|Year : 2019 | Volume
| Issue : 2 | Page : 73-80
Knowledge, attitude, and practice of hand washing among healthcare workers in a tertiary health facility in northwest Nigeria
Muhammad Bello Garba, Luka Bright Uche
Community Medicine Department, Ahmadu Bello University Teaching Hospital, Zaria, Nigeria
|Date of Submission||15-May-2019|
|Date of Decision||19-Jun-2019|
|Date of Acceptance||18-Aug-2019|
|Date of Web Publication||13-Dec-2019|
Dr. Muhammad Bello Garba
Community Medicine Department, Ahmadu Bello University Teaching Hospital, Zaria, Kaduna State
Source of Support: None, Conflict of Interest: None
Background: Healthcare-associated infections (HAIs) affect 1.7 million patients at any time worldwide, causing important morbidity and mortality. Up to 40% of all HAIs are thought to be transmitted by the hands of healthcare workers (HCWs). Hand washing is the most effective way of preventing the spread of infectious diseases in healthcare settings. This study assessed knowledge and practice hand washing among HCWs in Ahmadu Bello University Teaching Hospital, a tertiary healthcare center in Zaria, Kaduna State, northwestern Nigeria. Methods: A cross-sectional descriptive study was carried out among 116 HCWs selected using stratified sampling technique. Data were collected using interviewer-administered semistructured questionnaire and observation checklist using Epi Info mobile version 188.8.131.52 (United States Centres for Disease Control and Prevention (CDC), February 2018). Data were analyzed using SPSS software version 23. Results: Respondents of the study were nurses (37.9%), doctors (31.9%), and laboratory (18.1%) and supportive (12.1%) staff. About three-quarter (72.4%) of the HCWs had good knowledge and 62.0% exhibited positive attitude toward hand washing technique, based on the World Health Organization recommendations. Overall, good adherence to proper hand washing was found among 55.2% of the respondents. Respondents’ professional cadre and unit of work, and their level of knowledge and attitude toward proper hand washing practices were shown to be significantly associated with their adherence to the practice (P < 0.05). Conclusion: Individual and institution-level factors were found to influence adherence to proper hand washing practices among the respondents.
Keywords: Hand washing, healthcare workers, knowledge, practices
|How to cite this article:|
Garba MB, Uche LB. Knowledge, attitude, and practice of hand washing among healthcare workers in a tertiary health facility in northwest Nigeria. J Med Trop 2019;21:73-80
|How to cite this URL:|
Garba MB, Uche LB. Knowledge, attitude, and practice of hand washing among healthcare workers in a tertiary health facility in northwest Nigeria. J Med Trop [serial online] 2019 [cited 2022 Jun 29];21:73-80. Available from: https://www.jmedtropics.org/text.asp?2019/21/2/73/272912
| Background|| |
Healthcare-associated infections (HAIs) are important cause of significant morbidity and mortality. These infections affect patients’ safety, health outcome, cost of care, and the loss of labor force among healthcare workers (HCWs). An estimated 1.7 million cases occur annually resulting in 99,000 deaths worldwide, 25 million extra days of hospital stay, and economic burden of €13 to 24 billion per year in Europe alone., The burden of HAIs is as twice in developing countries like Nigeria as what obtains in developed countries, put at 15% to 31% as against 5% to 15%, respectively. Half of all HAIs are transmitted by contaminated hands of HCWs. Methods used for the prevention and control of HAIs include cleaning, disinfection, sterilization, asepsis, hand hygiene, patient isolation, and epidemiological surveillance. Proper hand washing works by breaking the chain of cross-contamination of the infectious agents.
