Improving Adherence to Hand Hygiene Practice: A Multidisciplinary Approach.Hand hygiene prevents cross-infection in hospitals, but health-care workers' adherence to guidelines is poor. Easy, timely access to both hand hygiene and skin protection is necessary for satisfactory hand hygiene behavior. Alcohol-based hand rubs may be better than traditional handwashing as they require less time, act faster, are less irritating, and contribute to sustained improvement in compliance associated with decreased infection rates. This article reviews barriers to appropriate hand hygiene and risk factors for noncompliance noncompliance failure of the owner to follow instructions, particularly in administering medication as prescribed; a cause of a less than expected response to treatment. noncompliance and proposes strategies for promoting hand hygiene. Hand hygiene is the simplest, most effective measure for preventing nosocomial infections Nosocomial infections Infections that were not present before the patient came to a hospital, but were acquired by a patient while in the hospital. Mentioned in: Enterobacterial Infections, Staphylococcal Infections (1,2). Despite advances in infection control and hospital epidemiology, Semmelweis' message is not consistently translated into clinical practice (3,4), and health-care workers' adherence to recommended hand hygiene practices is unacceptably low (3,5-10). Average compliance with hand hygiene recommendations varies between hospital wards, among professional categories of health-care workers, and according to according to prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. working conditions, as well as according to the definitions used in different studies. Compliance is usually estimated as [is less than] 50% (Table 1).
Table 1. Compliance with hand hygiene in different hospital settings
Average
Year Setting compliance Author Ref.
1981 Open ward 16% Preston 11
ICU 30%
1981 ICUs 41% Albert 5
ICUs 28%
1983 All wards 45% Larson 12
1987 PICU 30% Donowitz 13
1990 ICU 32% Graham 6
1990 ICU 81% Dubbert 14
1991 SICU 51% Pettinger 15
1992 NICU/others 29% Larson 16
1992 ICUs 40% Doebbeling 7
1992 ICUs 40% Zimakoff 17
1994 Emergency room 32% Meengs 18
1999 All wards 48% Pittet 9
ICUs 36%
ICUs = intensive care units; PICU = pediatric ICU; NICU = neonatal
ICU.
Promotion of hand hygiene is a major challenge for infection control experts (3,19-21). In-service education, distribution of information leaflets, workshops and lectures, and performance feedback on compliance rates have been associated with transient improvement (3,6,13,22,23). No single intervention has consistently improved compliance with hand hygiene practices (24). This review summarizes factors influencing lack of adherence by health-care personnel to hand hygiene procedures and suggests strategies for improvement. Definitions Two major groups of microorganisms are found on the skin: organisms that normally reside on it (resident flora) and contaminants (transient flora) (25). Unless introduced into body tissues by trauma or medical devices such as intravenous catheters, the pathogenic potential of the resident flora is low (26). Transient flora, which are easily removed by handwashing, cause most hospital infections resulting from cross-transmission (27-29). The term hand hygiene includes several actions intended to decrease colonization with transient flora. This objective can be achieved through handwashing or hand disinfection disinfection, n the process of destroying pathogenic organisms or rendering them inert. disinfection, full oral cavity, n a procedure used to reduce active periodontal disease, usually completed within a certain short time frame. . Handwashing refers to washing hands with an unmedicated detergent and water or water alone. Its objective is to prevent cross-transmission by removing dirt and loose transient flora (10,30). Hygienic hy·gien·ic adj. 1. Of or relating to hygiene. 2. Tending to promote or preserve health. 3. Sanitary. handwash refers to the same procedure when an antiseptic antiseptic, agent that kills or inhibits the growth of microorganisms on the external surfaces of the body. Antiseptics should generally be distinguished from drugs such as antibiotics that destroy microorganisms internally, and from disinfectants, which destroy agent is added to the detergent. Hand disinfection refers to use of an antiseptic solution to clean hands freedom from guilt, esp. from the guilt of dishonesty in money matters, or of bribe taking. See also: Hand , either medicated medicated /med·i·cat·ed/ (med´i-kat?id) imbued with a medicinal substance. medicated contains a medicinal substance. soap or alcohol. Some experts refer to the action of "degerming" as the use of detergent-based antiseptics Antiseptics Definition An antiseptic is a substance which inhibits the growth and development of microorganisms. For practical purposes, antiseptics are routinely thought of as topical agents, for application to skin, mucous membranes, and inanimate or alcohol (21). Hygienic hand rub is rubbing hands with a small quantity (2 mL to 3 mL) of a highly effective, fast-acting antiseptic agent. Hand Hygiene Agents If hands are known to be or suspected of being contaminated contaminated, v 1. made radioactive by the addition of small quantities of radioactive material. 2. made contaminated by adding infective or radiographic materials. 3. an infective surface or object. , transient flora must be eliminated by washing or disinfecting the hands to render them safe for the next patient contact. Plain soap with water can physically remove a certain level of microbes, but antiseptic agents are necessary to kill microorganisms (10,31-33). Hand antiseptic agents are designed to rapidly eliminate most transient flora by their mechanical detergent effect and to exert an additional sustained antimicrobial antimicrobial /an·ti·mi·cro·bi·al/ (-mi-kro´be-al) 1. killing microorganisms or suppressing their multiplication or growth. 2. an agent with such effects. activity on remaining flora. The multiplication of resident flora may be retarded as well, so that hand disinfection may be useful in situations in which microbiologically clean hands are required for extended periods. Rotter showed that hand hygiene with unmedicated soap and water removed some transient flora mechanically; preparations containing antiseptic or antimicrobial agents Antimicrobial agents Chemical compounds biosynthetically or synthetically produced which either destroy or usefully suppress the growth or metabolism of a variety of microscopic or submicroscopic forms of life. not only removed flora mechanically but also chemically killed contaminating con·tam·i·nate tr.v. con·tam·i·nated, con·tam·i·nat·ing, con·tam·i·nates 1. To make impure or unclean by contact or mixture. 