Elimination of epidemic methicillin-resistant Staphylococcus aureus from a University Hospital and District Institutions, Finland. (Research).From August 1991 to October 1992, two successive outbreaks 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, (MRSA MRSA Methicillin-resistant Staphylococcus aureus. See MARSA. ) occurred at a hospital in Finland. During and after these outbreaks, MRSA was diagnosed in 202 persons in our medical district; >100 cases involved epidemic MRSA. When control policies failed to stop the epidemic, more aggressive measures were taken, including continuous staff education, contact isolation for MRSA-positive patients, systematic screening for persons exposed to MRSA, cohort nursing of MRSA-positive and MRSA-exposed patients in epidemic situations, and perception of the 30 medical institutions in that district as one epidemiologic entity brought under surveillance and control of the infection control team of Turku University Turku University may refer to:
nos·o·co·mi·al adj. 1. Of or relating to a hospital. 2. spread of other MRSA strains. Our data show that controlling MRSA is possible if strict measures are taken before the organism becomes endemic. Similar control policies may be successful for dealing with new strains of multiresistant bacteria, such as vancomycin-resistant strains of S. aureus The aureus (pl. aurei) was a gold coin of ancient Rome valued at 25 silver denarii. The aureus was regularly issued from the 1st century BC to the beginning of the 4th century AD, when it was replaced by the solidus. . ********** Methicillin-resistant Staphylococcus aureus (MRSA) has emerged worldwide as an important nosocomial pathogen Pathogen Any agent capable of causing disease. The term pathogen is usually restricted to living agents, which include viruses, rickettsia, bacteria, fungi, yeasts, protozoa, helminths, and certain insect larval stages. . In some U.S. hospitals, MRSA already accounts for 30% to 50% of all nosocomial S. aureus isolates. The situation is comparable in many European centers: 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. a recent survey (1), the proportion of MRSA compared to all nosocomial S. aureus isolates studied was >50% in Portugal and Italy and >30% in Turkey and Greece. The methicillin-resistance rate was low (2.0%) in the Netherlands, calling attention to the distinguished Dutch MRSA strategy (2). Switzerland, which had the lowest MRSA prevalence (1.8%) in the European survey (1), is noted for innovative interventions to improve hand hygiene in hospitals and, thereby, to reduce MRSA transmission (3). In the Scandinavian countries Noun 1. Scandinavian country - any one of the countries occupying Scandinavia Scandinavian nation European country, European nation - any one of the countries occupying the European continent , methicillin-resistant strains still account for <1% of all nosocomial S. aureus isolates (4). MRSA has remained uncommon also in Finland (5,6), and until the 1990s, mostly sporadic cases of MRSA were identified in hospitalized patients. In recent years, however, several nosocomial outbreaks caused by different epidemic strains have occurred (6). Two successive MRSA outbreaks at the Turku University Hospital, Finland, and in nearby institutions were the first and, so far, the second largest. We describe the Turku outbreaks and the subsequent yearly numbers of new MRSA cases identified in our district. We also discuss the control measures taken, which have been followed since then, to confine the spread of epidemic MRSA at the university hospital and in the whole Southwest Finland Medical District. Methods Background The Turku University Hospital is a teaching facility that serves as a tertiary referral center for southwestern Finland. Approximately 500,000 inhabitants
The game is based loosely on the concepts from SameGame. live in the Southwest Finland Medical District; the density of the population varies from 20-100 inhabitants per square kilometer. The institutions include 1 university hospital, 1 central hospital, 7 regional hospitals, and 22 health-care centers. From August 1991 to October 1992, two successive outbreaks caused by different MRSA strains occurred in the departments of surgery and medicine at University Hospital. During and after these outbreaks, these two MRSA strains were isolated from patients and staff members in five additional institutions in our district. Screening Policy Our policy of screening contact patients of the MRSA-positive patients and the hospital staff for MRSA varied during the different phases of the outbreaks. Unless otherwise indicated, the term contact patient refers to a patient hospitalized on the same ward at the same time with an MRSA-positive patient. Surgical Unit Outbreak During the outbreak in the surgical