Exposure Injuries in an Academic Institution: Prevalence and factors influencing post exposure management.

Balgis Gaffar; Sarah Alqahtani; Fatimah Alsafer; Walaa Almallahi; Kawthar Abu Aziz; Zahra Almashhad; Soban Khan; Eman Bakhurji

doi:10.12688/f1000research.167094.1

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Research Article

Exposure Injuries in an Academic Institution: Prevalence and factors influencing post exposure management.

[version 1; peer review: awaiting peer review]

Balgis Gaffar ¹, Sarah Alqahtani², Fatimah Alsafer², [...] Walaa Almallahi², Kawthar Abu Aziz², Zahra Almashhad², Soban Khan³, Eman Bakhurji¹

Balgis Gaffar ¹, Sarah Alqahtani², [...] Fatimah Alsafer², Walaa Almallahi², Kawthar Abu Aziz², Zahra Almashhad², Soban Khan³, Eman Bakhurji¹

PUBLISHED 04 Aug 2025

Author details Author details

¹ Department of Preventive Dental Sciences - College of Dentistry, Imam Abdulrahman Bin Faisal University, Dammam, Eastern Province, Saudi Arabia
² College of Dentistry, Imam Abdulrahman Bin Faisal University, Dammam, Eastern Province, Saudi Arabia
³ Department of Dental Education - College of Dentistry, Imam Abdulrahman Bin Faisal University, Dammam, Eastern Province, Saudi Arabia

Balgis Gaffar
Roles: Conceptualization, Formal Analysis, Investigation, Supervision, Writing – Review & Editing

Sarah Alqahtani
Roles: Investigation, Methodology, Writing – Original Draft Preparation

Fatimah Alsafer
Roles: Investigation, Methodology, Writing – Original Draft Preparation

Walaa Almallahi
Roles: Investigation, Methodology, Writing – Original Draft Preparation

Kawthar Abu Aziz
Roles: Investigation, Methodology, Writing – Original Draft Preparation

Zahra Almashhad
Roles: Investigation, Methodology, Writing – Original Draft Preparation

Soban Khan
Roles: Formal Analysis, Methodology, Validation, Writing – Review & Editing

Eman Bakhurji
Roles: Project Administration, Supervision, Validation, Writing – Review & Editing

OPEN PEER REVIEW

REVIEWER STATUS AWAITING PEER REVIEW

This article is included in the Public Health and Environmental Health collection.

Abstract

Aim

Exposure injuries pose significant health risks to health care providers. Dentists are considered to be at high risk of occupational exposure, especially needlestick injuries. This study aimed to investigate the prevalence of exposure-injuries (EI) and the factors influencing post exposure management in an academic setting in the Eastern Province of Saudi Arabia.

Materials and methods

This retrospective study extracted information related to exposure injuries reported by dental care providers and staff working in an academic institution between 2016 and 2022. The chi-square test was used to measure the association between the study variables, and the statistical significance (p value) was set at < 0.05. Data were analyzed using the Statistical Package for Social Sciences (SPSS Software Version 23).

Results

A total of 100 EI were reported over a period of six years. These injuries mainly occurred during afternoon sessions (55%), were significantly more common in females (62.2%, p=0.013) and students (55.6%, p=0.002), and were mainly caused by needlesticks (71.9 %, p= 0.016). Immediate post exposure management and serological tests were performed by 85% and 86.6%, respectively, and were implemented significantly more frequently if the incidence occurred in the morning clinical session (p=0.035). Post exposure management was reported by females more than males (p=0.0130).

Conclusion

incidence of exposure injuries was high and more common among females and students. Post exposure management was influenced by factors such as sex, cause of injury, and time of occurrence. There is an urgent need for continuous training in the handling of sharps and the implementation of engineering controls.

Keywords

Needle stick injuries; exposure injuries; post exposure management; occupational injuries; dental students

Corresponding author: Balgis Gaffar

Competing interests: No competing interests were disclosed.

Grant information: The author(s) declared that no grants were involved in supporting this work.