2. To expose to or permeate with radioactivity. adj. and colonizing flora, with long-term residual activity (30,34). Alcohol-based preparations have more rapid action than products containing other antiseptics (e.g., chlorhexidine gluconate Chlorhexidine gluconate is a chemical antiseptic. [1] It kills (is bactericidal to) both gram-positive and gram-negative microbes, although it is less effective with some gram-negative microbes. [2] It is also bacteriostatic. or povidone iodine povidone iodine n. A topical preparation containing povidone and iodine, used for antisepsis of the skin. ) (30,31,35). Semmelweis observed that normal handwashing did not always prevent the spread of fatal infection (1) and recommended hand disinfection in a solution of chlorinated chlorinated /chlo·ri·nat·ed/ (klor´i-nat?ed) treated or charged with chlorine. chlorinated charged with chlorine. chlorinated acids some, e.g. water before each vaginal examination. Hand disinfection is substantially more efficient than standard handwashing with soap and water or water alone (2,30), particularly when contamination is heavy (14,36-40). Frequent handwashing may result in minimal reduction or even an increase in bacterial yield over baseline counts of clean hands (21,41). Because alcohols have excellent activity and the most rapid bactericidal bactericidal /bac·te·ri·ci·dal/ (bak-ter?i-si´d'l) destructive to bacteria. Bactericidal An agent that destroys bacteria (e.g. action of all antiseptics, they are the preferred agents for hygienic hand rubs, so-called "waterless hand disinfection." In addition, alcohols are more convenient than aqueous aqueous /aque·ous/ (a´kwe-us) 1. watery; prepared with water. 2. see under humor. a·que·ous adj. solutions for hygienic hand rubs because of their excellent spreading quality and rapid evaporation evaporation, change of a liquid into vapor at any temperature below its boiling point. For example, water, when placed in a shallow open container exposed to air, gradually disappears, evaporating at a rate that depends on the amount of surface exposed, the humidity . At equal concentrations, n-propanol is the most effective alcohol and ethanol the least (30). Alcohol-based hand rubs are well suited for hygienic hand disinfection for the following reasons: optimal antimicrobial spectrum (active against all bacteria and most clinically important viruses, yeasts, and fungi); no wash basin necessary for use and easy availability at bedside; no microbial microbial pertaining to or emanating from a microbe. microbial digestion the breakdown of organic material, especially feedstuffs, by microbial organisms. contamination of health-care workers' clothing; and rapidity of action. After extensive reduction following hand disinfection with an alcohol preparation, it takes the resident skin flora The skin flora are the microorganisms which reside on the skin surface. Most of them are bacteria. They are usually non-pathogenic, and can offer a protective role by preventing pathogenic organisms from colonizing on the skin surface, either by using up nutrients for themselves or several hours to become completely restored (30). Since alcohol alone has no lasting effect, another compound with antiseptic activity may be added to the disinfection solution to prolong the effect. These antiseptics have recently been extensively reviewed by Rotter (30). Prevention of bacterial contamination and subsequent infection requires timely hand cleansing. Guidelines have delineated de·lin·e·ate tr.v. de·lin·e·at·ed, de·lin·e·at·ing, de·lin·e·ates 1. To draw or trace the outline of; sketch out. 2. To represent pictorially; depict. 3. indications for hand cleansing (10,32,42) but without reliance on evidence-based studies of microbiologic contamination acquired during routine patient care. To provide such evidence, we studied the dynamics of bacterial contamination of health-care workers' hands in daily hospital practice (43). Our findings should help identify patient-care situations associated with high contamination levels and improve hand cleansing practices. Structured observations of patient care were conducted by trained external observers, who took an imprint of the fingertips "Fingertips" is a 1963 number-one hit single recorded live by "Little" Stevie Wonder for Motown's Tamla label. Wonder's first hit single, "Fingertips" was the first live, non-studio recording to reach number-one on the Billboard Pop Singles chart in the United States. of the health-care worker's dominant hand to quantify bacterial colony counts at the end of a defined period of patient care (43). Bacterial contamination on ungloved hands increased linearly during patient care (mean 16 CFU CFU see colony-forming units. per minute, 95% confidence interval confidence interval, n a statistical device used to determine the range within which an acceptable datum would fall. Confidence intervals are usually expressed in percentages, typically 95% or 99%. [CI] 11-21). Activities independently associated with higher contamination levels were direct patient contact, respiratory care, handling body fluids, and disruption in the sequence of patient care all p[is less than] 0.05). Contamination levels varied according to hospital location, with the medical rehabilitation ward having the highest levels ([is greater than] 49 CFU, p = 0.03). Both the duration and type of patient care influenced hand contamination. Furthermore, simple handwashing before patient care, without hand disinfection, was also associated with higher colony counts ([is greater than] 52 CFU, p = 0.03), which suggests that hand antisepsis antisepsis /an·ti·sep·sis/ (an?ti-sep´sis) 1. the prevention of sepsis by antiseptic means. 2. any procedure that reduces to a significant degree the microbial flora of skin or mucous membranes. is better than standard handwashing. These findings suggested that intervention trials should explore the role of systematic hand disinfection as a cornerstone of infection control to reduce cross-transmission in hospitals. Factors Influencing Noncompliance with Hand Hygiene Risk factors for noncompliance with hand hygiene have been determined objectively in several observational studies observational studies, n.pl an investigational method involving description of the associations be-tween interventions and outcomes. Outcomes research and practice audits are examples of this investigational method. or interventions to improve compliance (3,14,20,24,44-47). Factors influencing reduced compliance, identified in observational studies of hand hygiene behavior, included being a physician or a nursing assistant rather than a nurse; being a nursing assistant rather than a nurse; being male; working in an intensive care unit (ICU ICU intensive care unit. ICU abbr. intensive care unit ICU see intensive care unit. ICU ); working during weekdays rather than the weekend; wearing gown and gloves; using an automated sink; performing activities with high risk for cross-transmission; and having many opportunities for hand hygiene per hour of patient care. In the largest hospital-wide survey ever conducted (9), we also identified predictors of noncompliance with hand hygiene during routine patient care. Variables included professional category, hospital ward, time of day or week, and type and intensity of patient care, defined as the number of opportunities for hand hygiene per hour of patient care. In 2,834 observed opportunities for hand hygiene, average compliance was 48%. In multivariate analysis multivariate analysis, n a statistical approach used to evaluate multiple variables. multivariate analysis, n a set of techniques used when variation in several variables has to be studied simultaneously. , compliance was highest during weekends and among nurses (odds ratio [OR] 0.6, 95% CI 0.4-0.8). Noncompliance was higher in ICUs than in internal medicine (OR 2.0, CI 1.3-3.1), during procedures with a high risk for bacterial contamination (OR 1.8, CI 1.4-2.4), and when intensity of patient care was high (21 to 40 opportunities [OR 1.3, CI 1.0-1.7], 41 to 60 