unit, in most cases MRSA was isolated from a clinical specimen. Initially, a policy decision was made not to screen either the contact patients of MRSA-positive patients or the staff on outbreak wards for MRSA. When the number of MRSA cases increased, we performed one cross-sectional study cross-sectional study n. See synchronic study. cross-sectional study, n the scientific method for the analysis of data gathered from two or more samples at one point in time. to screen all patients cared for in the department of surgery during that particular day for nasal and wound colonization colonization, extension of political and economic control over an area by a state whose nationals have occupied the area and usually possess organizational or technological superiority over the native population. by MRSA. Medical Unit Outbreak After the first two cases were diagnosed in the medical unit, we began screening other patients treated in the medical intensive-care unit (ICU ICU intensive care unit. ICU abbr. intensive care unit ICU see intensive care unit. ICU ). During weeks 6-8, all contact patients connected with MRSA-positive patients (treated in the ICU after admission of the index case) were screened once by using nasal swabs if they were still hospitalized. If a new case was identified on a ward, the roommates of the patient were screened. If transmission of MRSA was observed on a ward, all patients were screened. Initially, screening involved only nasal swabbing, but from the first week of June 1992 on, cultures were taken also from the perineum perineum /peri·ne·um/ (-ne´um) 1. the pelvic floor and associated structures occupying the pelvic outlet, bounded anteriorly by the pubic symphysis, laterally by the ischial tuberosities, and posteriorly by the coccyx. , groin, and axillae Axilla (plural, axillae) The medical term for the armpit. Mentioned in: Hyperhidrosis , as well as from all open wounds, skin lesions Skin Lesions Definition A skin lesion is a superficial growth or patch of the skin that does not resemble the area surrounding it. Description Skin lesions can be grouped into two categories: primary and secondary. , and, later, the throat. After 10 identified cases of MRSA, we began to label case records of the colonized Colonized This occurs when a microorganism is found on or in a person without causing a disease. Mentioned in: Isolation patients and contact patients with tags showing MRSA information. The contact patients were screened on the next visit; previous roommates of MRSA-positive patients were isolated while waiting for culture results. After providing two sets of negative MRSA cultures, contact patients were no longer screened on subsequent admissions. However, patients once found to be MRSA positive were screened on subsequent admissions and placed in single rooms to be cared for in contact isolation. All patients previously treated at hospitals abroad or with a known MRSA problem were screened at the time of admission and nursed in contact isolation until results from colonization cultures were negative. We screened the staffs of the medical ICU and the hematology and infectious diseases infectious diseases: see communicable diseases. units by nasal swab at varying intervals during the medical outbreak. Screening cultures were done, as described (7,8). Identification of MRSA The isolates grown on culture plates were identified as MRSA following the National Committee for Clinical Laboratory Standards guidelines (9). Genetic resistance to methicillin methicillin /meth·i·cil·lin/ (meth?i-sil´in) a semisynthetic penicillin highly resistant to inactivation by penicillinase; used as the sodium salt. meth·i·cil·lin n. was verified by the presence of the mecA gene (10). All MRSA isolates were submitted to the Staphylococcal staphylococcal pertaining to Staphylococcus spp. staphylococcal clumping test used as a means of measuring the quantity of fibrinogen-split products in a sample of blood. Reference Laboratory at the National Public Health Institute, where they were typed with the international phage phage: see bacteriophage. phage - A program that modifies other programs or databases in unauthorised ways; especially one that propagates a virus or Trojan horse. See also worm, mockingbird. The analogy, of course, is with phage viruses in biology. set and ribotyping and pulsed-field gel electrophoresis gel electrophoresis n. Electrophoresis performed in a gel composed of agarose, polyacrylamide, or starch. (PFGE PFGE Pulsed-Field Gel Electrophoresis ), as described (6). Two isolates were defined as different strains if they had different phage types and/or PFGE and ribotypes. We considered phage types different if two or more strong phage reaction differences occurred. Ribotypes were considered different if any band difference occurred. Before 