evaluated at all or observed that these job risks are 
tolerable to worker safety (Ali, 2006). Various building firms across the globe are 



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executing health, safety, and environmental management systems to prevent 
damages, eradicate illness, and offer a harmless work atmosphere on building 
projects. On the other hand, there is no legislative safety system in Pakistan to impose 
safety in the building industry without having any particular governing authority for 
OHS management, likewise OSHA in the USA (Choudhry et al. 2008). As the only 
regulatory body, the Pakistan Engineering Council (PEC) has yet to enforce health 
standards to be followed by construction stakeholders (Farooqui et al., 2007). 
However, PEC doesn't have the power and administrative authority to establish and 
enforce safety-related legislation. The majority of clients seek fast speed and high 
efficiency of building work in the region at the lowest feasible expense, and the 
project budgets do not specifically contain protection funds (Farooqui, 2012). The 
health efficiency of large and small contractors also varies considerably. Many of the 
major firms listed with the PEC in category C-A have detailed safety policies that offer 
some form of training to staff that retain safety personnel in their workplaces. 
Contrary to that, small firms usually do not have protection on their agenda, and 
there are dangerous environments on many building sites, and often injuries and 
fatalities occur to staff (Choudhry et al. 2008a). However, at different work sites of 
contractors, training programs for the safety of laborers haven't been introduced yet, 
no safety-related training conducted for entirely new workers, work-related risks 
never identified, and never called and conducted any safety meetings. Furthermore, 
the absence of immediate availability of medical services, inferior housekeeping, and 
unhygienic conditions tend to exist on isolated projects. Although safety clauses are 
included in contract documents, they are not strictly implemented. Likewise, 
construction firms are mostly failed to prescribe these clauses due to the non-
existence of the regulatory authorities. PEC also organizes safety education seminars 
and obligatory short courses on continuing professional development (CPD), which 
are only available for engineers. However, no instruction for construction managers 
and staff are offered (Choudhry and Zahoor, 2016). The kind of work conducted at 
worksites in Pakistan are labor-intensive and relies entirely on the mostly 
nonprofessional and non-qualified workers, which usually poses an enormous risk of 
special damages (Farooqui et al. 2007a). Underdeveloped countries such as Pakistan 
are witnessing serious potential accidents due to intense work and rely heavily on 
professional and unskilled staff from diverse educational backgrounds. Similarly, the 
bulk of accidents in the Pakistani building industry are attributed to falls from height 
and a few more to lifts, electric shocks, and Safety training is the most neglected 
aspect in the construction industry. (Choudhry and Zahoor, 2016). Generally, 
laborers and managers have different opinions about accident reporting mechanisms. 
As explained by Masood et al. (2012), any accident that happened at the site is 
reported from the perspective of managers. Still, laborers possess a different belief 
and commonly not in agreement with the managers. Likewise, stakeholders are only 
concerned with productivity, while safety is not given much preference. Significant 
health and safety disparities among developing and under-developed nations contain 
inexistence, inadequate compliance, weak risk management, and lack of OHS 
awareness programs and safety regulations (Zahoor et al., 2017). This worsening 
condition contributes to serious worksite injuries and a significant shortage of site 
staff, reduced work morale, delays in building progress, and disputes between 
stakeholders (Haseeb et al. 2011). Building work is the country's riskiest task 
because it entails wounding and death on sites in Pakistan. 



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2.2. Status of Occupational Safety in the construction industry 