opportunities [OR 2.1, CI 1.5-2.9], [is greater than] 60 opportunities [OR 2.1, CI9 1.3-3.5]) compared with a reference level of 0 to 20 opportunities. In other words Adv. 1. in other words - otherwise stated; "in other words, we are broke" put differently , compliance with handwashing worsened when the demand for hand cleansing was high; on average, compliance decreased by 5% ([+ or -] 2%) per increment of 10 opportunities per hour when the intensity of patient care exceeded 10 opportunities per hour. Similarly, the lowest compliance rate (36%) was found in ICUs, where indications for handwashing were typically more frequent (on average, 20 opportunities per patient per hour). The highest compliance rate (59%) was observed in pediatrics, where the average activity index was low (on average, eight opportunities per patient per hour). This study confirmed modest levels of compliance with hand hygiene in a teaching institution and showed that compliance varied by hospital ward and type of health-care worker, thus suggesting that targeted educational programs may be useful. These results also suggested that full compliance with current guidelines may be unrealistic (9,20,48) and that facilitated access to hand hygiene could help improve compliance. Perceived Barriers to Hand Hygiene Several barriers to appropriate hand hygiene have been reported (9,14,24,44-47). Reasons reported by health-care workers for the lack of adherence with recommendations include skin irritation skin irritation, n reaction to a particular irritant that results in inflammation of the skin and itchiness. , inaccessible supplies, interference with worker-patient relation, patient needs perceived as priority, wearing gloves, forgetfulness Forgetfulness See also Carelessness. Absent-Minded Beggar, The ballad of forgetful soldiers who fought in the Boer War. [Br. Lit.: “The Absent-Minded Beg-gars” in Payton, 3] absent-minded professor , ignorance of guidelines, insufficient time, high workload and understaffing, and lack of scientific information demonstrating impact of improved hand hygiene on hospital infection rates. Risk Factors for Noncompliance Some of the perceived barriers for the lack of adherence with hand hygiene guidelines have been assessed or even quantified in observational studies (3,14,20,24,44-47). The most frequently reported reasons associated with poor compliance, in addition to those mentioned above, are inconveniently located or insufficient numbers of sinks; low risk for acquiring infection from patients; belief that glove use obviates need for hand hygiene; and ignorance of or disagreement with guidelines and protocols. Skin irritation by hand hygiene agents is an important barrier to appropriate compliance (49). The superficial skin layers contain water to keep the skin soft and pliable and lipids to prevent dehydration of the corneocytes. Hand cleansing can increase skin pH, reduce lipid content, increase transepidermal water loss Transepidermal Water Loss (TEWL) is a term associated with dermatology and connected sciences. It is defined as the measurement of the quantity of water that passes from inside a body (animal or plant) through the epidermal layer (skin) to the surrounding atmosphere via , and even increase microbial shedding. Soaps and detergents are damaging when applied to skin on a regular basis, and health-care workers need to be better informed about their effects. Lack of knowledge and education on this topic is a key barrier to motivation. Alcohol-based formulations for hand disinfection (whether isopropyl isopropyl denotes the 1-methylethyl group, -CH(CH3)2. isopropyl alcohol rubbing alcohol, used as a solvent and rubefacient. Formed naturally in the rumen of the cow in nervous acetonemia. , ethyl ethyl (ĕth`əl), CH3CH2, organic free radical or alkyl group derived from ethane by removing one hydrogen atom. , or n-propanol, in 60% to 90% vol/vol) are less irritating than antiseptic or nonantiseptic detergents. Alcohols with added emollients Emollients Petroleum or lanolin-based skin lubricants. Mentioned in: Ichthyosis are at least as well tolerated and efficacious as detergents. Emollients are recommended and may protect against cross-infection by keeping the resident skin flora intact, and hand lotions help protect skin and may reduce microbial shedding (21). The value of easy access to hand hygiene supplies, whether sink, soap, medicated detergent, or waterless alcohol-based hand rub solution, is self explanatory. Asking busy health-care workers to walk away from the patient bed to reach a wash basin or a hand antisepsis solution invites noncompliance with hand hygiene recommendations (9,48). Engineering controls could facilitate compliance, but hand hygiene behavior should be carefully monitored to identify negative effects of newly introduced devices (50). Wearing gloves might represent a barrier for compliance with hand hygiene (8,51,52). Failure to remove gloves after patient contact or between dirty and clean body site care for the same patient constitutes noncompliance with hand hygiene recommendations (9). Washing and reusing gloves between patient contact is ineffective, and handwashing or disinfection should be strongly encouraged after glove removal. In a study involving artificial contamination, organisms were cultured from 4% to 100% of the gloves and observed counts were up to 4.7 log on hands after glove removal (53). Additional barriers to hand hygiene compliance include lack of active participation in promotion at the individual or institutional level, of a role model for hand hygiene, of institutional priority assigned to hand hygiene, of administrative sanctions for noncompliance; and of an institutional climate encouraging safety (14,22,41,54,55). A system change may be necessary for improvement in hand hygiene practices by health-care workers. Impact of Improved Hand Hygiene Lack of scientific information on the definitive impact of improved hand hygiene on hospital infection rates has been reported as a possible barrier to adherence with recommendations. Hospital infections have been recognized for more than a century as a critical problem affecting the quality of patient care provided in hospitals. Studies have shown that at least one third of all hospital infections are preventable (56). A substantial proportion of infections results from cross-contamination, and transmission of microorganisms by the hands of health-care workers is recognized as the main route of spread (57). Seven quasi-experimental hospital-based studies of the impact of hand hygiene on the risk of hospital infections were published from 1977 to 1995 (Table 2) (7,22,58,60-63). Despite limitations, most reports showed a temporal relation Noun 1. temporal relation - a relation involving time relation - an abstraction belonging to or characteristic of two entities or parts together antecedent, forerunner - anything that precedes something similar in time; "phrenology was an antecedent of between improved hand hygiene practices and reduced infection rates.
Table 2. Improved adherence with hand hygiene practice compared with
hospital infection rates
Year Setting Hospital setting
1977 Casewell and Philips Adult ICU
1982 Maki and Hecht Adult ICU
1984 Massanari and Heirholzer Adult ICU
1990 Simmons et al. Adult ICU
1992 Doebbeling et al. Adult ICU
1994 Webster et al. NICU
1995 Zafar et al. Newborn nursery
1999 Pittet et al. Hospital-wide
Year Results Ref.