1995, PFGE types were considered different if any band difference occurred. After 1995, PFGE types were considered different if four or more band differences occurred. Elimination Treatment Elimination treatment with topical or combined topical and systemic 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. therapy was given to selected patients (e.g., long-term care long-term care (LTC), n the provision of medical, social, and personal care services on a recurring or continuing basis to persons with chronic physical or mental disorders. patients of health-center wards and nursing homes) and those with severe underlying diseases who were frequently admitted to any hospital in the district (7,8,11). Long-term carriers among the staff were also given elimination treatment. Detailed data on drug regimens will be reported separately. Results MRSA Strains From 1991 through 2000, a total of 202 persons in the Southwest Finland Medical District were infected or colonized by MRSA (Table). On the basis of phage typing and molecular typing, we identified 15 different MRSA strains isolated from two or more persons. These strains included 10 isolated from hospitalized patients (outbreak strains) and 5 causing intra-familial clusters in the community (familial strains). The strain causing the surgical outbreak (referred to as the surgical strain) belonged to phage type 75,77,84,85III and had a characteristic ribotype and PFGE pattern. The strain causing the medical outbreak (referred to as the medical strain) was nontypable with phages (NT), but the strain relatedness between different isolates could be ascertained by ribotyping and PFGE. A third MRSA strain typed 54,84,85III/96V/95 caused the Mynamaki Health Center outbreak described previously (7). A detailed typing analysis, including a picture of the PFGE profiles of these major epidemic strains, has been published (6) and describes the corresponding strain identification code as E6 for the surgical strain, E7 for the medical strain, and O9 for the Mynamaki strain. The cases involved in these three outbreaks, as well as the clusters caused by 12 additional MRSA strains, are summarized in the Table. The remaining 63 strains were isolated from one person each. Three (30%) of 10 outbreak strains and 22 (35%) of 63 unique strains were designated as of foreign origin. None of the five familial strains were of foreign origin. MRSA Outbreaks at the University Hospital Surgical Unit Outbreak The hospitalization hospitalization /hos·pi·tal·iza·tion/ (hos?pi-t'l-i-za´shun) 1. the placing of a patient in a hospital for treatment. 2. the term of confinement in a hospital. periods of the patients during the surgical outbreak and the times when MRSA was first isolated in each case are shown in Figure 1. In August 1991, the surgical strain was isolated from a bone sample of patient 1 who was cared for on an orthopedic ward for posttraumatic posttraumatic /posttrau·mat·ic/ (post?traw-mat´ik) occurring as a result of or after injury. post·trau·mat·ic adj. Following or resulting from injury or trauma. osteomyelitis osteomyelitis (ŏs'tēōmī'əlī`tĭs), infection of the bone and bone marrow. Direct infection of bone usually occurs through open fractures, penetrating wounds, or surgical operations. . The patient was referred to the infectious diseases unit to be cared for in contact isolation, but she was readmitted to the orthopedic ward three times during the following 4 months for treatment of osteomyelitis. Each time, the isolation precautions followed by hospital personnel did not comply with the standard adopted later. [FIGURE 1 OMITTED] MRSA was next isolated from head wound of a colonized male patient on the same ward. He was placed in a single room to be cared for in contact isolation, but when the wound healed, the patient was transferred to a three-bed room. Subsequently, three of his roommates (patients 3, 4, and 5) acquired MRSA. By the 3rd week of December 1991, the combined number of patients colonized by epidemic MRSA had increased to eight cases on two wards and in the surgical ICU. A shortage of single rooms and the threat of an expanding outbreak led to implementation of the following control measures: 1) intensive education of the staff on hospital hygiene, 2) nursing of all MRSA-positive patients in single rooms in contact isolation, preferably in the infectious diseases unit, 3) strict adherence to contact isolation precautions and minimal duration of hospitalization whenever an MRSA-positive patient was treated at the department of surgery (e.g., operative treatment required), and 4) cross-sectional screening of all patients nursed on surgical wards and in the surgical ICU on December 19, 1991, for nasal and wound colonization. The screening uncovered three new cases of MRSA on epidemic wards. By