The upper limbs are the locations most affected by trauma 1. A high prevalence of upper limb injuries is present in all industrialized countries. Industrial machine operation predisposes workers to severe and incapacitating injuries that have become ordinary in the modern world 2. Frequently, these injuries are related to the inappropriate use of powerful tools, such as the removal of protection devices, nonergonomic operation and cutting of materials not suited for the machine. Despite this knowledge, no study has sought to explore this correlation in Brazil.

Machinery injuries account for a substantial share of traumatic upper limb injuries (TULIs). Young active patients and manual workers are particularly predisposed to hand lesions 3. Studies evaluating work-related TULIs revealed that 16.5% of injuries were caused by circular saws 4, and 56.8% were caused by machinery in general 5. Other studies found that machinery and power saws accounted for 14% to 34% of traumatic injuries 3,6. Power saws are frequently associated with severe hand injuries, mainly through blade contact, resulting in significant tissue destruction. These injuries result in amputation in 57% of the affected trauma patients, demonstrating the severity of injuries caused by high-energy contact.

The relevance of the problem is represented by not only its elevated prevalence but also its socioeconomic impact. The primary costs related to patient care and injury treatment are always coupled with enormous secondary burdens, which include lost wages, job readjustments and permanent disability. The period of rehabilitation must be considered in the analysis of the economic impact of injuries since this may be associated with the most significant loss 3,7,8. A study estimated an average of 64 days off from work after circular saw injuries, with a mean cost of over 30 thousand dollars per injury 9. In addition, the sequelae of these injuries generate long-lasting functional impairment that affects the patient's quality of life 8,10.

Prevention strategies can be elaborated after a thorough analysis of the lesions, the mechanisms of trauma and the demographic characteristics, with emphases on the direct and indirect aspects related to the operator. There is scarce information in the literature about TULIs and the risks related to the inappropriate use of circular saws. Although safety regulations have had a long-term impact 11, the prevalence of these injuries remains high; an analysis of their characteristics and the development of new preventive measures warrant attention.

This study is based on the hypothesis that there is an important relationship between the improper use of power saws and TULIs. The aim of the study is to verify the prevalence and epidemiology of TULIs caused by circular saws and to determine the risks related to circular saw use and misuse.

This study was designed as a cross-sectional analysis, and the reporting of results followed the Strengthening the Reporting of Observational Studies in Epidemiology (STROBE) statement guidelines 12. The study was performed in a single center (Hand and Upper Limb Surgery section of the Escola Paulista de Medicina – Federal University of São Paulo) and involved the evaluation of outpatients during a period of two years (May 2014 to May 2016). The study was self-funded by the authors, and all patients were treated by multiple surgeons from the university faculty. Records with information consistent with TULI caused by machinery were selected from the electronic medical record system. The institutional electronic record system contains mandatory International Classification of Diseases (ICD-10) codes for all treated patients as well as detailed information about trauma and injury agents. Therefore, medical records could be indexed by ICD-10 codes, and the codes related to penetrating injuries and their complications were selected. The database was analyzed separately by two authors.

Patient selection resulted in 193 records of TULI caused by machinery; 141 contacts were available to complete the preestablished questionnaire. No patient declined to enroll in the study. Thirty-seven patients were excluded due to avulsion or crushing injuries (due to gears, cogwheels, hydraulic presses, among other industrial machines). Therefore, the total number of patients with TULIs related to power saws was 104 (Figure 1). The majority of patients were male (102/104; 98.1%), right-handed (97/104; 93.3%), and manual workers (46/104; 44.2%), with a mean age of 46.8 years (ranging from 15-73 years, median=48; IQR=19). The labor categories are depicted in Table 1.

Figure 1.

Study flowchart.

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Most of the lesions were located on the fingers (Figure 2) and most commonly involved a single finger. The thumb was the most frequently injured site (32/93; 34.4%), usually on the left side. The detailed characteristics of the 93 injured fingers are shown in Table 2.

Figure 2.

Location of injuries in 104 patients.

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Manual saws accounted for the majority of the injuries, accounting for 81.7% (85/104) of the cases, while 18.3% (19/104) were related to stationary saws. Among the latter, the most common causes were table circular saws in 78.9% (15/19) of the cases, followed by band saws (2/19; 10.5%), surface planers (1/19; 5.3%) and table jointers (1/19; 5.3%).