Copyright: © 2025 Gaffar B et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

How to cite: Gaffar B, Alqahtani S, Alsafer F et al. Exposure Injuries in an Academic Institution: Prevalence and factors influencing post exposure management. [version 1; peer review: awaiting peer review]. F1000Research 2025, 14:762 (https://doi.org/10.12688/f1000research.167094.1) First published: 04 Aug 2025, 14:762 (https://doi.org/10.12688/f1000research.167094.1) Latest published: 04 Aug 2025, 14:762 (https://doi.org/10.12688/f1000research.167094.1)

Introduction

Dental practitioners are considered to be at high risk for occupational exposure, especially needle stick injuries.¹ The Centers for Disease Control and Prevention (CDC) defined occupational exposure as: “Exposures that occur through needlesticks or cuts from other sharp instruments contaminated with an infected patient’s blood (including blood-contaminated saliva) or through contact of the eye, nose, mouth, or skin with a patient’s blood.”² Needlestick injuries (NSIs) are considered one of the most serious health concerns in general and in dental practice, specifically due to their dangerous health consequences and frequently recorded incidents.³ NSIs are accidental skin penetrating wounds caused by sharp instruments in a medical setting.³ They are defined as “an accidental skin penetrating wound caused by hollow-bore needles such as hypodermic needles, blood-collection needles, Intravenous (IV) catheter stylets, and needles used to connect parts of IV delivery system, scalpels, and broken glass.”³

Exposure to NSI could result in several consequences that jeopardize general practitioners’ health.⁴ Approximately 3 out of 35 million HCWs worldwide are exposed to NSIs every year and are prone to blood-borne pathogens.⁴ Although NSI are associated with 20 different transmitted pathogens, blood-borne infections such as hepatitis C virus (HCV), hepatitis B virus (HBV), and human immunodeficiency virus (HIV) are the most prevalent diseases in the dental field.⁴ In addition to infectious diseases, hidden consequences that negatively affect general practitioners are usually not mentioned.⁵ Economic burden and psychological issues, such as stress and anxiety, and in extreme cases, can lead to disability and mortality.⁵ Mishaps, lack of experience, stress, and obligation overburden are considered causes of high exposure to NSI.⁶ Needlestick injuries usually occur when practitioners open, use, or discard instruments.⁶

In dentistry, approximately three in ten dental assistants experienced at least one NSI (29.8%) in private dental clinics, and the reported injuries were significantly associated with a lack of infection control knowledge, non-compliance with vaccination protocols, and working in dental clinics that had no infection control unit.⁵ Previous studies identified certain limitations in the investigation of NSIs, such as limitation of the resources, recall bias caused by self-reporting of NSIs, and lack of awareness about the importance of reporting, which resulted in underreporting of the incidents.^5,7 Furthermore, owing to the underreporting of incidents, it is difficult to estimate the actual occurrence of NSI incidents.⁸ A study conducted in 2018 showed that many factors contribute to underreporting issues, such as lack of knowledge about the importance of reporting incidents and the fear of getting blamed.⁸ Reporting of NSI is fundamental for prevention and treatment as it allows the assessment of the necessity for post-exposure prophylaxis, enables early diagnosis of infectious diseases, and reduces the stress of the exposed staff.⁹

The Occupational Safety and Health Administration (OSHA) stated that dental care providers should adhere to certain protocols for handling NSI.¹⁰ Injured dental practitioners are anticipated to perform immediate post-exposure evaluation and management, inform the supervisor, and proceed with writing the report.¹⁰ As HIV, hepatitis B, and hepatitis C are some of the risks associated with NSI, immediate prophylaxis is mandatory.¹⁰ Medical attention should be paid within hours of the incident.¹⁰ If the source is suspected of any blood disease, hepatitis B and C, and HIV blood tests are required.¹⁰ Post-management, B vaccines and HBIG are used as prophylactic treatments.¹⁰ The report should be finalized by practitioners and supervisors.¹⁰ According to the Centers for Disease Control (CDC), follow-up depends on the risk assessment of the patient starting at six weeks, three months, and six months.¹¹ The awareness and knowledge regarding preventive measures for NSI are deficient, which results in life-threatening blood-borne infections due to unsafe injection practices and lack of standard precautions.¹² Therefore, this study aimed to investigate the prevalence and associated risk factors of NSI in the Eastern Province of Saudi Arabia.