1977 Reduction in HI(a) due to endemic Klebsiella spp 58
1982 Reduction in HI rates 59
1984 Reduction in NI rates 60
1990 No effect 22
1992 Significant difference in rates of HI between 7
two different hand hygiene agents
1994 Elimination of MRSA 61
1995 Elimination of MRSA 62
1999 Significant reduction in HI and MRSA 63
cross-transmission rates
(a) HI = hospital infection; ICU = intensive care unit; NICU =
neonatal ICU; MRSA = methicillin-resistant Staphylococcus aureus.
We recently reported the results of a successful hospital-wide hand hygiene promotion campaign, with emphasis on hand disinfection, which resulted in sustained improvement in compliance associated with a significant reduction in hospital infections and methicilllin-resistant Staphylococcus aureus Staphylococcus au·re·us n. A bacterium that causes furunculosis, pyemia, osteomyelitis, suppuration of wounds, and food poisoning. Staphylococcus aureus Staphylococcus pyogenes cross-transmission rates over a 4-year period (63). The beneficial effects of hand hygiene promotion on the risk of cross-transmission have also been reported in surveys conducted in schools, day-care centers (64-68), and a community (69-71). Although additional scientific and causal evidence is needed for the impact of improved hand hygiene on infection rates, these results indicate that improvement in behavior reduces the risk of transmission of infectious pathogens. Improving Adherence with Practices In 1998, Kretzer and Larson (46) revisited hand hygiene behavioral theories in an attempt to better understand how to target more successful interventions. These researchers proposed a hypothetical framework to enhance hand hygiene practices and stressed the importance of considering the complexity of individual and institutional factors in designing behavioral interventions. Behavioral theories and secondary interventions have primarily focused on the individual, which is insufficient to effect sustained change (46,72,73). Interventions aimed at improving compliance with hand hygiene must be based on the various levels of behavior interaction (20,46,74). Thus, the interdependence of individual factors, environmental constraints, and institutional climate should be considered in strategic planning Strategic planning is an organization's process of defining its strategy, or direction, and making decisions on allocating its resources to pursue this strategy, including its capital and people. and development of hand hygiene promotion campaigns. Factors associated with noncompliance with recommendations are related not only to the individual worker but also to the group to which he or she belongs and, by extension, to the parent institution. Factors influencing compliance at the group level include lack of education and performance feedback; working in critical care (high workload); downsizing (1) Converting mainframe and mini-based systems to client/server LANs. (2) To reduce equipment and associated costs by switching to a less-expensive system. (jargon) downsizing and understaffing; and lack of encouragement or role models from key staff. Factors operating at the institutional level include lack of written guidelines; lack of appropriate hand hygiene agents; lack of skin care promotion and agents; lack of hand hygiene facilities; lack of atmosphere of compliance; and lack of administrative leadership, sanctions, rewards, and support. Interventions to promote hand hygiene in hospitals should take into account variables at all these levels. The complex dynamic of behavioral change involves a combination of education, motivation, and system change. Various psychosocial parameters influencing hand hygiene behavior include intention, attitude toward the behavior, perceived social norms, perceived behavioral control, perceived risk of infection, habits of hand hygiene practices, perceived model roles, perceived knowledge, and motivation (46). Factors necessary for change include dissatisfaction with the current situation, perception of alternatives, and recognition, both at the individual and institutional level, of the ability and potential to change. While the last factor implies education and motivation, the former two necessitate primarily a system change. Among reasons reported for poor adherence with hand hygiene recommendations, some that are clearly related to the institution (i.e., the system) include lack of institutional priority for hand hygiene, need for administrative sanctions for noncompliance or rewards for compliance, and lack of an institutional climate that encourages safety. Whereas all three reasons would require a system change in most institutions, the last would also involve management commitment, visible safety programs, an acceptable level of work stress, a tolerant and supportive attitude toward reported problems, and belief in the efficacy of preventive strategies (20,46,73,75). Strategies for Improvement Improvement in infection control practices requires questioning basic beliefs, continuous assessment of the stage of behavioral change, interventions with an appropriate process of change, and supporting individual and group creativity (46). Because of the complexity of the process of change, single interventions often fail, and a multimodal Two or more modes of operation. The term is used to refer to a myriad of functions and conditions in which two or more different methods, processes or forms of delivery are used. On the Web, it refers to asking for something one way and receiving the answer another; for example requesting , multidisciplinary strategy is necessary. A framework for change should include parameters to be considered for hand hygiene promotion, together with the level at which each change must be applied: education, motivation, or system (Table 3). Some parameters are based on epidemiologic evidence and others on the authors' and other investigators' experience and review of current knowledge. Some parameters may be unnecessary in certain circumstances and helpful in others. In particular, changing the hand hygiene agent could be beneficial in institutions or hospital wards with a high workload and a high demand for hand hygiene when waterless hand rub is not available (9,61,62,76). However, a change in the recommended hand hygiene agent could be deleterious deleterious adj. harmful. if introduced during winter, when skin is more easily irritated ir·ri·tate v. ir·ri·tat·ed, ir·ri·tat·ing, ir·ri·tates v.tr. 1. To rouse to impatience or anger; annoy: a loud bossy voice that irritates listeners. . Table 3. Strategies for successful promotion of hand hygiene in hospitals Parameter Tool for change Selected ref.(a) Education E(a) (M, S) 1,423,637,476 Routine observation and S (E, M) 61,423,637,476 feedback Engineering controls S 63 Make hand hygiene easy, S 63,747,778 convenient Make available alcohol- S 63 based hand rub Alcohol-based hand rub S 6,378 available in high- demand situations Patient education S (M) 79 Reminders in the workplace S 5,263 Administrative sanctions, S 320 rewards Change in hand hygiene S (E) 2,180 agent Promote, facilitate skin S (E) 17,214,763 care for HCW hands Obtain active participation E, M, S 4,663 at individual and institutional levels Ensure institutional safety S (M) 4,663 climate Enhance individual and S (E, M) 4,663 institutional self-efficacy Avoid overcrowding, S 915,638,182 understaffing, excessive workload Combination of above E, M, S 1,423,466,374 strategies (a) E = education; M = motivation; S = system; HCW = health-care worker (b) Only selected references are listed; refer to more extensive reviews (10,30,46) for exhaustive reference lists. Several parameters that could potentially be associated with successful promotion of hand hygiene would require a system change (Table 3). Enhancing individual and institutional self-efficacy (the judgment of one's capacity to organize and execute actions to reach the objective), obtaining active participation at both levels, and promoting an institutional safety climate represent major challenges that exceed the current perception of the infection control practitioner's role. More research is needed to determine whether education, individual reinforcement technique, appropriate rewarding, administrative sanction, enhanced self-participation, active involvement of