year end, all patients identified as MRSA positive had been either discharged or transferred to the infectious diseases unit. Thereafter, no new transmission of MRSA was observed on surgical wards, although by the end of August 1993, the surgical strain was isolated from clinical specimens of eight additional patients who had been cared for on the epidemic wards during 1991-1992. These patients had evidently acquired the surgical strain while hospitalized during the outbreak, but the MRSA colonization was not recognized then because screening was not done routinely. In November 1995, the surgical strain was unexpectedly isolated from an endotracheal endotracheal /en·do·tra·che·al/ (en?do-tra´ke-al) within or through the trachea. en·do·tra·che·al adj. Within or passing through the trachea. aspirate as·pi·rate v. To take in or remove by aspiration. n. A substance removed by aspiration. Aspirate The removal by suction of a fluid from a body cavity using a needle. of a patient in the surgical ICU. This patient had also been cared for on the orthopedic ward during the 1991 outbreak. Subsequent screening of contact patients in the ICU showed MRSA colonization in three other patients who had ventilatory ventilatory /ven·ti·la·to·ry/ (-lah-tor?e) pertaining to ventilation. ventilatory pertaining to or emanating from pulmonary ventilation. support at the same time. No new transmission of MRSA was observed after these patients were transferred to the infectious diseases unit. The total number of University Hospital patients infected or colonized by the surgical strain was 24. Medical Unit Outbreak The index patient was treated for cerebral hemorrhage cerebral hemorrhage n. Bleeding into the substance of the cerebrum, usually in the internal capsule. Also called encephalorrhagia, hematencephalon. in an ICU in Rome, Italy. After his referral to the department of neurology neurology (n  rŏl`əjē, ny–), study of the morphology, physiology, and pathology of the human nervous system. of
University Hospital in December 1991, the medical strain was isolated
from his endotracheal aspirate. For the next 3 months, the patient was
cared for in contact isolation in a single room on a neurologic neurologic /neu·ro·log·ic/ (-loj´ik) pertaining to neurology or to the nervous system. Neurologic Having to do with the nervous system. ward; we found no evidence of MRSA transmission to other patients on that ward. Medical ICU In March 1992, the index patient became ill with septic shock Septic Shock Definition Septic shock is a potentially lethal drop in blood pressure due to the presence of bacteria in the blood. Description Septic shock is a possible consequence of bacteremia, or bacteria in the bloodstream. caused by MRSA and was admitted to the medical ICU for respiratory support. For the first 24 hours, he was not isolated because of a misunderstanding but treated in the same room with three other patients who had ventilatory support. His contact patients were neither screened nor isolated. Two weeks later (Figure 2), the medical strain was cultured from an endotracheal aspirate of a patient who had died in the ICU a few days earlier. The devised screening program was delayed, and subsequent screening on weeks 6-8 found six new patient carriers and two staff carriers of MRSA. The medical ICU was closed to new admissions, and an auxiliary ICU was established for those patients who had not been exposed to MRSA. [FIGURE 2 OMITTED] In the auxiliary ICU, a new staff carrier of MRSA was identified on week 12 and a new patient carrier and a staff carrier on week 13. The MRSA-positive patient was immediately referred to the infectious diseases unit. The six other patients who had shared the ICU room with him were simultaneously transferred to that same unit. Screening cultures later revealed MRSA colonization in five of them, indicating that early cohorting of these contact patients may have been critical in preventing further spread. Hematology Unit In May 1992, we identified MRSA colonization in four patients cared for on the hematology ward. Two of them became colonized while being treated in the medical ICU in April and transmitted MRSA to their two roommates on the ward before carriage became manifest. Using nasal swabs, we screened a number of patients treated at that time on the same ward. Many other contact patients already discharged were not screened when they were readmitted, rendering further spread of MRSA possible. At the beginning of July 1992, MRSA was isolated from an endotracheal aspirate of a bone marrow transplant bone marrow transplant: see bone marrow. patient cared for on the hematology ward (Figure 2). Subsequent screening showed colonization in 11 additional hematologic hematological, hematologic pertaining to or emanating from blood cells. hematological