Among the manual saws, most of the injuries resulted from accidents with masonry saws (58/85; 68.2%), followed by grinders (14/85; 16.5%), wood circular saws (9/85; 10.6%), hole saws (2/85; 2.3%), portable planers (1/85; 1.2%) and brush cutters (1/85; 1.2%). The prevalence of saw-related TULIs is summarized in Figure 3.

Figure 3.

Saw-related TULIs and the type of manual saw.

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Of the 58 cases related to masonry saws, 50 resulted from cutting wood (86.2%; CI=[77.3%, 95.1%]); all of the patients improperly used wood-cutting wheels adapted to the tool. When asked about their knowledge about proper application of masonry saws, 34/58 (58.6%) knew that its use for wood cutting was inappropriate.

The most common mechanism that produced the injuries was kickback (49/104; 47.1%), a phenomenon that occurs when the blade lifts the cutting material through a sudden lock with displacement toward the operator 13. The other mechanisms are summarized in Table 3.

The use of PPE at the time of the accident was reported by 69/104 (66.3%) patients. The risk (OR) of TULI was not related to the use of PPE (OR=0.77, 95% CI=0.3-1.7, p=0.52) when comparing manual and stationary saws. Likewise, for comparison of masonry saw with other saws, the use of PPE was not related to an increased risk (OR=0.84, 95% CI=0.3-2.4, p=0.74).

The majority of patients returned to the same work performed before the accident (64/104; 61.5%), with a mean of 6.8 months (median=6; IQR=9) of remission. When stratified by the type of saw, masonry saw accounted for an average time lost from work of 12.5 months (median=6; IQR=15), while the other saws accounted for an average of 10.9 months (median=5; IQR=8). There was no significant difference in the time away from work associated with masonry saws and other saws (Student's t=0.44; p=0.66).

The risk (OR) of TULI caused by masonry saws was 5 times higher in manual workers than in other patients (OR=5.0, 95% CI=2.1-11.7, p=0.0002). In addition, masonry saws presented a risk of kickback 15 times higher than that of other saws (OR=15.0, 95% CI=5.6-40.3, p<0.0001), and the risk of injury increased by 5.25 times when the saws were used improperly for wood cutting (OR=5.25, 95% CI=2.0-13.5, p=0.0006). The results of the ORs are consolidated in Table 4.

The high frequency of saw injuries and the details of their characteristics were analyzed in this study. The number of participants was consistent with the literature 8,9,14, with a representative sample from a quaternary hospital. Unlike other studies 1,2,15, we found a high frequency of injuries related to manual saws (81.73%), which may reflect the profile of national construction and domestic activities. In our country, the use of stationary saws has decreased due to the use of new building materials instead of wood resources. In addition, overall construction is not primarily based on wood, and many materials are received with premade factory cuts. On the other hand, hand saws have gained popularity for their use in minor cuts and adjustments onsite, as well as their widespread availability for nonoccupational projects, such as recreational woodworking. Due to their portability, versatility, practicality, lightness and ease in producing small cuts, manual saws are improperly used to cut a range of materials that are often not suitable for the technical characteristics of the tool 16.

Work-related injury reports are essential for developing and planning effective preventive strategies 17. The data generated can be used to elaborate studies that reflect the real socioeconomic impact of accidents and outline valid prevention strategies. However, underreporting is an inherent problem for several reasons, such as doubts about compensation eligibility; concerns about reputation, career, and employer retaliation; and even underestimation of the severity of the injury 18–21. Nonoccupational injuries, where notification becomes more neglected, deserve attention due to their significantly increasing prevalence and the involvement of different ages and professions 13. A potential limitation of the study is the assessment of patients treated in a hand surgery unit, which may not be representative of the entire country's injury patterns. There might be a concern regarding memory bias; however, it is less probable that patients may forget such a dramatic limb-threatening event.

We observed sex and age characteristics similar to those of other studies, with injuries predominant in economically stable and active men 1,2,4,13,15. Manual saws were responsible for the majority (81.73%) of injuries, emphasizing their high usage rate. Studies from around the world have demonstrated that power saws are related to severe trauma in the upper limbs, and the mechanisms by which these accidents occur should be better elucidated 8–10,14,21.

Blade contact is the most common scenario, causing serious injuries, such as amputations, in both the lumber industries and the home environment 13,21. A well-described phenomenon is kickback, in which the machine or the cutting material experiences a sudden increase in resistance with unexpected and uncontrolled recoil toward the operator. Disks may jump or break under these conditions. Kickback generally results from the inappropriate use, such as improper operating procedures or conditions, of the power tool. Kickback was the most common trauma mechanism in our study, occurring in 47.1% of cases, which is consistent with the literature 8,13,14,22,23. Table saws have safety regulations requiring safety devices to avoid these accidents; however, they are frequently removed by operators for better visualization 11,24.