Materials and methods

Study design and setting

This retrospective study was conducted at the dental hospital of Imam Abdulrahman bin Faisal University (IAU) in Eastern Province, Saudi Arabia, from March to July 2023.

Study participants

Incident reports of IAU dental students, faculty, assistants, interns, patients, and housekeepers who were exposed to injuries from February 2016 to December 2022 were retrieved from the Quality Department/College of Dentistry IAU.

Data collection tool and procedure

We used a data extraction sheet prepared using Microsoft Excel. The sheet included information about 1) demographics (age, sex, designation), 2) time of incidence, 3) the person exposed, 4) department, 5) cause of incident, 6) explanation of the incident, 7) immediate post-exposure management, 8) any treatment or first aid required, 9) any follow-up treatment required, 10) why this incident happened, 11) serological test post-exposure, 12) and when the serological testing.

The independent variables of the study were demographics (age, sex, occupation), time of incidence, the person exposed, department, cause of faulty equipment, type of equipment and material, cause/defective material, explanation of the incident, immediate post-exposure management, any treatment or first aid required, any follow-up treatment required, why this incident occurred, serological test post-exposure, and when the serological test was undertaken. The dependent variable (study outcome) was the occurrence of exposure injuries.

Ethical considerations

This retrospective study utilized anonymized patient data extracted from dental records for research purposes. Ethical approval was obtained from Deanship of Scientific Research, Imam Abdulrahman Bin Faisal University (IRB-2023-02-143). Since the study involved only unidentified secondary data without patient interaction, the requirement for individual informed consent was waived. All data were handled in strict compliance with data protection laws and institutional confidentiality policies. Patient privacy and data security were upheld throughout the study, with access restricted to authorized researchers. The study team that collected the information was blinded and had no access to the names, personal information, or identifiers of the reports. To ensure the confidentiality of the records, the data extraction process was monitored by an officer from the quality department and was performed during working hours in a specified hour, and no records were taken or moved out of the designated area.

Statistical analysis

Data were anonymously coded and entered for statistical analysis using the Statistical Package for Social Sciences (SPSS Software Version 23). All available 100 records were included in the study, without any exclusion. Each variable was presented using basic statistics in the form of frequencies, percentages, means, and standard deviations. The chi-square test was used to measure the association between the study variables, and the statistical significance (P value) was set at ≤0.05.

Results

The prevalence of NSI in this study was 100, with a peak of 28 incidences in 2021 (Figure 1), and more injuries were reported during November (15 reports) (Figure 2). Table 1 presents the descriptive analysis of the collected data. NSI were more common among females (n = 61, 62.2%). The results also showed that over 8% of the incidents occurred during the afternoon clinical sessions, with NSI being more prevalent among students (55.6%), followed by Interns (29.3%). The most frequently reported sharp injury was the needle (71.9%). An explanation of the incidence was provided for most cases (68.4%). Immediate post exposure management and first aid were provided in 85.7% of reported cases. Serological tests were performed in 86.6% of the cases, of which 62.5% underwent the test performed on the same day as the incidence. The most common reason for injury was engaging in an unsafe working procedure (63.2%) ( Table 1).

Figure 1. Number of reported exposure injuries per year.

Figure 2. Month-wise number of reported exposure injuries.

Table 1. Descriptive statistics (N = 100).

	Frequency (%)
Gender
Male	37 (37.8)
Female	61 (62.2)
Time of incidence
AM	43 (44.3)
PM	54 (55.7)
Position
Student	55 (55.6)
Faculty	3 (3.0)
Assistant	11 (11.1)
Intern	29 (29.3)
Housekeeper	1 (1.0)
Source of Injury
Needle	46 (71.9)
Endodontic Instrument	7 (10.9)
Surgical Instrument	11 (17.2)
Faulty instrument
Yes	25 (25.8)
No	72 (74.2)
Defective material
Yes	3 (3.1)
No	93 (96.9)
Explanation of incidence
Yes	67 (68.4)
No	31 (31.6)
Immediate post-exposure management
Yes	84 (85.7)
No	14 (14.3)
First aid provided
Yes	86 (87.8)
No	12 (12.2)
Follow-up treatment
Yes	84 (88.4)
No	11 (11.6)
Reason of incidence
Unsafe working condition	14 (14.7)
Unsafe procedure	60 (63.2)
Defective equipment	3 (3.2)
Other	18 (18.9)
Serology test performed
Yes	84 (86.6)
No	13 (13.4)
When the test performed
Same day	50 (62.5)
A day after	21 (26.3)
After more than a day	9 (11.3)