In underdeveloped nations, health at work remains overlooked due to 
overlapping social, economic, and political problems. Following worldwide progress 
on OS&H problems, around 2.3 million deaths from workplace injuries and work-
related disease are reported, 317 million suffer serious disabilities, and 160 million 
become sick, most of whom in less developing countries belong to rural regions 
(Azhar et al. 2015). Employees in less-developed nations have often had a large 
chance of injury/disease in jobs because of bad working standards and social 
security. In remote regions in less developed nations, the condition is much worse 
because of insufficient health care services. For less-developed nations, workplace 
injuries/diseases are a major expense to the national social insurance program 
(Rundmo and Hale, 2003). due to poor health safety infrastructure. Work accidents 
are the primary causes of an economic downturn (Brown, 2003). The ILO reports that 
the overall burden of work accidents and illnesses constitutes 4 percent of the 
national GDP on average (International Labor Organization, 2009). Proper social 
insurance programs are not integrated into less-developed countries, especially rural 
ones, and there is a reality of constraints and low-quality information; hence a 
standard data study is useful in assessing the efficiency of the country's occupational 
health safety systems (Smith, 2001). Moreover, in the least developed countries 
where workers are involved in dangerous jobs, mainly in agriculture, construction, 
fishing, and mining, work-related damage and death are greater (International Labor 
Organization, 2013). Social safety at low levels faces a high risk for adverse 
occupational exposure. According to the Pakistan Economic Survey 2013-14, 
Pakistan is the 10th largest country in the world in terms of the labor force, and its 
rural population accounts for 67.5% of the total population involved in agriculture 
activities (Pakistan Bureau of Statistics, 2014). Workers' health and safety in Pakistan 
are miserable due to several causes, for instance, inadequate healthcare services, 
Lack of relevant OHS regulations, and uneducated workers. Evidently, in  Pakistan, no 
institutional program is in place to monitor incidents and causes associated with jobs. 
There is also a lack of obtainable statistics, meaning that most accidents are not 
reported to the Labor Department. OHS is not the country's highest priority because 
of a shortage of funding and the lack of technical skills. At the provincial level, the 
Saeed Ahmed Awan Centre for the development of Working Conditions & 
Environment and the Directorate General of Labor Welfare of Punjab province is 
responsible for offering medical and technical expertise for employee safety. Punjab 
recently revealed the first labor policy (Dawn News, 2015), and Baluchistan 
established an agreement on labor law and industrial reform (International Labor 
Organization, 2015). In addition, since the independence of Pakistan in 1947, the ILO 
has been collaborating with the government of Pakistan to resolve issues at work, 
workers' rights, and raise labor conditions. Pakistan has signed 36 ILO conventions, 
with eight of them were main agreements. Since thousands of employees are 
subjected daily to hazardous chemical compounds, Pakistan has a high prevalence of 
workplace diseases and injuries. Most workers are not aware of the distinction 
between preventive measures during their jobs. The majority of the workforce is not 
trained to cope with the threats presented by manufacturing and production 
processes. There are no clear safety laws for various industries throughout the 
country to cope with employees’ health and security problems. The nation needs 
essential facilities and professional staff to provide OHS workforce services. A 



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significant number of employees would also be in danger if possible; efforts to 
strengthen the OSH management are not made (Ahasan, 2001). 

2.3. Causes and Effects of Occupational Accidents in the Construction Industry 

Every year 3.7% of the labor in Pakistan undergo occupational injuries/diseases 
that result in the loss of working time (Pakistan Bureau of Statistics, 2008). Although 
its literacy rate of only 57.7 percent is reasonably acceptable, Pakistan is considered a 
country that lacks a security culture, mainly attributed to a lack of effective 
legislation (Farooqui, 2012). Most building industry injuries are caused by height 
dropping (Zahoor et al. 2016). The key causes of such incidents involve failure for fall 
security and sufficient anchorages on construction sites, insufficient preparation, 
excessive building time, and health ignorance among the workers (Choudhry et al., 
2014). Drop from the top is the main cause of injuries, whilst other causes include 
electrical action, trapped between machines and objects (Nawaz et al. 2013). The 
ignored safety measures that trigger accidents in high-rise buildings are recognized 
as having no ear defenders, no boots, and no face masks if needed (Farooqui et al. 
2008). The lack of coordination and comport ability, safety knowledge, consumer 
engagement, and health legislation are responsible for safety non-compliance (Khan, 
2013). Significant reasons for safety violation are summed up: misunderstanding of 
the fact that safety improvements raise the costs of the project, ineffective regulatory 
bodies, political interference, unreasonable timelines, overtime, health ignorance, and 
lack of collaboration among employees (Raheem et al. 2011). Untrained employees 
and a higher unemployment rate are potential sources of injuries. These incidents 
lead to higher building costs, such as charging for the jobs of extra workers, 
temporary stoppages, and delays in time  (Jafri, 2012). Moreover, accidents have 
adverse impacts on the morality of employees. 

2.4. Safety Culture in the Construction industry of Pakistan 

Safety culture (SC) is well-defined as the safety expectations, standards, and customs 
shared by the followers of an industry. It can be explicated that these fundamental 
values and standards that distress the performance of individuals in industries. 
Present pieces of training in management establishes that there is an intensifying 
acknowledgment of the effect of SC on variation execution accomplishment. For the 
disintegrated existence of the regulatory atmosphere and the erraticism of safety 
perception, the construction industry in Pakistan hasn't been able to develop a sound 
safety culture (Raheem et al., 2012). Though stakeholders/owners in the building 
industry in Pakistan are generally aware of protection objectives and their value to 
the sector, they do not have engagement, collaboration, experience, and knowledge of 
instruments to enforce the safety culture in their projects (Farooqui et al. 2008). 
Formal safety management practices between stakeholders/owners are rare, and 
thus incidents leading to loss of production, delays in development, and cost overruns 
occur in projects. It has also been concluded that, because of a lack of dedication and 
institutional processes, the managers, partners, and investors in the Pakistan building 
industry are not able enough to sustain a secure project. The key challenges 
encountered by contractors in introducing and enhancing protection are – in 
descending order of importance – the lack of the following: staff collaboration and 
behavior, experience and competence with protection management strategies, safety 



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understanding and knowledge, owner involvement, and a safety regulatory system 
(Farooqui et al. 2008). 