tests total and differential white cell counts, hematocrit estimation, erythrocyte count. patients and 12 staff members. We prevented nosocomial transmission by immediately closing the hematology ward. For the next 3 months, hematologic patients were cared for in three separate cohorts: 1) those not exposed to MRSA were admitted to the hematology unit when it was reopened, 2) those potentially exposed to MRSA during the previous 4 months were cared for in a separate cohort in the infectious diseases unit until three sets of colonization cultures had proved negative, and 3) those colonized by MRSA were cared for in the infectious diseases unit. The total number of University Hospital patients colonized by the medical strain was 30, and the last case was identified in February 1993. This patient had evidently become colonized in April 1992 while being treated in the ICU at the same time as the index case. His MRSA colonization had remained unknown, since contact patients were not screened at that time. Staff Carriage A total of 20 staff members were colonized with MRSA during these two outbreaks. All five long-term carriers received elimination treatment with a successful outcome. The staff members who were colonized were sent home but could return to work after they had provided three successive negative MRSA cultures. MRSA in Other District Institutions In August 1992, the first case of the surgical strain was identified at Turku City Hospital. Subsequent screening found colonization in seven additional patients on three different wards. After two more cases were identified in 1996, the total number of city hospital patients colonized by the surgical strain was 10. During August and September 1992, we found nine patients in two local hospitals and two health-center wards colonized by the medical strain. In each institution, MRSA was first isolated from a clinical sample, and screening of contact patients on the ward found a few additional cases. The infection control team of University Hospital visited each facility to delineate appropriate control measures for MRSA. Colonized patients were referred to the infectious diseases unit for elimination treatment. Other patients were screened, and those found to be colonized were cared for in contact isolation until they could be admitted to the infectious diseases unit for decolonization decolonization Process by which colonies become independent of the colonizing country. Decolonization was gradual and peaceful for some British colonies largely settled by expatriates but violent for others, where native rebellions were energized by nationalism. . By following this strict control policy, we were able to eliminate MRSA from these five institutions. In 1993, the Mynamaki Health Center outbreak was controlled as previously described after 13 cases (7), and a central hospital ICU outbreak was controlled after four cases (outbreak strain IV). In 2000, MRSA outbreak strain V was eliminated from a long-term care facility long-term care facility n. See skilled nursing facility. after five cases occurred. Of the five additional epidemic MRSA strains, one was eliminated after two cases in a regional hospital, and the other four strains were eliminated after causing two cases each at University Hospital (Table). Long-Term Follow-Up of Patients Of the 37 patients who acquired the surgical strain, 6 died within 1 month after MRSA was identified, 20 died during the following years, and 3 were not part of follow-up. Eight patients remain residents in our district, two of them still carrying the surgical strain. The majority of the 39 patients who acquired the medical strain had severe underlying diseases. Of all 39 patients, 21 died within 3 months of colonization, 12 died during the following years, and 1 was not part of follow-up. Five patients who still live in Turku, three of whom were treated to eliminate carriage, no longer carry MRSA. Thus, the medical strain has been eliminated from our district. Discussion During past few years, news on MRSA has usually been discouraging. Clinicians and infection control practitioners appear to have lost confidence in their capability to control the nosocomial spread of this pathogen. The number of papers focusing on the overwhelming spread of MRSA is increasing (1,12-17), whereas those addressing successful efforts of control or stating that nosocomial spread of MRSA can and should be controlled are few (18-22). A number of researchers debating the control of MRSA have questioned whether controlling this microorganism microorganism /mi·cro·or·gan·ism/ (-or´gah-nizm) a microscopic organism; those of medical interest include bacteria, fungi, and protozoa. is reasonable, feasible, or justified (23-25) and whether the tracing of colonized people is justified (26). We describe the