Manual and portable saws are prone to inappropriate use and risky operation, such as cutting without support, cutting at an inappropriate height, not balancing material, and especially cutting materials that are not intended for the tool. The masonry saw is a very popular professional and domestic hand-held device due to its wide availability, low cost, ease of operation and portability. According to regulatory standards, this power tool was specifically designed for cutting stones, bricks, concrete, masonry, vitreous materials and ceramic coatings 25. Its powerful motor is able to achieve high rotations with less torque than larger diameter circular saws; thus, it is not designed for woodworking. Its recommended use in conjunction with diamond cut-off wheels is usually modified with wood blades that can be adapted to the saw despite their technical incompatibility.

This saw was the most frequent agent in our study, causing 55.8% of all the injuries. It was used for cutting wood in 86.2% (CI=[77.3%, 95.1%]) of cases, and all injuries were caused by wood blades improperly adapted to the tool. Observing the lower limit of the CI (77.3%), it is notable that the inadequate use of the marble saw may represent the majority of injuries caused by this device in the population of interest. In addition, we found that the frequency of lesions due to woodworking with masonry saws was higher than that of any other saw used for cutting wood (86% vs 54%, X2: 12,949, p=0.0003), resulting in a 5.25 times higher risk of TULI.

Prevention is the key to reducing saw-related injuries since 85% to 96% of injuries could be prevented 9; safety regulations have demonstrated success in reducing the incidence of saw accidents, especially in the young population 11. Direct prevention strategies involve the operator's awareness about the proper use of the tool. In the work environment, this can be achieved through regular training, the use of PPE, the application of ergonomic principles and an improvement in work organization 22. However, for nonoccupational injuries, these measures are ineffective, and awareness is limited to the product's instructions for use, which are often ignored by the consumer. We found a high frequency of patients who were aware of the inappropriate use of the marble saw (59.65%), reflecting the inefficacy of a direct prevention strategy for this piece of equipment. Indirect approaches help prevent accidents independent of the operator's understanding and tend to be more effective in both occupational and home environments. Among them, we highlight the safety devices that aim to avoid blade contact by kickback. After the establishment of regulations that require their use, there was substantial reduction in the incidence of injuries 11,23,24.

Limitations of the study include its cross-sectional design with a small sample size from a single hand surgery center. It was not possible to select a control group of uninjured patients to typically calculate risk, and the calculated odds may still be underestimated. These results may not reflect reality with extreme precision. However, this study could serve as a pilot study for prospective trials that monitor power tools injuries focusing on the frequency of injuries related to specific types of saws.

The typical scenario of TULI caused by saws in our study was a male manual worker who improperly utilized a masonry saw for woodworking. In this regard, the authors propose an indirect prevention strategy that could be very effective: modify the disk socket to make wood blades incompatible with masonry saws. User manuals of the most popular masonry saws on the market directly specify that their use for wood cutting is inappropriate. The manuals also alert the consumers to use only diamond cut-off wheels for the power tool and that just because other accessories can be attached to the saws, their safe operation is not assured. Although regulatory standards define procedures for noise management, ergonomic aspects, and debris generation among others 26, there are no stipulations regarding the proper use of masonry saws and the manufacturing of compatible disks. A formal regulation for different saw and blade sockets would effectively prevent the use of saws fitted with improper disks, forcing operators to use the appropriate tool for the procedure. Secondary measures include stating the indications of use on the equipment box, with a clear description of the risks of improper usage; training sellers and power tool retailers; and infractions to employers that authorize equipment misuse. For policy makers, elementary actions such as these could have reduced more than half of the TULIs reported in our study, drastically reducing the social and economic impact of these injuries.

The profile of TULIs related to power tools was demonstrated in this study. Injuries were caused mainly by hand-held saws and saws operated by manual workers. The improper use of masonry saws for wood cutting was the main cause of injury. In this study, the use of PPE did not seem to impact the risk of TULI.

Sabongi RG and Erazo JP acquired the data and analyzed and interpreted the power saw injuries database. de Moraes VY, Fernandes CH, dos Santos JBG, Faloppa F and Belloti JC made substantial contributions to the study conception and design, and the analysis and interpretation of the data. Sabongi RG, de Moraes VY and Belloti JC were involved in writing the manuscript and revising it for publication. All authors have read and approved the final version of the manuscript.