2.5. OHS training institutes in Pakistan 

The Saeed Ahmed Awan Centre for Improvement of Working Conditions and 
Environment’ in Lahore city of Punjab province; In Pakistan, it is a leading center 
offering professional services in the areas of OHS and the workplace environment 
founded by the Labour & Human Resource Department, Government of the Punjab, 
Pakistan. Several private institutes provide OHS training facilities on a commercial 
basis in Pakistan:  

1. Pakistan Institute of Management (PIM) has established its offices in Karachi, 
Lahore, Islamabad, and Quetta. It is awarding diploma certificates of OSH after four 
months of training.  

2. Pakistan Safety Institute (PSI) is a Karachi-based commercial organization 
providing training, auditing, and consulting services in the field of health and safety, 
fire safety, and construction safety. 

3. Occupational Safety and Loss Prevention (OSALP) is a Lahore-based 
commercial organization, providing training in the fields of quality assurance, health, 
safety, security, and environment. 

4. Safety Trends International (STI) is a Karachi-based private institute providing 
NEBOSH and IOSH training. 

5. DESCON, a well renowned Lahore and Karachi based company, is providing 
OSH training to its employees at its DESCON Technical Institute (DTI). They also 
provide training on a commercial basis. 

6. Occupational Training Institute (OTI) is based in Lahore and providing OSH 
training on a commercial basis. 

7. Vivid Institute of Occupational Safety and Health (VIOSH) has its training offices 
in eight cities of Pakistan. It provides OSH training courses like OSHA, IOSH, NEBOSH, 
particularly in the construction and petroleum sectors. 

8. Horizon Institute of Occupational Safety and Health (HIOSH) has established its 
branches in Lahore, Rawalpindi, Attock and Peshawar. It is providing training for 
IOSH and NEBOSH certifications. 

9. Center of Risk, Safety, Health and Environment (CORE) is a Karachi based 
institute, providing training for NEBOSH International General Certification and for 
IOSH Managing Safely and IOSH Working Safely certifications.  

In fact, as explained above, a variety of private companies offer OHS trainings on a 
commercial basis. This is essential to remember that construction employees are not 
strictly required to undergo any health training at workplaces because they are 
allowed to work on building projects without any health certification. Therefore, only 
construction workers who prepare for an overseas job are involved in receiving a 
safety training program. 



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3. Development of construction health and safety guidelines 

Presently, Pakistan construction industry has not had any proper Occupational 
health and safety laws. Even though several OHS laws such as Workmen’s 
Compensation Act 1923, Factories Act 1934, and Minimum Wage Ordinance, 1961 
are established, they were basically applicable for over-all industries and do not 
specifically fulfil the criteria of safety compliance in the building industry. Therefore, 
a prominent need to modify the Factories Act 1934 or to generate completely 
advance safety legislation. Moreover, to improve the construction safety culture in 
the construction industry, current safety regulations, and safety performance, the 
Higher Education Commission of Pakistan collaborated with Department of State, 
USA under Pakistan-US Science and Technology Cooperation Program funded a 
capacity building project. The purpose of this project was to set up a knowledge-
based Centre. The  Construction Management and Safety Research Centre (CMSRC) 
was instituted at National University of Sciences and Technology (NUST) in 2012 to 
step up and encourage safety research in Construction, training and education to 
enrich safety rules and policies in building industry by engaging academia, public 
organizations, industry, regulatory agencies, and the regulatory bodies. The project 
team has submitted a request to the Ministry of Education, Training and Standards 
for Higher Education to set up the “Pakistan Occupational Safety and Health Agency 
(POSHA)”. One of the functions of this department is to gather data on health and 
safety results on an annual basis. The plan is currently being reviewed by the 
appropriate department (Azhar et al. 2012). 