a larger number of organizational leaders, enhanced perception of health threat, self-efficacy, and perceived social pressure (20,46,83,84), or combinations of these factors would improve health-care workers' adherence to recommendations. Ultimately, compliance with hand hygiene could become part of a culture of patient safety in which a set of interdependent elements interact to achieve a shared objective (85). More readily achievable than major system change, easy and timely access to hand hygiene in a timely fashion and the availability, free of charge, of skin care lotion both appear to be necessary prerequisites for appropriate hand hygiene behavior. In particular, in high-demand situations, such as in critical care units, in high-stress working conditions, and at times of overcrowding overcrowding overcrowding of animal accommodation. Many countries now publish codes of practice which define what the appropriate volumetric allowances should be for each species of animal when they are housed indoors. Breaches of these codes is overcrowding. or understaffing, having health-care workers use a hand rub with an alcohol-based solution appears as the best method for achieving and maintaining a higher level of compliance with hand hygiene. Alcohol-based hand rub, compared with traditional handwashing with unmedicated soap and water or medicated hand antiseptic agents, may be better because it requires less time (48), acts faster (30), and irritates hands less often (21,30). This method was used in the only program that reported a sustained improvement in hand hygiene compliance associated with decreased infection rates (63). Finally, strategies to improve compliance with hand hygiene practices should be multimodal and multidisciplinary (Table 3). It is important to note, however, that the proposed framework for such strategies needs further research before implementation. Future Research Among key questions regarding the practices of hand hygiene in the health-care setting today, the following need to be addressed in controlled studies: What are the key determinants of hand hygiene behavior and promotion? Should hand disinfection replace conventional handwashing? What are the best hand hygiene agents? Should hand hygiene solution include a long-lasting compound? What are the most suitable skin emollients to include in hand hygiene solution? How can skin irritation and dryness from hand hygiene agents be reduced? How does skin care protection with hand cream affect the microbiologic efficacy of hand hygiene agents? and What are the key components of hand hygiene agent acceptability by health-care workers? Additional research questions include--How can researchers generate more definitive scientific evidence for the impact of improved compliance with hand hygiene on infection rates? What is the acceptable level of compliance with hand hygiene (i.e., What, percentage increase in hand hygiene results in a predictable risk reduction in infection rates?) and To what extent should the use of gloves be encouraged or discouraged? Finally:. recognizing that individual and institutional factors are interdependent in terms of behavioral changes in health-care settings, what is the best way to obtain top management; support for hand hygiene promotion? These questions are addressed to infection control practitioners, laboratory research scientists, and behavioral epidemiologists. The challenge of hand hygiene promotion could be summarized in one question: How can health-care workers' behavior be changed? Tools for change are known; some have been tested, and others need to be tested. Some may prove irrelevant in the future; others have worked in some institutions and need to be tested in others. Infection control professionals should promote and conduct outstanding research and provide solutions to improve health-care worker adherence with hand hygiene and enhance patient safety. Acknowledgments The author thanks members of the Infection Control Program at the University of Geneva The University of Geneva (Université de Genève) is a university in Geneva, Switzerland. It was founded by John Calvin in 1559. Initially a theological seminary, it also taught law. Hospitals, who have been involved in research and institutional projects related to hand hygiene compliance and promotion since 1993, and Rosemary Sudan for editorial assistance. References (1.) Semmelweis I. The etiology, concept and prophylaxis prophylaxis (prō'fĭlăk`sĭs), measures designed to prevent the occurrence of disease or its dissemination. Some examples of prophylaxis are immunization against serious diseases such as smallpox or diphtheria; quarantine to confine of childbed fever child·bed fever n. See puerperal fever. [excerpts]. In: Buck C, Llopis A, Najera E, Terris M, editors. The challenge of epidemiology--issues and selected readings. Washington: PAHO PAHO Pan American Health Organization (WHO) Scientific Publication; 1988. p. 46-59. (2.) Rotter ML. 150 years of hand disinfection--Semmelweis' heritage. Hyg Med 1997;22:332-9. (3.) Jarvis WR. Handwashing--the Semmelweis lesson forgotten? Lancet 1994;344:1311-2. (4.) Rotter ML. Semmelweis' sesquicentennial ses·qui·cen·ten·ni·al adj. Of or relating to a period of 150 years. n. A 150th anniversary or its celebration. Noun 1. : a little-noted anniversary of handwashing. Current Opinion in Infectious Diseases infectious diseases: see communicable diseases. 1998; 11:457-60. (5.) Albert RK, Condie F. Hand-washing patterns in medical intensivecare units. N Engl J Med 1981;304:1465. (6.) Graham M. Frequency and duration of handwashing in an intensive care unit. Am J Infect Control 1990;18:77-81. (7.) Doebbeling BN, Stanley GL, Sheetz CT, Pfaller MA, Houston AK, Annis L, et al. Comparative efficacy of alternative hand-washing agents in reducing nosocomial infections in intensive care units. N Engl J Med 1992;327:88-93. (8.) Thompson BL, Dwyer DM, Ussery XT, Denman S, Vacek P, Schwartz B. Handwashing and glove use in a long-term care facility long-term care facility n. See skilled nursing facility. . Infect Control Hosp Epidemiol 1997;18:97-103. (9.) Pittet D, Mourouga P, Perneger TV, members of the Infection Control Program. Compliance with handwashing in a teaching hospital. Ann Intern intern /in·tern/ (in´tern) a medical graduate serving in a hospital preparatory to being licensed to practice medicine. in·tern or in·terne n. Med 1999;130:126-30. (10.) Larson EL, CIC CIC circulating immune complexes. CIC Circulating immune complexes. See Immune complexes. 1992-1993, 1994 APIC (Advanced Programmable Interrupt Controller) A circuit that handles the priority of interrupts in a computer. Designed to support symmetric multiprocessing (SMP), the APIC handles more interrupts and is more flexible than the programmable interrupt controller Guidelines Committee. APIC guideline for handwashing and hand antisepsis in health care settings. Am J Infect Control 1995;23:251-69. (11.) Preston GA, Larson EL, Stamm W. The effect of private isolation rooms on patient care practices, colonization and infection in an intensive care unit. Am J Med 1981;70:641-5. (12.) Larson E. Compliance with isolation technique. Am J Infect Control 1983; 11:221-5. (13.) Donowitz L. Handwashing technique in a pediatric pediatric /pe·di·at·ric/ (pe?de-at´rik) pertaining to the health of children. pe·di·at·ric adj. Of or relating to pediatrics. intensive care unit. Am J Dis Child 1987;141:683-5. (14.) Dubbert PM, Dolce dol·ce Music adv. & adj. In a gentle and sweet manner. Used chiefly as a direction. [From Italian, sweet, from Latin dulcis.] Adv. 1. J, Richter W, Miller M, Chapman S. Increasing ICU staff handwashing: effects of education and group feedback. Infect Control Hosp Epidemiol 1990;11:191-3. (15.) Pettinger A, Nettleman M. Epidemiology of isolation precautions. Infect Control Hosp Epidemiol 1991;12:303-7. (16.) Larson EL, McGinley KJ, Foglia A, Leyden JJ, Boland N, Larson J, et al. Handwashing practices and resistance and density of bacterial hand flora on two pediatric units in Lima, Peru. Am J Infect Control 1992;20:65-72. (17.) Zimakoff J, Kjelsberg AB, Larsen SO, Holstein B. A multicenter questionnaire investigation of attitudes toward hand hygiene, assessed by the staff in fifteen hospitals in Denmark This is a list of hospitals in Denmark.