Although proper hand washing is shown to be a single important, very easy, and cost-effective procedure of preventing the spread of infectious diseases in the healthcare settings, its practice by HCWs is observed to be universally low. Even in countries with robust national and institutional protocols and training opportunities, about a half of the HCWs fail to comply with the set standards of proper hand washing. However, few studies conducted in tertiary hospitals in Nigeria documented high adherence to hand washing practices among HCWs. A high knowledge level was found among majority of respondents in Calabar, Kano, and Lagos. The levels of good adherence reported range from 69.9% in Lagos, 70.3% in Calabar, to 73.4% in Kano.,, Up to three-quarters of the respondents in Kano have had training on hand hygiene practices. Using observation checklist, researchers in a teaching hospital and a faith-based health facility in Jos, North Central Nigeria, reported an adherence level of 56.8%. After observing 406 hand hygiene opportunities, another study in Jos documented a lower adherence level of 31.0% ranging from 21.0% before touching a patient, through 23.0% before performing invasive procedure to 63.0% after body fluids contact. Multicenter studies demonstrate that adherence to hand washing is highest among nurses, high among HCWs in intensive care units (ICUs) and those who had training on proper hand washing, and least among physicians.,,, Evidence shows that in addition to institutional factors, individual factors among HCWs also strongly influence their adoption of proper hand washing. There are varying reports by different studies on the relationship between knowledge of the benefits of hand washing and its practice. Some studies demonstrate that good knowledge of proper hand washing significantly influence adherence with hand washing standards. Conversely, other studies document that adherence with hand washing standards is significantly influenced by the HCWs attitude irrespective of the level of knowledge of what constitutes proper hand washing. Other important determinants of adherence to hand washing are the type and availability of facilities and equipment in the hospitals, understaffing, and crowding.,,
Despite the public health importance of HAIs in developing countries, both national and institutional capacities on HAIs prevention and control and implementation capacities in these countries remain weak. There has been a growing international focus on preventing HAIs through hand hygiene in the last decade, and level of adherence to the guidelines by individual practitioners is becoming particularly important in developing countries of sub-Saharan Africa because of re-emergence epidemics of viral hemorrhagic fevers in epidemic proportions in recent years. Notably, these diseases such as Ebola virus disease and Lassa fever are spread secondarily in the healthcare setting. Despite this, few studies assessed adherence of HCWs to hand washing practices in these settings. This study assessed knowledge and practice of hand washing among HCWs in Ahmadu Bello University Teaching Hospital in Zaria, Kaduna State, northwest Nigeria.
| Materials and methods|| |
This cross-sectional descriptive study was conducted among HCWs of Ahmadu Bello University Teaching Hospital Zaria, one of the major referral tertiary facilities in northwest Nigeria. The hospital is a 1000-bedded center, with an annual patient turnover of over 10,000 patients, seen in 17 wards and units. The hospital has a total workforce of 1869 consisting of 624 doctors, 714 nurses, 44 pharmacists, 160 laboratory staff, and 327 health assistants. The hospital has an infection control committee established in 2003, whose functions include, among other things, promoting hand hygiene among HCWs.
One hundred sixteen HCWs directly involved in patient care and who had spent at least 6 months in the service of the hospital were included in the study.
Sample size determination
A sample size of 116 was computed using formula for descriptive studies at 0.05 degree of precision and a proportion of respondents with good knowledge of the components of proper hand washing (91.8%) in a previous study.
Two-stage stratified sampling technique was used to select respondents for the study. First, eight wards and units of the hospital were selected. These included intensive care and special baby care units; accident and emergency; pediatrics; medicine; surgery; obstetrics and gynecology; as well as laboratory and support services with staff populations of 46, 78, 84, 104, 171, 168, and 171, respectively. Equal number of respondents was allocated from the selected wards/units. Second, clinical professional groups were each taken as a stratum and proportionate method of allocation was used. In each unit, respondents were selected across professional cadre using simple random sampling by balloting, the staff list in the unit served as the sampling frame. Therefore, a total of 44 nurses, 37 doctors, and 35 laboratory and other staff were selected.
Data collection tools
Data were collected using semistructured interviewer-administered questionnaire and observation checklist adapted from the previous studies.,
Data collection technique
Data were collected by three trained research assistants (RAs) over 3 weeks using Epi mobile-enabled smartphones. Data were collected in 3 days in each unit; two RAs conducted the interview, whereas the other RA documented the observations using the checklist.