4. Construction health and safety education and training 

For the achievement of occupational health and safety programmes, successful 
OHS training is necessary as it enhances behavioral skills, associated information, and 
or attitudes and stimulates accident forecasting, particularly for new employees. To 
increase workplace OHS efficiency both at the level of the worker and the 
organization, management should develop a regular, rigorous health and safety 
curriculum for new workers and provide an instructor for them (Vredenburgh, 2002). 
Memon et al. (2013) suggest that management support, teamwork, effective 
supervision, safety education and training, regular safety meetings, effective 
communication, and setting realistic goals can effectively enhance the safety 
performance. Hassan (2012) suggests that the safety situation can be improved by 
the effective enforcement of OHS laws, incorporating safety credit points in the 
contractors’ licensing, appointing safety inspectors for site monitoring, allocating 
sufficient safety budget, providing personal protective equipment (PPE), and effective 
safety training. While conducting surveys with three different questionnaires for the 
managers, workers and national culture, Mohamed et al. (2009) established a link 
between national culture and safety behavior (Mohamed et al. 2009). In addition, it 
has been suggested to use wireless sensors for intelligent real-time monitoring of 
workers in the confined spaces (Riaz et al. 2014). Raheem and Issa (2016) emphasize 
to incorporate more specific safety clauses in the contract documents and include 
safety plan as a mandatory part of the bidding process. They suggest starting with the 
safety induction training for all the workers, supervisors and managerial staff.   



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4.1. Accident reporting and investigation 

Through background facts, injuries are caused by horrific incidents: machinery 
failures, unsafe working techniques, and poor maintenance. Updating people about 
such unpleasant incident would be useful in identifying reasons for minimizing the 
possibility of such incidence. To accomplish this aim, almost all misses, fatal and non-
fatal accidents must be documented, it does not matter how minor they might appear. 
The accidents reporting phenomenon varies from company to company, as the 
procedures vary, so all information would be provided to administrators quickly so 
that the Incidents could be further investigated (Fahad et al. 2019). The effective 
method to track accidents is by a particular method of reporting. The method must 
provide a well-defined summary of incident, persons and work included, damages 
received, healthcare services given, and of the evidence provided if there is also, if 
possible, photos of the concerned region should also be added. Consequently, at every 
building site, it should always be demanded and assessed to maintain an injury 
record at the site where all forms of minor accidents including such cuts, damaging 
incidents such as attributing disabilities and fatalities has to be included and 
evaluated by the safety official (Fahad et al. 2019). Fortunately, the reporting of an 
injury is not sufficient to mitigate the chances of recurrence, and it must be 
determined as quickly as possible after an accident has been reported. The 
investigation process should be carefully examined to include all facets and concerns 
that have arisen in order to determine the root causes of incidents. 

4.2. Temporary platform structure 

Scaffolding is a temporary framework used in the design, renovation, and 
reconstruction of homes, bridges, and all other manmade structures to sustain a work 
team and materials. Scaffolding is a vital trade in the Construction of buildings by 
offering platforms that allow workers to maintain their job at a high altitude. Drop 
hazards are the leading cause of workplace accidents, responsible for almost half a 
year of all construction accidents. OSHA, (2002) reports that about 65 percent of 
contractors work on scaffolds each year. This could lead to hazardous conditions for 
construction staff and projects around the world without knowledge of the dangers of 
scaffolding. Get professionally qualified to recognize electrocution, fall, and dropping 
objects and techniques for treating these hazards when using a scaffold. The proper 
use of the scaffold must also be included in the training, how to handle materials, and 
the load capacity of the scaffold.  Once you can use the scaffold, make sure that the 
qualified individual inspects the scaffold so that it is in good working order. When 
working on scaffolds, always use a sturdy, durable, non-skid work pair of boots and 
lanyard. If the scaffold is used inappropriately, please inform the supervisor straight 
away. Connect the machine to a secure level, which does not permit more than six 
feet of free fall before stopping (OSHA, 2002). 

4.3. Personal protective equipment (PPE) 

 It is very necessary to wear PPE for workplace safety and for further various 
security reasons. It is designed for the defense of the body from disruptive impacts, 
electric threats, heating, and chemical agents for the wearer's whereas, wearer's 
apparel, masks, gloves, or other devices are produced to shield the body from injury. 
Personal protective equipment (PPE) is needed by the Occupational Safety and Health 
Administration (OSHA) in the United States to mitigate worker risks and hazards 



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where engineering and administrative controls are inadequate to minimize such 
exposures to the required standard (OSHA, 2006). In addition, the building firm must 
define the statutory conditions for PPE in the construction sites and safety policy. The 
OHS manager will regularly review the needed volume of PPE on the job. OHS officials 
will perform routine checks for faulty PPE that are not in usage by staff. For review, 
replacement, and follow-up activities for the PPE, a checklist should be created. PPE 
used by all laborers of subcontractors must be checked and must meet the prime 
contractor's relevant requirements.  