elimination of MRSA from a university hospital and a medical-district--wide control policy for MRSA after the outbreak. Our results show that controlling or even eliminating MRSA is possible, if strict measures are systematically taken before the organism becomes endemic. Our experience should encourage other countries with a low incidence of MRSA to continue efforts to prevent the spread of this microorganism in hospitals and long-term care facilities. According to 46 published reports on outbreaks, 10% of the hospitals with [greater than or equal to] 40 cases have achieved definite or probable elimination of MRSA (27). Although >100 patients and staff members in our district initially became colonized by epidemic MRSA, this microbe microbe /mi·crobe/ (mi´krob) a microorganism, especially a pathogenic one such as a bacterium, protozoan, or fungus.micro´bialmicro´bic mi·crobe n. is being controlled almost 10 years after these first outbreaks. We eliminated the medical strain from the whole district, and only a few outpatients presently carry MRSA in the community. Moreover, we were able to prevent nosocomial spread of the almost 100 additional MRSA strains encountered in our area. Even the 22 MRSA strains introduced by patients transferred from hospitals abroad have remained solitary cases, despite their epidemic potential. In fact, after the small university hospital ICU outbreak in 1995, nosocomial transmission of MRSA has been detected in our district hospitals only three times; on each occasion, MRSA colonization of the index case was not known or suspected on admission. Containment of the Turku outbreaks in 1991-1992 was greatly impeded by the fact that we had no national guidelines on how to control MRSA in Finland at that time and very little previous experience with these microorganisms. Detailed guidelines published by authorities from abroad advised an active control policy (28), but stringent measures were perceived by our colleagues as too disruptive for the patient care in our institution. One major argument against adopting an aggressive line of control was the lack of severe MRSA infections because many of our patients were colonized without clinical infection. During the early phase of the medical outbreak, the infection control team adjusted to a lenient le·ni·ent adj. Inclined not to be harsh or strict; merciful, generous, or indulgent: lenient parents; lenient rules. control policy because of our previous experience with the surgical strain, which was easily contained. The behavior of the medical strain, however, was quite different from the surgical strain, and the inadequacy of the control measures at the beginning of the medical outbreak is now evident. We may have been able to restrict this outbreak to only a few cases if all ICU patients had been screened for MRSA and MRSA-positive patients had been isolated as soon as we discerned that appropriate control measures had not been taken when caring for the index patient or if the medical ICU had been closed to new admissions after the second or third MRSA case. Similarly, screening of only some of the MRSA contact patients in the hematology unit in May 1992 was clearly insufficient. Had our efforts initially been more aggressive and the outbreaks quickly controlled, we may have saved many persons from becoming colonized with MRSA and considerably reduced the costs of infection control measures required. The most important lesson from these first epidemics was that an ambivalent and permissive permissive adj. 1) referring to any act which is allowed by court order, legal procedure, or agreement. 2) tolerant or allowing of others' behavior, suggesting contrary to others' standards. PERMISSIVE. control policy for MRSA easily fails. We have subsequently made every effort to avoid making the same mistake. Whenever MRSA has been introduced into our hospitals, rapid steps have been taken to adopt appropriate control measures. The mainstays of our present policy involve continuous staff education, caring for MRSA-positive patients in single rooms in contact isolation, systematic screening of patients exposed to MRSA, including all patients transferred from hospitals abroad or with a known MRSA problem, and cohort nursing of MRSA-positive and exposed patients, at least in epidemic situations. National guidelines have proved most beneficial in preventing the spread of MRSA in a few low-incidence countries (2,6). Medical-district--wide guidelines may be equally important when an individual hospital is struggling with MRSA and needs practical or moral support. The Turku MRSA policy involves perceiving our medical district with its approximately 30 institutions as one epidemiologic entity; the infection control team of University Hospital is responsible for the control of MRSA (and also