Measurement of variables
The primary dependent variable measured was level of adherence, whereas independent variables measured were age, cadre, level of education, level of knowledge of proper hand washing, presence of hand washing guidelines/protocols, training opportunities in workstation, and institutional supervisory mechanism on hand washing practices. There were 30 items on the knowledge of hand washing, which included, among other things, the World Health Organization’s five moments of hand hygiene: before touching a patient, before aseptic procedure, after body fluid exposure risk, after touching a patient, and after touching patient surrounding. Each correct response was given a score 1, and nonresponse and incorrect response were scored zero. This was then converted into percentage and graded as good knowledge (≥60%), fair (40%–59%), and poor (0%–39%). Respondents attitude toward hand washing was assessed by 16 questions and each scored 1 point. An average score of 8 or better was regarded as positive attitude whereas a score of 0 to 7 was negative attitude. Frequency of hand washing was assessed as always, sometimes, and not at all. The level of practice was assessed by observing adherence to the 12 steps of hand hygiene: wet hands with water, apply enough soap to cover all hand surfaces, rub hands palm to palm, right palm over the back of the other hand with interlaced fingers and vice versa, palm to palm with fingers interlaced, backs of fingers to opposing palms with fingers interlocked, rotational rubbing of left thumb clasped in right palm and vice versa, rotational rubbing backward and forward and forward with clasped fingers of right hand in left palm and vice versa, rinse hands with water, allow the hands to air dry, use elbow to turn off tap, and steps 3 to 8 should take at least 15 seconds. Hand washing practice is adjudged as completed if the participant followed all the 12 steps, partial for 1 to 11, and none for zero.
Data were analyzed using IBM SPSS version 20. Bivariate analysis to assess significant statistical association between dependent and independent variables was conducted using χ2 at 0.05 alpha level of significance.
Ethical approval from Ethics and scientific Committee of the hospital and permission from various unit heads were obtained. Informed written consent was obtained from individual participants, voluntariness of participation, and confidentiality were ensured. Data collected were deidentified, coded, and stored in an encrypted and password-protected personal computer.
One major limitation of the study lies with self-reporting of practice of hand washing; this was partly addressed by observation using a checklist. Hawthorne effect was minimized because although participants were aware that the study involved observation, they were not informed while the observation was taking place.
| Results|| |
A total of 116 questionnaires were distributed and all were returned, giving a response rate of 100%. The mean age of the respondents in this study was 38.03 ± 8.6 years, with majority (80.3%) of them within a range of 25 to 49 years. Females constituted 56.9% of the respondents, giving a male-to-female ratio of 1:1.4. The respondents were made up of nurses (37.9%), doctors (31.9%), laboratory (18.1%), and supportive staff (12.1%) as shown in [Table 1].
About three-quarters (72.4%) of the respondents exhibited good knowledge of hand hygiene, with only more than a quarter (27.6%) having poor knowledge [Figure 1]. Majority of respondents were aware of the World Health Organization’s five moments of hand washing, ranging from 80% of the respondents who stated that one needs to wash his/her hands before touching a patient to 88.8% who mentioned need for hand washing after touching a patient.
All the doctors (100%) and 90.5% of nurses had good knowledge of hand hygiene, compared to 20.0% each of support staff and laboratory technologists, respectively. Respondents from pediatric, surgical, and those in ICU and special baby care baby unit had better knowledge of hand hygiene, whereas staff working in emergency units (57.7%), obstetrics and gynecology, as well as medical (76.9%) wards had lower knowledge level. Additionally, the results show that staff working in units with higher availability of hand washing materials had better knowledge of hand washing. The association between respondents’ knowledge of hand washing with their professional cadre (P < 0.0001) and workstation (P = 0.002) was found to be statistically significant [Table 2]. Majority of respondents (62.0%) were also shown to have positive attitude toward hand washing [Figure 2].
More than half (55.2%) of the respondents had good adherence to proper hand washing practices [Table 3]. Concerning frequency of practice of hand hygiene during the various recommended moments for hand washing, majority of the respondents (85.0%) reported that they always practice hand hygiene on exposure to body fluids from patients 100 (86.2%) and after using the toilet 84 (85.0%), respectively [Table 4].