4.4. Fall protection system 

Generally, workers would choose the fall safety systems that are more consistent 
with the job type. Flying objects are common at building sites as workers use power 
equipment or perform activities that include pressing, dragging, or prying (Keng and 
Razak, 2014). Then researchers like Hamid, Majid, and Singh (2008) reaffirmed that 
the most frequent form of the building site incident is caused by falling from a height 
or dropping objects. Incidents involving falling or flying objects may expose staff to 
minor injuries, like cuts and abrasions, and, rarely, even more, severe injuries, 
including concussions or blindness. More risks may be taken in accidents caused by 
falling items, particularly for workers who work under scaffolds or other places. In 
another study, the U.S. Department of Labor (DOL) reports falling as one of the main 
causes of traumatic workplace mortality, responsible for 8 percent of all trauma-
related workplace deaths. For a fact, if a worker is 4 feet or taller, the worker would 
be at risk and will be secured. As a result, DOSH (2007) emphasized that fall 
protection equipment must be used and applied anywhere an individual would be at 
risk of falling by 2 meters. 

5. Improving the existing regulatory infrastructure for worker health 
and safety 

While construction activities have risen in the last decade, the Pakistani building 
industry is suffering largely because of the absence of a viable legislative framework 
due to unsafe working conditions. Owing to the delicate existence of the regulatory 
structure, temperamental and weak morale have become norms for the construction 
industry (Ali, 2006). The behavior of labor at the workplace reveals a significant 
challenge to the compliance of safety laws in Pakistan. Therefore, corporate control 
has marginal consequences, and the government pays no attention to health. Nawaz 
et al. (2013) recommend reformulating and implementing safety laws and by-laws, 
disseminating safety awareness, determining an accident reporting mechanism, and 
ensuring the provision of safety training as well as PPE to all the workers. In this 
connection, draft regulations to improve the existing health and safety legislative 
framework are submitted by Azhar and Choudhry (2016) to PEC for approval and 
implementation (Azhar and Choudhry, 2016). In order to improve safety standard in 
the building industry, researchers have recommended the PEC to: modify the contract 
documents, allocate explicit safety budget at the time of bidding, giving due 
weightage to safety performance in the processes of contractor licensing and renewal 
along with the professional credit points, and employ safety professionals on all the 
projects (Raheem and Hinze, 2013). In addition, the development of a database is 



Lakhiar et al./Oper. Res. Eng. Sci. Theor. Appl. 4 (1) (2021) 99-114 

 

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emphasized to record the number of injuries/fatalities against the completed and 
ongoing construction projects at the industry level (Sheikh and Ali, 2013).  

6. Conclusion 

This paper addressed problems relating to the study of workplace safety and 
health performance in the construction of high-rise buildings in Pakistan. 
Furthermore, the difference in safety culture development in western nations and 
strategies and methods of encouraging the health and safety of buildings is also 
addressed. In order to minimize the occupational risk, a comprehensive analysis of 
the literature indicates that safety implementation in the construction sector of 
Pakistan should be considered. To ensure the OHS in Pakistan's construction 
industry, attempts must be made by both parties (Government and Entrepreneurs) to 
upgrade the working environment and to minimize risks for construction workers. 
Building safety and health research are in the development stage in Pakistan. There 
are also numerous articles that have been published in the area of OHS in Pakistan. It 
promises that several conferences are held annually to completely recognize and 
upgrade conditions in the construction sector; nonetheless, it is incredibly hard to 
obtain online details on these conferences. This situation makes it very hard for 
researchers to determine and understand working environments and recommend 
additional changes. This article is an attempt to examine and recognize Pakistan's 
health and safety practices. Study results show that construction companies are 
hesitant to disclose occupational incident-related records, aside from not showing 
and reporting workplace regulations that further jeopardize worker health and 
safety. Therefore, the selection criteria of PEC Contractors is based exclusively on 
financial potential, not success in health and safety. While in its legal contracts, PEC 
has incorporated safety clauses, due to the lack of administrative authorization, these 
are not enforced. To create alertness among its staff, PEC is also arranging CPD 
webinars and seminars; however, training of workers is not taken into account. 
Consequently, the following steps are recommended to PEC to increase OHS 
Knowledge at construction workplaces, thus PEC must launch safety awareness 
campaigns; set up regulating authority; develop clients' procurement and records of 
bids on the allocation of safety allowances; incorporate safety credit points into the 
evaluation criteria of the contractors, and establish a realistic system for reporting 
and investigating incidents. 

References  

Ahasan, M. R., & Partanen, T. (2001). Occupational health and safety in the least 
developed countries-a simple case of neglect. Journal of Epidemiology, 11(2), 74-80. 