of other multiresistant bacteria) in the whole entity. This overall responsibility ensures that the same control policy for MRSA is followed in all district institutions. If MRSA is encountered in any local hospital or health-center ward, consultation is given; if nosocomial transmission of the microbe is observed, the infection control team visits the institute. We continuously strive to prevent the development of MRSA reservoirs in our extended-care facilities. In so doing, treatment to eliminate MRSA carriage in long-term patients has been favored, while in contrast, efforts to eliminate MRSA in outpatients have not had the same focus. Many of our experiences were taken into account when the National Guidelines for the Control of MRSA in Finland were prepared in 1995 (6). To a great extent, the MRSA control policy finally adopted is in line with that currently followed in the Netherlands (2) and initially recommended by the British authorities in 1990 (28). Because of the increasing prevalence of MRSA, those guidelines were replaced in the U.K. by more lenient instructions in 1998 because the situation in many parts of the country was such that a more flexible approach was considered appropriate (29,30). With the dramatic increase of MRSA, other countries (including the United States United States, officially United States of America, republic (2005 est. pop. 295,734,000), 3,539,227 sq mi (9,166,598 sq km), North America. The United States is the world's third largest country in population and the fourth largest country in area. ) where these microbes are already endemic in hospitals have adopted more flexible control policies (31,32). However, now that vancomycin-resistant S. aureus (VRSA VRSA Vancomycin-resistant Staphylococcus aureus. Cf Vancomycin-resistant enterococcus. ) exists (33), controlling MRSA is even more imperative. A lenient or ambivalent policy is especially inappropriate in those countries where MRSA remains uncommon, since they may still have a fair chance of eliminating this pathogen. In southwestern Finland, the factors possibly contributing to our success include active education and excellent compliance of health-care personnel, a uniform health-care system, and low population density. Anticipating the emergence of new and even more serious strains of multiresistant staphylococci staph·y·lo·coc·cus n. pl. staph·y·lo·coc·ci A spherical gram-positive parasitic bacterium of the genus Staphylococcus, usually occurring in grapelike clusters and causing boils, septicemia, and other infections. poses a demanding challenge to clinicians and infection-control practitioners worldwide to seek novel methods, which could effectively prevent the spread of these microorganisms. Despite an inability to control MRSA in many countries, we believe that confining con·fine v. con·fined, con·fin·ing, con·fines v.tr. 1. To keep within bounds; restrict: Please confine your remarks to the issues at hand. See Synonyms at limit. these newly emerging multiresistant strains may be possible, provided that vigorous efforts are taken early while the microbe still remains rare. If rapidly begun, aggressive measures may not be needed for long and thereby be cost-effective. To meet future challenges successfully, a stringent and consistent international control policy should be issued and universally obeyed. We have shown that controlling or even eliminating MRSA is possible, if strict measures are taken before the organism becomes endemic. A similar policy may be successful when combating new and even more serious strains of multiresistant bacteria (e.g., VRSA). The recent emergence of VRSA emphasizes the need for unremitting and vigorous control of MRSA. National guidelines for MRSA control policy have proven beneficial in a few low-incidence countries. Our results suggest that firm international guidelines will aid countries in preventing the global spread of any newly emerging multiresistant bacterial pathogen. An ultimate prerequisite for success is the commitment of the health-care personnel worldwide to struggle for that important goal.
Table. Yearly number of new cases caused by different
methicillin-resistant Staphylococcus aureus (MRSA) strains, Southwest
Finland Medical District, 1991-2000
Surgical Medical Mynamaki MRSA
Year outbreak (a) outbreak (b) outbreak (c) outbreak IV (d)
1991 11
1992 19 56
1993 1 1 13 4
1994
1995 4
1996 2
1997
1998
1999
2000
Total 37 57 13 4
MRSA Other Familial Solitary
Year outbreak V (e) outbreaks MRSA (f) MRSA Total
1991 2 13
1992 2 (g) 1 78
1993 2 (h) 2 4 27
1994 3 2 5
1995 3 7
1996 7 9
1997 2 6 8
1998 2 (g) 17 19
1999 2 (g) 2 10 14
2000 5 2 (g) 4 11 22
Total 5 10 13 63 202
(a) Strain was recovered from 24 patients at the university hospital,
10 patients at a regional hospital, and 3 staff members in these
hospitals.