Asked to rate availability of hand hygiene materials, 62 (53.4%) of respondents indicated availability of a running tap being always available in their department/workstation whereas 84 (72.4%), 40 (34.5%), and 39 (33.6%) of the respondents indicated that hand hygiene standard operating procedures, dryer/disposable tissue, and posters/flyers on hand hygiene are not available at their department/workstation, respectively. Direct observation in the wards, however, reveals that the availability of running tap, soap, or alcohol-based hand rub was largely partial and infrequent [Table 5]. Furthermore, except for a short period during the Ebola epidemic in Nigeria and shortly after, supervisory activities on hand washing were not practiced in the hospital. More than half (55.0%) of the respondents reported ever having a structured training on proper hand washing within a year preceding the study [Figure 3].
|Figure 3: Proportion of the respondents who had training on hand washing.|
Click here to view
Factors found to be significantly associated with level of adherence to hand washing were respondents’ professional cadre (P < 0.0001), knowledge of what constitute proper hand washing (P < 0.0001), and their attitude toward hand washing practices (P < 0.0001) as shown in [Table 6].
|Table 6: Factors associated with respondents’ adherence to proper hand washing practices|
Click here to view
| Discussion|| |
Hand washing has been considered to be a cost-effective tool in the control of HAIs and is accepted throughout the health community as a basic clinical procedure essential for safety of patients and HCWs alike., But different studies report varying levels of appreciation of its benefits and adherence to standard hand washing practices.,,,,
More than half of the respondents in this study exhibited good adherence to proper hand washing practices. This finding is consistent with the adherence levels reported globally and the levels observed in Jos, north-central Nigeria. The result is, however, lower than what was reported by earlier works in other tertiary institutions in Lagos, Calabar, and Kano, Nigeria.,, This is, however, higher than the levels observed in the other study conducted in Jos, north-central Nigeria. This may be because this study and the latter study in Jos employed observation as a means of assessing adherence to hand washing practices as against in the other studies.
This study also documented high knowledge and positive attitude toward hand washing, among majority of the respondents. This also follows the same trend of comparison with existing evidence, which reported good-to-excellent knowledge of hand washing among health workers.,,,
It was also found that professional cadre of the respondents was strongly associated with their adherence to hand washing practices, with nurses performing better than doctors and the two better than laboratory scientists and support staff. Similarly, staff working in surgery, obstetrics and gynecology, ICU, and special baby care baby unit had better knowledge than those in medicine and family medicine/outpatients. This is also in keeping with findings of other studies of differential knowledge of hand washing across professional groups and by workstation.,,, The possible explanation for these findings is that having contact with patients and their body fluids including performing clinical procedures is linked their perception of risk of HAIs among HCWs and thus their level of interest and knowledge on hand hygiene.,, Although respondents reported absence of any supervisory mechanism on hand hygiene practices in the facility, more than half of the respondents have had special training on hand washing in the year preceding the study. This contrasts with the results of the study in Calabar, south-south Nigeria, where less than half had attended any training on hand washing in the last 10 years prior to the survey.
Although shown to be significantly associated, respondents’ adherence to hand washing practices did not keep pace with the level of knowledge and positive attitude they demonstrated toward hand washing. This brings to effect the contribution of institutional factors found to be also significantly associated with the HCWs actual performance of these otherwise simple but effective procedures. One of such factors found to be significantly associated with adherence to hand washing in this study was availability of hand washing facilities in the workstation. This level of low compliance to hand washing practices owing to lack of needed essential facilities is reported in several low and middle-income countries.,,,,,, One reason for concern is that majority of these results come from tertiary centers, which are expected to be centers of excellence. It is therefore highly probable that what obtains in the lower tiers of the healthcare centers, which serve the vast majority of the populace, is much lower. The implications of this institutional weakness in infection control measures could be seen in the HCWs inability to protect themselves even in event of crises, despite their good knowledge of what to do and willingness to do. This was demonstrated in the high morbidity and mortality recorded in the recent outbreaks of viral hemorrhagic fevers in West Africa such as Ebola virus and Lassa fever diseases, among HCWs and the general population.
One major limitation of this and many similar studies was reliance on HCWs to report their own performance with regard to their adherence to hand washing practices. Despite the theoretical concern of over reporting in these circumstances, comparison with direct observation by HCWs actual practices reveals only a small variation and the adherence levels remain generally low.,,, Counting hand washing opportunities and observing practitioners practice is a method that could give a more precise adherence level and show the true gap between reported and observed hand hygiene practices.
| Conclusion|| |
Good adherence to hand washing practices was found only among about half of HCWs. Availability of hand washing materials and institutional support were found to be significantly associated with adherence level. Promoting HCWs safety at work such as improving availability of hand washing material, training opportunities, and supervisory mechanism are recommended.