Ali, T. H. (2006). Influence of national culture on construction safety climate in 
Pakistan, PhD dissertation, School of Engineering and Built Environment, Griffith 
University, South East Queensland. 

Azhar, N., Kang, Y., & Ahmad, I. (2015). Critical look into the relationship between 
information and communication technology and integrated project delivery in public 
sector construction. Journal of Management in Engineering, 31(5), 04014091. 



Occupational health and safety performance in high-rise building projects in Pakistan: A 
systematic literature review 

 

111 
 

Azhar, S., Behringer, A., Sattineni, A., & Mqsood, T. (2012). BIM for facilitating 
construction safety planning and management at jobsites. Proceedings of the CIB-
W099 international conference: modelling and building safety, Singapore. pp. 10-11. 

Azhar, Salman, and Rafiq M. Choudhry. (2016). Capacity building in construction 
health and safety research, education, and practice in Pakistan. Built Environment 
Project and Asset Management. 

Brown, G. D. (2003). China's factory floors: an industrial hygienist's view. 
International Journal of occupational and environmental health, 9(4), 326-346, 2003. 

Choudhry, R. M., & Zahoor, H. (2016). Strengths and weaknesses of safety practices to 
improve safety performance in construction projects in Pakistan. Journal of 
Professional Issues in Engineering Education and Practice, 142(4), 04016011. 

Choudhry, R. M., Fang, D., & Ahmed, S. M. (2008). Safety management in Construction: 
Best practices in Hong Kong. Journal of professional issues in engineering education 
and practice, 134(1), 20-32. 

Choudhry, R. M., Fang, D., & Lingard, H. (2009). Measuring safety climate of a 
construction company. Journal of Construction Engineering and Management, 135(9), 
890-899. 

Choudhry, R. M., Fang, D., & Rowlinson, S. (2008).  Challenging and enforcing safety 
management in developing countries: A strategy. International Journal of Construction 
Management, 8(1), 87-101. 

Choudhry, R. M., Tariq, B., and Gabriel, H. F. (2014). Investigation of fall protection 
practices in the construction industry of Pakistan. CIB W099 International Health  and  
Safety  Conference, Achieving Sustainable Construction Health and Safety, 2-3 June, 
Lund, Sweden, 211–220. 

Dawn News. Punjab labour policy today. (2015). 
http://www.dawn.com/news/1179280/ Accessed 19 December 2020. 

Farooqui, R. U. (2012). An exploratory study probing into the factors causing safety 
non-performance in the Pakistani construction industry. 45th Institute of Engineers 
Convention, Pakistan, 1–12. 

Farooqui, R. U. (2012). An exploratory study probing into the factors causing safety 
non-performance in the Pakistani construction industry. 45th Institute of Engineers 
Convention, Pakistan, 1–12. 

Farooqui, R. U., Ahmed, S. M., & Saleem, F. (2007). Analysis of workplace injuries 
among Hispanic construction workers due to safety hazards. In Fifth LACCEI 
International Latin American and Caribbean Conference for Engineering and 
Technology. Developing Entrepreneurial Engineers for the Sustainable Growth of 
Latin America and the Caribbean: Education, Innovation, Technology and Practice 
Vol. 29. 

Farooqui, R. U., Ahmed, S. M., and Lodi, S. H. (2008). Assessment of Pakistani 
Construction industry-current performance and the way forward. Journal for the 
Advancement of Performance Information and Value, 1(1), 51-72, 2008. 

Farooqui, R. U., Ahmed, S. M., and Panthi, K. (2007). Developing safety culture in 
Pakistani construction industry—An assessment of perceptions and practices among 
construction contractors. Proc., 4th Int: Conf. on Construction in the 21st Century: 



Lakhiar et al./Oper. Res. Eng. Sci. Theor. Appl. 4 (1) (2021) 99-114 

 

112 
 

Accelerating Innovation in Engineering, Management and Technology (CITC-IV), 
Griffith Univ., Gold Coast Campus, QLD, Australia, 420–437. 

Farooqui, R. U., Saqib, M., & Ahmed, S. M. (2008). Assessment of critical skills for 
project managers in Pakistani construction industry. In Proceeding of Conference on 
Construction in Developing Countries. pp. 4-5. 

Haseeb, M., Lu, X., Bibi, A., Dylan, M.-U., & Rabbani, W. (2011). Causes and effects of 
delays in large construction projects of Pakistan. Kuwait Chapter of Arabian Journal of 
Business and Management Review, 33(832), 1-25. 

Hassan, S. A. (2012). Health, safety and environmental practices in the construction 
sector of Pakistan, Masters dissertation, Civil Engineering and Built Environment, 
Uppsala University, Uppsala. 