(18.) Meengs MR, Giles BK, Chisholm CD, Cordell WH, Nelson DR. Hand washing  This article or section contains .The purpose of Wikipedia is to present facts, not to teach subject matter. frequency in an emergency department. Journal of Emergency Nursing 1994;20:183-8. (19.) Goldmann D, Larson E. Hand-washing and nosocomial infections. N Engl J Med 1992;327:120-2. (20.) Boyce JM. It is time for action: improving hand hygiene in hospitals. Ann Intern Med 1999;130:153-5. (21.) Larson E. Skin hygiene and infection prevention: more of the same or different approaches? Clin Infect Dis 1999;29:1287-94. (22.) Simmons B, Bryant J, Neiman K, Spencer L, Arheart K. The role of handwashing in prevention of endemic intensive care unit infections. Infect Control Hosp Epidemiol 1990;11:589-94. (23.) Tibballs J. Teaching hospital medical staff to handwash. Medical Journal of Australia 1996;164:395-8. (24.) Larson E, Kretzer EK. Compliance with handwashing and barrier precautions barrier precautions Infection control A general term referring to any method or device used to ↓ contact with potentially infectious body fluids, including facial masks, doubled gloves and fluid-resistant gowns. See Isolation, Reverse isolation, Universal precautions. . J Hosp Infect 1995;30:88-106. (25.) Rotter ML. Hand washing and hand disinfection. In: Mayhall G, editor. Hospital epidemiology and infection control. Baltimore: Williams & Wilkins; 1996. p. 1052-68. (26.) Selwyn S, Ellis H. Skin bacteria and skin disinfection reconsidered. BMJ BMJ n abbr (= British Medical Journal) → vom BMA herausgegebene Zeitschrift 1972;1:136-40. (27.) Lowbury EJL EJL Eesti Jalgpalli Liit (Estonian Football Association) , Lilly HA, Bull JP. Disinfection of hands: removal of transient organisms. BMJ 1964;2:230-3. (28.) Ayliffe GAJ GAJ Yamagata, Japan - Junmachi (Airport Code) GAJ God/Allah/Jehovah (Robert Lewis) , Babb JR, Quoraishi AH. A test for hygienic hand disinfection. J Clin Pathol 1978;31:923-8. (29.) Rotter ML, Koller W. European test fi)r the evaluation of the efficacy of procedures for the antiseptic handwash. Hygiene und Medizin 1991;16:4-12. (30.) Rotter ML. Hand washing and hand disinfection. In: Mayall CG, editor. Hospital epidemiology and infection control. 2nd ed. Philadelphia: Lippincott, Williams & Wilkins; 1999. p. 1339-55. (31.) Lilly HA, Lowbury EJL. Transient skin flora. J Clin Pathol 1978;31:919-22. (32.) Garner JS, Favero MS. CDC See Control Data, century date change and Back Orifice. CDC - Control Data Corporation guideline tbr handwashing and hospital environmental control, 1985. Infect Control 1986;7:231. (33.) Ehrenkranz J. Bland soap handwash or hand antisepsis? The pressing need for clarity. Infect Control Hosp Epidemiol 1992;13:299-301. (34.) Mittermayer H, Rotter M. Vergleich der Wirkung von Wasser, einigen Detergentien und athylakohol auf die transiente flora der hande. Zentralbl Bakteriol Hyg 1975;160:163-72. (35.) Lilly HA, Lowbury EJL, Wilkins MD. Limits to progressive reduction of resident skin bacteria by disinfection. J Clin Pathol 1999;32:382-5. (36.) Semmelweis I. The etiology, concept and prophylaxis of childbed fever. Madison: University of Wisconsin Press The University of Wisconsin Press (or UW Press), founded in 1936, is a university press that is part of the Graduate School of the University of Wisconsin-Madison, United States. It published under its own name and the imprint The Popular Press. ; 1983. (37.) Graham DR, Anderson RL, Ariel FE, Ehrenkranz NJ, Rowe B, Boer HR, et al. Epidemic nosocomial nosocomial /noso·co·mi·al/ (nos?o-ko´me-il) pertaining to or originating in a hospital. nos·o·co·mi·al adj. 1. Of or relating to a hospital. 2. meningitis due to Citrobacter diversus Citrobacter diversus Microbiology A Citrobacter in soil, water, sewage and food, and an opportunistic pathogen Epidemiology C diversus is an important cause of bacterial meningitis, brain abscesses, and may cause endocarditis and in neonates. J Infect Dis 1981;144:203-9. (38.) Kager L, Brismar B, Malmborg AS, Nord C. Imipenem concentrations in colorectal surgery and impact on the cohmic microfiora. Antimicrob Agents Chemother 1989;33:204-8. (39.) Eckert DG, Ehrenkranz NJ, Alfonso BC. Indications for alcohol or bland soap in removal of aerobic gram-negative skin bacteria: assessment by a novel method. Infect Control Hosp Epideraiol 1989;10:306-11.. (40.) Ehrenkranz NJ, Alfonso BC. Failure of bland soap handwash to prevent hand transfer of patient bacteria to urethral urethral pertaining to or emanating from urethra. urethral agenesis, urethral atresia failure of development of all or part of the urethra: characterized by complete urine retention. A rare cause of neonatal uremia. catheters. Infect Control Hosp Epidemiol 1991;12:654-62. (41.) Larson E, McGinley KJ, Grove GL, Leyden JJ, Talbot GH. Physiologic, microbiologic, and seasonal effects ofhanswashing on the skin of health care personnel. Am J Infect Control 1986;14:51-9. (42.) Larson E. APIC guideline for use of topical antimicrobial agents. Am J Infect Control 1988;16:253-66. (43.) Pittet D, Dharan S, Touveneau S, Sauvan V, Perneger TV. Bacterial contamination of the hands of hospital staff during routine patient care. Arch Intern Med 1999;159:821-6. (44.) Conly JM, Hill S, Ross J, Lertzman J, Louie T. Handwashing practices in an intensive care unit: the effects of an educational program and its relationship to infection rates. Am J Infect Control 1989;17:330-9. (45.) Sproat LJ, Inglis TJ. A multicentre survey of hand hygiene practice in intensive care units. J