Financial support and sponsorship
Conflicts of interest
There are no conflicts of interest.
| References|| |
Maingi M. Factors influencing compliance with hand hygiene guidelines among healthcare providers in Kenya: a case of Embu Level Five hospital, Embu county. Available at http://hdl.handle.net/11295/92963
. [Accessed April 13, 2019].
Teker B, Ogutlu A, Gozdas HT, Ruayercan S, Hacialioglu G, Karabay O. Factors affecting hand hygiene adherence at a private hospital in Turkey. Eurasian J Med 2015; 47:208–12.
Sadeghi L, Khodadadi E, Sadeghi R, Bavani SM, Almasi K, Foolad M. Investigating the factors affecting on hand hygiene compliance from the viewpoints of Iranian nurses who working in intensive care units. J Res Med Dent Sci 2018; 6:93–8.
Gluck PA, Nevo I, Lenchus JD, Sanko JS, Everett-Thomas R, Fitzpatrick M et al.
Factors impacting hand hygiene compliance among new interns: findings from a mandatory patient safety course. J Grad Med Educ 2010; 2:228–31.
Ekwere TA, Okafor IP. Hand hygiene knowledge and practice among healthcare providers in a tertiary hospital in South West Nigeria. Int J Infect Contr 2013; 9:1–10.
Bello S, Effa EE, Okokon EO, Oduwole OA. Hand washing practice among healthcare providers in a teaching hospital in southern Nigeria. Intl J Infect Contr 2015; 9:1–7.
Gwarzo GD. Hand hygiene among healthcare workers in a public hospital in North-Western Nigeria. Niger J Basic Clin Sci 2018; 15:109–13.
Afolaranmi TO, Hassan ZI, Nianglong EN, Adem II, Atsi AB, Onyedibe KI et al.
Hand hygiene: a self-reported practice among health care workers in tertiary health institutions in plateau state, Nigeria. Int J Biomed Res 2018; 9:148–58.
Shehu NY, Onyedibe K, Mark O, Gomerep S. Assessment of hand hygiene compliance among health care workers in a Nigerian tertiary hospital. Antimicrob Resist Infect Contr 2017; 6(52 suppl 3):57.
Winship S, McClunie-Trust P. Factors influencing hand hygiene compliance among nurses: an integrative review. Kai Tiaki Nurs Res 2016; l7:19–25.
Abdella N, Tefera MA, Eredie AE, Landers TF, Malefia YD, Alene K. Hand hygiene compliance and associated factors among healthcare providers in Gondar University Hospital, Gondar, North Western Ethiopia. BMC Public Health 2014; 14:96.
Majidpour A, Shari’at MH. Hand washing study in health care workers of a tertiary teaching hospital in Iran. Eur J Prev Med 2014; 2:16–9.
Mani A, Shubangi A, Saini R. Hand hygiene among health care workers. Indian J Dent Res 2010; 21:115.
] [Full text]
Alex-Hart BA, Opara PI. Handwashing practices amongst health workers in a teaching hospital. Am J Infect Dis 2011; 7:8–15.
Muhsin K, Abdal Eziz MB. Assessment of knowledge, attitude and practice of hand washing among health care workers in Ain Shams University hospitals in Cairo. J Prev Med Hyg 2009;50:19–25.
Tai J, Mok E, Ching P, Seto W, Pittet D. Nurses and physicians’ perceptions of the importance and impact of healthcare-associated infections and hand hygiene: a multi-center exploratory study in Hong Kong. Infection 2009; 37:320–33.
Al-Tawfiq JA, Abed MS, Al-Yami N, Birrer RB. Promoting and sustaining a hospital-wide, multifaceted hand hygiene program resulted in significant reduction in health care-associated infections. Am J Infect Contr 2013; 41:482–6.
Denue BA, Stephen M, Dauvoux I. The unending threat of Lassa fever in Nigeria, what can be done; what should be done. Port Harcourt Med J 2017; 11:113–21. [Full text]
[Figure 1], [Figure 2], [Figure 3]
[Table 1], [Table 2], [Table 3], [Table 4], [Table 5], [Table 6]