Hinze, J., Hallowell, M., & Baud, K. (2013). Construction-safety best practices and 
relationships to safety performance. Journal of Construction Engineering and 
Management, 139(10), 04013006. 

https://www.ilo.org/global/about-the-ilo/newsroom/media-centre/issue-
briefs/WCMS_206117/lang--en/index.htm/ Accessed 18 December 2020. 

https://www.pbs.gov.pksites/default/files/Labour%20Force/publications/lfs_Annu
al_2012_13/salient_features.pdf/ Accessed 19 December 2020. 

International Labor Organization. Baluchistan province reaches consensus on labor 
legislation and labor policy. (2015).   
http://www.ilo.org/islamabad/info/public/pr/WCMS_357136/ langeen/index.htm/ 
Accessed 19 December 2020. 

International Labor Organization. Health and safety at work: facts and figures. 
(2013).  

International Labor Organization. World day for safety and health at work. (2009). 
https://www.ilo.org/safework/WCMS_108590/lang--en/index.htm/ Accessed 18 
December 2020. 

Jafri, S. F. (2012). Construction safety culture and promotion, conceptual approach 
based on the labor law of Pakistan, IOSR Journal of Mechanical and Civil Engineering 
(IOSRJMCE), 1(2), 24-27. 

Keng, T. C., & Razak, N. A. (2014). Case studies on the safety management at 
construction site. Journal of Sustainability Science and Management, 9(2), 90-108. 

Khan, M. I. (2013). Developing a safety culture in developing countries. International 
Conference on Safety, Construction Engineering and Project Management (ICSCEPM), 
Issues, Challenges and Opportunities in Developing Countries, August 19-21, 
Islamabad, 26-31. 

Larcher, P., & Sohail, M. (1990). Review of Safety in Construction and Operation for 
the WS&S Sector. Loughborough University, UK. 

Masood, R., Choudhry, R., Azhar, S., and Hinze, J. (2012). Mapping construction safety 
non-practice behavior with culture constructs. 3rd International Conference on 
Construction in Developing Countries (ICCIDC–III) Advancing Civil, Architectural and 
Construction Engineering and Management July 4-6, Bangkok, 320-327. 

Memon, Z. A., Khatri, K. L., and Memon, A. B. (2013). Identifying the critical factor 
affecting safety program performance for construction projects within Pakistan 
construction industry. Mehran University Research Journal of Engineering and 
Technology, 32(2), 269-276. 



Occupational health and safety performance in high-rise building projects in Pakistan: A 
systematic literature review 

 

113 
 

Mohamed, S., Ali, T. H., and Tam, W. Y. V. (2009). National culture and safe work 
behaviour of construction workers in Pakistan, Safety Science, 47(1), 29-35. 

Nawaz, T., Ishaq, A., and Ikram, A. A. (2013). Trends of safety performance in 
Construction and civil engineering projects in Pakistan. Civil and Environmental 
Research, 3(5),23-40. 

OHSA. Occupational Health and Safety Act and Regulations 85 of 1993. (2006). 
https://store.lexisnexis.co.za/products/occupational-health-and-safety-act-no-85-
of-1993-and-regulations-pocket-book skuZASKU9780639003078/details/ Accessed 
20 December 2020. 

OSHA. A Guide to Scaffold Use in the Construction Industry. (2002). 
https://www.osha.gov/Publications/OSHA3150/osha3150.html/ Accessed 19 
December 2020. 

Pakistan Bureau of Statistics. Labour Force Statistics. (2014). 

Pakistan Bureau of Statistics. Labour Force Statistics. (2018). 
http://www.pbs.gov.pk/sites/default/files//Labour%20Force/publications/lfs2017
_18/Anual%20Report%20of%20LFS%202017-18.pdf/ Accessed 16 December 2020. 

Raheem, A. A., & Hinze, J. (2012). Reasons for the poor implementation of worker 
safety in the construction industry of Pakistan: A contractor’s perspective. In CIB 
W099 International Conference “Modeling and Building Health and Safety”. 
Singapore. pp. 54-63. 

Raheem, A. A., & Issa, R. R. (2009). Safety implementation framework for Pakistani 
construction industry. Safety Science, 82, 301-314. 

Raheem, A. A., and Hinze, J. W. (2013). Understanding the safety culture of 
construction companies in Pakistan by analyzing safety policy manuals. International 
Conference on Safety, Construction Engineering and Project Management 
(ICSCEPM2013), Issues, Challenges and Opportunities in Developing Countries, 
August 19-21, Islamabad,66-71. 