Hosp Infect 1994;26:137-48. (46.) Kretzer EK, Larson EL. Behavioral interventions to improve infection control practices. Am J Infect Control 1998;26:245-53. (47.) Larson E, Killien M. Factors influencing handwashing behavior of patient care personnel, Am J Infect Control 1982;10:93-9. (48.) Voss A, Widmer AF. No time for handwashing? Handwashing versus alcoholic rub: can we afford 100% compliance? Infect Control Hosp Epidemiol 1997;18:205-8. (49.) Larson E. Handwashing and skin: physiologic and bacteriologic bac·te·ri·ol·o·gy n. The study of bacteria, especially in relation to medicine and agriculture. bac·te aspects. Infect Control 1985;6:14-23. (50.) Larson E, McGeer A, Quraishi ZA, Krenzischek D, Parsons Parsons, city (1990 pop. 11,924), Labette co., SE Kans.; inc. 1871. It is a shipping point for dairy products, grain, and livestock. Manufactures include ammunition, wire and paper products, plastics, and appliances. BJ, Holdford J, et al. Effects of an automated sink on handwashing practices and attitudes in high-risk units. Infect Control Hosp Epiderniol 1991;12:422-8. (51.) Michelson A, Kamp HD, Schuster B. Sinusitis sinusitis Inflammation of the sinuses. Acute sinusitis, usually due to infections such as the common cold, causes localized pain and tenderness, nasal obstruction and discharge, and malaise. in long-term intubated, intensive care patients: nasal versus oral intubation intubation /in·tu·ba·tion/ (in?too-ba´shun) the insertion of a tube into a body canal or hollow organ, as into the trachea. endotracheal intubation . Anaesthesist 1991;40:100-4. (52.) Khatib M, Jamaleddine G, Abdallah A, Ibrahim Y. Hand washing and use of gloves while managing patients receiving mechanical ventilation mechanical ventilation n. A mode of assisted or controlled ventilation using mechanical devices that cycle automatically to generate airway pressure. in the ICU. Chest 1999;116:172-5. (53.) Doebbeling BN, Pfaller MA, ttouston AK, Wenzel RP. Removal of nosocomial pathogens from the contaminated glove. Ann Intern Med 1988;109:394-8. (54.) Broughall JM, Marshman C, Jackson B, Bird P. An automatic monitoring system fbr measuring handwashing frequency in hospital wards. J Hosp Infect 1984;5:447-53. (55.) McLane C, Chenelly S, Sylwestrak ML, Kirchhoff KT. A nursing practice problem: failure to observe aseptic aseptic /asep·tic/ (-tik) free from infection or septic material. a·sep·tic adj. Of, relating to, or characterized by asepsis. technique. Am J Infect Control 1983;11:178-82. (56.) Haley RW, Culver DH, White JW, Morgan WM, Emori TG, Munn VP, et al. The efficacy of infection surveillance and control programs in preventing nosocomial infections in U.S. hospitals. Am J Epidemiol 1985; 121:182-205. (57.) Bauer TM, Ofner E, Just HM, Just H, Daschner F. An epidemiological study An Epidemiological study is a statistical study on human populations, which attempts to link human health effects to a specified cause. assessing the relative importance of airborne and direct contact transmission of microorganisms in a medical intensive care unit. J Hosp Infect 1990;15:301-9. (58.) Casewell M, Phillips I. Hands as route of transmission for Klebsiella klebsiella Any of the rod-shaped bacteria that make up the genus Klebsiella. They are gram-negative (see gram stain), thrive better without oxygen than with it, and do not move. K. species. BMJ 1977;2:1315-7. (59.) Maki D, Hecht J. Antiseptic containing hand-washing agents reduce nosocomial infections: a prospective study [Abstract #188]. Program and abstracts of the 22nd Interscience Conference of Antimicrobial Agents and Chemotherapy Antimicrobial Agents and Chemotherapy (print-ISSN 0066-4804, CODEN AMACCQ; canceled ISSN 0074-9923, canceled CODEN AACHAX) is an academic journal published by the American Society for Microbiology. , Miami, Oct 4-6, 1982. Washington, DC: American Society for Microbiology The American Society for Microbiology (ASM) is a scientific organization, based in the United States although with over 43,000 members throughout the world. It is the largest single life science professional organization and its members include those whose interests encompass basic ; 1982. (60.) Massanari RM, Heirholzer WJJ. A crossover comparison of antiseptic soaps on nosocomial infection Nosocomial infection An infection that can be acquired in a hospital. ABPA is a nosocomial infection. Mentioned in: Allergic Bronchopulmonary Aspergillosis, Hospital-Acquired Infections, Pseudomonas Infections rates in intensive care units. Am J Infect Control 1984;12:247-8. (61.) Webster J, Faoagali JL, Cartwright D. Elimination of methicillin-resistant Staphylococcus aureus methicillin-resistant Staphylococcus aureus Methicillin-aminoglycoside resistant Staphylococcus aureus, MRSA An organism with multiple antibiotic resistances–eg, aminoglycosides, chloramphenicol, clindamycin, erythromycin, rifampin, tetracycline, from a neonatal intensive care unit Noun 1. neonatal intensive care unit - an intensive care unit designed with special equipment to care for premature or seriously ill newborn NICU ICU, intensive care unit - a hospital unit staffed and equipped to provide intensive care after hand washing with triclosan. J Paediatr Child Health 1994;30:59-64. (62.) Zafhr AB, Butler RC, Reese DJ, Gaydos LA, Mennonna PA. Use of 0.3% triclosan (Bacti-Stat*) to eradicate an outbreak ofmethicillin-resistant Staphylococcus aureus in a neonatal nursery. Am J Infect Control 1995;23:200-8. (63.) Pittet D, Hugonnet S, Harbarth S, Mourouga P, Sauvan V, Touveneau S, et al. Effectiveness of a hospital-wide programme to improve compliance with hand hygiene. Lancet 2000;356:1307-12. (64.) Maki DG. The use of antiseptics for handwashing by medical personnel. J Chemother 1989;1:3-11. (65.) Butz AM, Larson E, Fosarelli P, Yolken R. Occurrence of infectious symptoms in children in day care homes. Am J Infect Control 1990;6:347-53. (66.) Early E, Battle K, Cantwell E, English J, Lavin JE, Larson E. Effect of several interventions on the frequency of handwashing among elementary public school children. Am J Infect Control 1998;26:263-9. (67.) Kimel LS. Handwashing education can decrease illness absenteeism. J Sch Nurs 1996;12:14-6. (68.) Master D, Hess Longe n. 1. 