Of the 46 incidences caused by needlestick, only 65.2% of the cases had explained the incidence. If the source of injury was an endodontic instrument, the explanation was provided in 71.4% of a total of 7 reported injuries. Remarkably, the cause or explanation of the incidence was completely provided for all exposures that occurred by the surgical instrument ( Table 2). While, if the injury occurred from a needle, the explanation was provided significantly fewer times than for other sources of injury (p = 0.016).

Table 2. Factors influencing post-exposure management.

Variables	Categories	Post-exposure management		P value
Gender		Yes N (%)	No N (%)
	Male	26 (74.3)	9 (25.7)	0.013^*
	Female	57 (93.4)	4 (6.6)	0.013^*
Dentalcare provider	Student	25 (45.5)	30 (54.5)	0.002^*
	Faculty	0^⁑	3 (100)
	Assistant	0^⁑	11 (100)
	Intern	12 (41.4)	17 (58.6)
Time of incidence	AM	40 (95.2)	2 (4.8)	0.035 ^*
Time of incidence	PM	43 (79.6)	11 (20.4)	0.035 ^*
First Aid provided	Yes	84 (97.7%)	2 (2.3%)	0.000 ^*
First Aid provided	No	0^⁑	12 (100)	0.000 ^*
Reason of incidence	Unsafe working condition	12 (85.7%)	2 (14.3%)	0.241
	Unsafe procedure	54 (90%)	6 (10%)
	Defective equipment	3 (100)	0^⁑
	Other	13 (72.2%)	5 (27.8%)
Type of sharp instruments	Needle	30 out of 46 (65.2)		0.016^*
	Endodontic instrument	5 out of 7 (71.4)
	Surgical instrument	11 (100)

* Statistically significant at a level of 0.05.

⁑ No responses in this category.

Compared to other sharps, needlestick were significantly associated with a higher incidence of exposure injuries (p = 0.016). In the current study, immediate post-exposure management was significantly higher if the incidence happened in the morning clinical session than in the afternoon clinical session (p = 0.035) ( Table 2). With regards to providing first aid after injury, it was found that a significantly high proportion received first aid 97.7% immediately after the injury, while only 2.3% did not receive immediate first aid after the injury (p = 0.000). In addition, a significantly higher proportion of females (93.4%) proceeded with the serology test than males (74.3%) (p = 0.0130). Similarly, irrespective of the position of the person who got injured, females had a significantly higher incidence of injuries (p = 0.002) ( Table 2).

Table 3 shows that none of the demographic factors were associated with exposure injuries.

Table 3. Factors associated with exposure injuries.

Variables	Categories	Type of instrument			P value
		Needle	Endodontic instrument	Surgical instrument
Gender	Male	10 (71.4%)	3 (21.4%)	1 (7.1%)	0.285
Gender	Female	36 (73.5%)	4 (8.2%)	9 (18.4%)	0.285
Person Exposed	Student	25 (71.4%)	4 (11.4%)	6 (17.1%)	0.598
	Faculty	2 (100%)	0	0
	Assistant	6 (66.7%)	2 (22.2%)	1 (11.1%)
	Intern	13 (76.5%)	1 (5.9%)	3 (17.6%)
	Housekeeping	0	0	1 (100%)
Reason of incidence	Unsafe working condition	10 (76.9%)	1 (7.7%)	2 (15.4%)	0.862
	Unsafe procedure	31 (72.1%)	5 (11.6%)	7 (16.3%)
	Defective equipment	1 (50%)	0	1 (50%)
	Other	3 (75%)	0	1 (25%)
Time of incidence	Morning	23 (69.7%)	4 (12.1%)	6 (18.2%)	0.918
Time of incidence	Afternoon	23 (74.2%)	3 (9.7%)	5 (16.1%)	0.918
Faculty Instrument	Yes	2 (66.7%)	0	1 (33.3%)	0.615
Faculty Instrument	No	44 (73.3%)	7 (11.7%)	9 (15.0%)	0.615
Defective material	Yes	1 (50%)	0	1 (50%)	0.486
Defective material	No	44 (72.1%)	7 (11.1%)	10 (16.4%)	0.486
Equipment/material type	Needle	28 (68.3%)	5 (12.2%)	8 (19.5%)	0.477
	Bur	5 (83.3%)	0	1 (16.7%)
	Scalpel	3 (75%)	1 (25%)	0
	Probe	3 (25%)	1 (25%)	0
	Syringe	2 (100%)	0	0
	Scaler	3 (100%)	0	0
	Other	2 (50%)	0	2 (50%)