Raheem, A. A., Hinze, J. W., Azhar, S., Choudhry, R. M., and Riaz, Z. (2011).   
Comparative analysis of construction safety in Asian developing countries, 6th 
International Conference on Construction in 21st Century (CITC-VI), Construction 
Challenges in the New Decade, July 5-7, Kuala Lumpur, 623-630. 

Raheem, A., and J. Hinze. (2013). Understanding the safety culture of construction 
companies in Pakistan by analyzing safety policy manuals. Proceedings of the 
International Conference on Safety, Construction Engineering and Project 
Management, Islamabad, August 19. Vol. 21. 

Raheem, A., Hinze, J. and Azhar, S. (2012). Injury/fatality data collection needs for 
developing countries, Proceedings of the Third International Conference on 
Construction in Developing Countries (ICCIDC-III), Bangkok, July 4-6. 

Riaz, Z., Arslan, M., Kiani, A. K., and Azhar, S. (2014). CoSMoS: A BIM and wireless 
sensor based integrated solution for worker safety in confined spaces. Automation in 
Construction, 45, 96-106. 

Rundmo, T., & Hale, A. R. (2003). Managers’ attitudes towards safety and accident 
prevention. Safety Science, 41(7), 557-574. 

Shakri, Amirah Silmi Ahmad. (2016). A Study on Health, Safety and Environment 
(HSE) Practice by Private Contractors at Selected Service Residence Construction 



Lakhiar et al./Oper. Res. Eng. Sci. Theor. Appl. 4 (1) (2021) 99-114 

 

114 
 

Sites in Klang Valley. Diss. Jabatan Kejuruteraan Kimia, Fakulti Kejuruteraan, 
Universiti Malaya. 

Sheikh, P., and Ali, T. H. (2013). Safety culture: A roadmap for sustainable safety. 
International Conference on Safety, Construction Engineering and Project 
Management(ICSCEPM-2013), Issues, Challenges and Opportunities in Developing 
Countries, August 19-21, Islamabad, 61-65. 

Singh, S. P., Tripathy, D. P., & Ranjith, P. G. (2008). Performance evaluation of cement 
stabilized fly ash–GBFS mixes as a highway construction material. Waste 
Management, 28(8), 1331-1337. 

Smith, G. S. (2001). Public health approaches to occupational injury prevention: do 
they work? Injury Prevention 1;7:i3-i10. 

Taufek, F. H. B. M., Zulkifle, Z. B., & Kadir, S. Z. B. A. (2016). Safety and health practices 
and injury management in manufacturing industry, Procedia economics and finance, 
35, 705-712. 

Vredenburgh, A. G. (2002). Organizational safety: which management practices are 
most effective in reducing employee injury rates? Journal of Safety Research, 33(2), 
259-276. 

Zahoor, H., Chan, A. P., Masood, R., Choudhry, R. M., Javed, A. A., & Utama, W. P. 
(2016). Occupational safety and health performance in the Pakistani construction 
industry: stakeholders' perspective. International Journal of Construction 
Management, 16(3), 209-219. 

Zahoor, H., Chan, A. P., Utama, W. P., Gao, R., & Zafar, I. (2017). Modelling the 
relationship between safety climate and safety performance in a developing 
construction industry. a cross-cultural validation study. International journal of 
environmental research and public health, 14(4), 351. 

Zahoor, H., Chan, A.P.C., Utama, W.P. and Gao, R. (2016). A research framework for 
investigating the relationship between safety climate and safety performance in the 
Construction of multi-storey buildings in Pakistan. Procedia Engineering, Vol. 118, pp. 
581-589. 

© 2021 by the authors. Submitted for possible open access publication under the 
terms and conditions of the Creative Commons Attribution (CC BY) 
license (http://creativecommons.org/licenses/by/4.0/). 
 


	Occupational Health and Safety Performance in High-Rise Building Projects in Pakistan: A Systematic Literature Review
	Muhammad Tarique Lakhiar 1*, Muhammad Tahir Lakhiar 2, Abd Halid Abdullah 1
	1. Introduction
	2. Literature review
	2.1. Nature of the Construction Industry in Pakistan
	2.2. Status of Occupational Safety in the construction industry
	2.3. Causes and Effects of Occupational Accidents in the Construction Industry
	2.4. Safety Culture in the Construction industry of Pakistan
	2.5. OHS training institutes in Pakistan
	3. Development of construction health and safety guidelines
	4. Construction health and safety education and training
	4.1. Accident reporting and investigation
	4.2. Temporary platform structure
	4.3. Personal protective equipment (PPE)
	4.4. Fall protection system

	5. Improving the existing regulatory infrastructure for worker health and safety
	6. Conclusion
	References