1. A thrust. See Lunge. 2. The training ground for a horse. 1. (Zool.) Same as 4th Lunge. SH, Dickson H. Scheduled hand washing in an elementary school elementary school: see school. population. Fam Med 1997;29:336-9. (69.) Khan MU. Interruption ofshigellosis by handwashing. Trans R Soc Trop Med Hyg 1982;76:164-8. (70.) Shahid Shahid or Shaheed is a male given name common among Muslims. It is the Arabic word for witness or martyr. People with this name Famous people with this name include: See also
(71.) Stanton BF, Clemens JD. An educational intervention for altering water-sanitation behaviors to reduce childhood diarrhea in urban Bangladesh. Am J Epidemiol 1987;125:292-301. (72.) Teare EL, Cookson B, French G, Gould D, Jenner E, McCulloch J, et al. Hand washing--A modest measure-with big effects. BMJ 1999;318:686. (73.) Teare EL, Cookson B, French GL, Jenner EA, Scott G, Pallett A, et al. U.K. handwashing initiative. J Hosp Infect 1999;43:1-3. (74.) Larson EL, Bryan JL, Adler LM, Blane CB. A multifaceted mul·ti·fac·et·ed adj. Having many facets or aspects. See Synonyms at versatile. Adj. 1. multifaceted - having many aspects; "a many-sided subject"; "a multifaceted undertaking"; "multifarious interests"; "the multifarious approach to changing handwashing behavior. Am J Infect Control 1997;25:3-10. (75.) Weeks A. Why I don't wash my hands between each patient contact. BMJ 1999;319:518. (76.) AspSck C, Koller W. A simple hand hygiene exercise. Am J Infect Control 1999;27:370-2. (77.) Kaplan LM, McGuckin M. Increasing handwashing compliance with more accessible sinks. Infect Control 1986;7:408-10. (78.) Raad I, Darouiche RO, Dupuis J, Abi-Said D, Gabrielli A, Hachem R, et al. Central venous catheter central venous catheter n. A catheter passed through a peripheral vein and ending in the thoracic vena cava; it is used to measure venous pressure or to infuse concentrated solutions. coated with minocycline and rifampine for the prevention of catheter-related colonization and bloodstream infections. A randomized ran·dom·ize tr.v. ran·dom·ized, ran·dom·iz·ing, ran·dom·iz·es To make random in arrangement, especially in order to control the variables in an experiment. , double-blind trial. Ann Intern Med 1997;127:267-74. (79.) McGuckin M, Waterman R, Porten L, Bello S, Caruso M, Juzaitis B, et al. Patient education model for increasing handwashing compliance. Am J Infect Control 1999;27:309-14. (80.) Veenstra DL, Saint S, Saha S, Lumley L, Sullivan SD. Efficacy of antiseptic-impregnated central venous catheters in preventing catheter-related bloodstream infection. A meta-analysis. JAMA JAMA abbr. Journal of the American Medical Association 1999;281:261-7. (81.) Harbarth S, Sudre P, Dharan S, Cadenas M, Pittet D. Outbreak of Enterobacter cloacae Enterobacter cloacae is a clinically significant Gram-negative, facultatively-anaerobic, rod-shaped bacterium. related to understaffing, overcrowding and poor hygiene practices. Infect Control Hosp Epidemiol 1999;20:598-603. (82.) Haley RW, Bregman D. The role ofunderstaffing and overcrowding in recurrent outbreaks of staphylococcal infection Staphylococcal infection An infection caused by any of several pathogenic species of staphylococcus, commonly characterized by the formation of abscesses of the skin or other organs. Mentioned in: Fracture Repair in a neonatal special-care unit. J Infect Dis 1982;145:875-85. (83.) Kelen GD, Green GB, Hexter DA, Fortenberry DC, Taylor E, Fleetwood DH, et al. Substantial improvement in compliance with universal precautions universal precautions, n.pl 1. approaches to infection control designed to prevent transmission of bloodborne diseases, such as AIDS and hepatitis B in health care settings. in an emergency department following institution of policy. Arch Intern Med 1991;151:2051-6. (84.) Lundberg GD. Changing physician behavior in ordering diagnostic tests. JAMA 1998;280:2036. (85.) Phillips DF. "New look" reflects changing style of patient safety enhancement. JAMA 1999;281:217-9. Dr. Pittet is professor of medicine and director, Infection Control Program, the University of Geneva Hospitals, Switzerland. He is a member of the Board of Directors of the Society for Healthcare Epidemiology of America, and recipient of the first Ignaz P. Semmelweis award (1999), the Hygiene-Preis des Rudolf Schfilke Stiftung, 1999, and the Pfizer Award for Clinical Research 2001. Address for correspondence: Didier Pittet, Infection Control Program, Department of Internal Medicine, University of Geneva Hospitals, 24, Rue Micheli-du-Crest, 1211 Geneva Geneva, canton and city, Switzerland Geneva (jənē`və), Fr. Genève, canton (1990 pop. 373,019), 109 sq mi (282 sq km), SW Switzerland, surrounding the southwest tip of the Lake of Geneva. 14, Switzerland; fax: 41-22-3723-987; e-mail: didier.pittet@hcuge.ch |
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