* Statistically significant at a level of 0.05.

Discussion

The dearth of literature on the prevalence of exposure injuries among dental care providers in Saudi Arabia and worldwide highlights the need to address this critical research topic. This study evaluated the prevalence of exposure injuries among faculty members and dental students in an academic institution. The current investigation showed that the prevalence of exposure injuries was highest among students, females, and during afternoon sessions. The most common sources were needles. This is the first study to report the prevalence of exposure injuries in an academic institution, given the seriousness of the consequences. The findings of the current study can guide decision and policy makers in prioritizing training and awareness regarding post exposure management.

In the present study, needles were found to be the cause in two-thirds of the reported exposure injuries, followed by surgical instruments and endodontic files, similar to what was reported in Pakistan,⁸ Jeddah,⁵ Jezan,¹⁴ and Najran.³ These findings highlight the risk of exposure injuries associated with the instruments used in dental procedures, from administering local anesthesia to root canal treatment and ending with dental surgeries. There are many critical steps that increase the risk of exposure when using needles, for example, during injection of local anesthesia (LA), recapping, irrigation, suturing, fine-needle aspiration biopsy, or disposal of the needle. Compared with other uses of needles, needle pricks from dental anesthetic needles account for the highest proportion of needle exposure.¹⁵ These injuries occur more specifically during cheek retraction when the LA is injected.¹⁵ This incident can be prevented if the operator uses a modified retraction technique that involves retracting the cheeks using an examination mirror.¹⁵ Other preventive measures can be taken during needle capping, such as the one-handed scooping technique, using a disposable syringe, and using a safe (retractable) syringe.¹⁶

Moreover, we found that students followed by interns had more exposure injuries than did other dental care providers or employees. This observation is in agreement with a previous study in Riyadh, Saudi Arabia, which reported a significantly higher incidence of injuries among undergraduate students and interns.⁶ In another study, more than one-fifth of the interns sustained at least one NSI during clinical training.¹³ Students were the most affected dental care providers.¹⁹ On the other hand, Andrade et al. stated that incidences of sharp injuries increase with the age of the worker.²⁰ Additionally, Cheng et al. found that experienced clinicians reported more exposure injuries.²¹ A study conducted in 2021 showed that dental students in their undergraduate education in Saudi Arabia experience higher levels of anxiety, stress, and depression.¹⁷ This could be one of the reasons for the observed higher frequency among students.¹⁷ Coping and management strategies are recommended, and programs can be developed to improve students’ quality of life and mental health.¹⁷

Besides equipment-related factors, there are some demographic-related risk factors associated with an increased risk of NSI, which include gender, position, education, and age of the operator.⁷ Almost two-thirds of the reported incidents were among females, supporting previous studies.^{5,6,13,14,19,22} It is unclear whether females experienced a greater number of NSI exposures or whether they were more inclined to report NSI.¹³ Another reason that might explain the observed gender differences may be related to females being more anxious and stressed than males during clinical practice.¹⁷ This fact is believed to be true because females are more concerned about their health and the importance of post-exposure protocols.

A higher incidence of exposure injuries occurred during afternoon clinical sessions, in line with a recent study by Huang et al., which indicated that the majority of NSI exposures occurred between 1:00-3:00 PM.¹³ This might be related to healthcare providers working in a hurry to finish their procedures at the end of the day with more fatigue and less energy. This observation agrees with that of Fernandes et al.¹⁹ who found that the NSI was higher in the afternoon. In addition to psychological factors, experience and hand skills are contributing factors to increasing the chances of NSI.¹³ The lapse of concentration and fatigue can be minimized if healthcare providers are working with well-trained chairside assistants because inadequate training can increase the risk of having NSI with the dentist and the assistant, which is called peer-inflicted NSI.¹³

Reporting of exposure injuries is one of the mandatory guidelines that must be implemented to ensure accurate risk assessment and minimize exposure to bloodborne pathogens.¹⁸ In the current study, the peak of reported injuries was in 2021 post the COVID-19 period where reinforcing the infection control protocols after quarantine might have led the practitioner to be more committed to guidelines and report any injuries. In the same context, the majority of the cases were in the last quarter of the year, similar to what was reported by Huang et al.¹³ As the end of the year, students are prone to a variety of stresses associated with their studies; they are required to complete cases, specific requirements, performance evaluations, and clinical examinations. As future dentists who will provide dental care for the general population, dental students must be trained to effectively prevent occupational exposure.^23,24 This highlights the importance of documenting the frequency and circumstances of exposure injuries in identifying unsafe working circumstances and having an accurate risk assessment to minimize the NSI and hence the transmission of blood-borne pathogens. Implementing standard universal precautions in dental institutions is the best strategy for preventing occupational exposure.^23,24

A closer look at those injuries occurring in IAU academic institution shows that the overall rate of compliance with immediate post-exposure management was much higher than in other studies in Taiwan and Sweden.²³ Possible explanations for the high rate include¹ hospital policy that encouraged reporting,² the role of the hospital’s infection prevention team, and³ increased awareness over the years of the risks of infection transmission by needlestick injury. It is also important to mention that our protocol of post-exposure management includes first aid such as washing the injury site with water or using antiseptics to clean the wound, seeking guidance from doctors or the relevant department of the institution, and reporting followed by performing the required serological tests.

The main reason for incompliance with post exposure management was time.²³ When analyzing the time elapsed between the time of injury and further medical assessment by performing serological tests, it was found that in most cases, the ideally recommended time was respected. Nevertheless, the prevalence of individuals who delayed seeking postexposure care remains high. This condition is worrying because post exposure management becomes ineffective as time elapses.¹⁹

Trends in the frequency and profile of NSI exposure should be carefully monitored and evaluated, which allows the identification of hazardous practices and diminishes the risk of future exposure.¹ Reporting NSI is one of the mandatory guidelines that must be performed to ensure accurate risk assessment and minimize exposure to bloodborne pathogens.^25–27 Poor reporting contributes to an unclear picture of the incidence of needlestick injuries and hampers effective preventive measures.²⁵ Therefore, healthcare providers, including students and interns, should be encouraged to report incidences anonymously and increase their awareness that such reporting will not affect their grades or performance.

This study has certain limitations that need to be addressed. First, retrospective studies may have imposed a risk of recall bias. In addition, many confounding factors may be present but were not collected. The data were also extracted from one site, and future studies should include multiple institutions to allow better analysis of risk factors in comparison to different policies and post exposure protocols. Lastly, the retrospective nature of the study allows only the establishment of an association, but cannot determine causation.

Conclusion

The incidence of exposure injuries in the current study was high and mainly caused by needles. Females and students reported more exposure injuries, with these injuries occurring more frequently during the afternoon sessions. Post exposure management is influenced by sex, cause of injury, and time of occurrence. There is a need for continuous safety training, especially among students.

Data availability

The datasets analyzed during this study were derived from anonymized patient dental records, provided under strict confidentiality agreements with Imam Abdulrhman University Dental Hospital (IAU-DH). Due to ethical restrictions and institutional data protection policies, raw or processed data cannot be made publicly available to preserve patient privacy. Requests for limited, de-identified data may be considered on a case-by-case basis, subject to approval by the institutional ethics committee and compliance with applicable regulations. Researchers interested in collaborative access may contact IAU-DH for further inquiries.

Acknowledgments

The authors would like to thank the quality unit team and the medical director at the College of Dentistry, Imam Abdulrahman bin Faisal University for facilitating this study.

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