(b) Strain was recovered from 30 patients and 18 staff members at the
university hospital and from 9 patients in other district institutions.
(c) Strain was recovered from 12 patients and 1 staff member in a
health-center ward and associated nursing home (7).
(d) Strain caused a cluster of four cases in an intensive-care unit of
a central hospital.
(e) Strain caused a cluster of four infected patients and one infected
staff member in a health-center ward at the beginning of 2000, but was
subsequently eliminated.
(f) Intrafamilial clusters of two to four MRSA cases in the community.
(g) MRSA strain was transmitted from one patient to another at the
university hospital.
(h) MRSA strain was transmitted from one patient to another at a
regional hospital.
References (1.) Diekema DJ, Pfaller MA, Schmitz FJ, Smayevsky J, Bell J, Jones RN, et al. Survey of infections due to Staphylococcus staphylococcus (stăf'ələkŏk`əs), any of the pathogenic bacteria, parasitic to humans, that belong to the genus Staphylococcus. The spherical bacterial cells (cocci) typically occur in irregular clusters [Gr. species: frequency of occurrence and antimicrobial susceptibility of isolates collected in the United States, Canada, Latin America Latin America, the Spanish-speaking, Portuguese-speaking, and French-speaking countries (except Canada) of North America, South America, Central America, and the West Indies. , Europe, and the Western Pacific Region for the SENTRY antimicrobial surveillance program, 1997-1999. Clin Infect Dis 2001;32(Suppl 2):114-32. (2.) Verhoef J, Beaujean D, Blok H, Baars A, Meyler A, van der Werken C, et al. A Dutch approach to methicillin-resistant Staphylococcus aureus. Eur J Clin Microbiol Infect Dis 1999;18:461-6. (3.) 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. (4.) Voss A, Milatovic D, Wallrauch-Schwarz C, Rosdahl VT, Braveny I. Methicillin-resistant Staphylococcus aureus in Europe. Eur J Clin Microbiol Infect Dis 1994;13:50-5. (5.) Hyvarinen J, Huovinen P, Jarvinen H, Kotilainen P. Multiresistance in Staphylococcus spp. blood isolates in Finland with special reference to the distribution of the mecA gene among the Staphylococcus epidermidis Staphylococcus epidermidis Microbiology A coagulase-negative staphylococcus that comprises up to 80% of clinical isolates Infections by S epidermidis isolates. APMIS APMIS Acta Pathologica, Microbiologica et Immunologica Scandinavica APMIS Automated Project Management Information System APMIS Automated Project Management System 1995;103:885-91. (6.) Salmenlinna S, Lyytikainen O, Kotilainen P, Scotford R, Siren E, Vuopio-Varkila J. Molecular epidemiology molecular epidemiology Molecular medicine An evolving field that combines the tools of standard epidemiology–case studies, questionnaires and monitoring of exposure to external factors with the tools of molecular biology–eg, restriction endonucleases, of methicillin-resistant Staphylococcus aureus in Finland. Eur J Clin Microbiol Infect Dis 2000;19:101-7. (7.) Kotilainen P, Routamaa M, Peltonen R, Evesti P, Eerola E, Salmenlinna S, et al. Eradication of methicillin-resistant Staphylococcus aureus from a health center ward and associated nursing home. Arch 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 2001;161:859-63. (8.) Rossi T, Peltonen R, Laine J, Eerola E, Vuopio-Varkila J, Kotilainen P. Eradication of the long-term carriage of methicillin-resistant Staphylococcus aureus in patients wearing dentures: a follow-up of 10 patients. J Hosp Infect 1996;34:311-20. (9.) National Committee for Clinical Laboratory Standards. Performance standards for antimicrobial disc susceptibility tests susceptibility test Antimicrobial susceptibility test, see there . Villanova (PA): The Committee; 1990. Document M2-A4. (10.) Predari SC, Ligozzi M, Fontana R. Genotypic genotypic emanating from or pertaining to genotype. genotypic selection selection of breeding stock on the basis of known inherited characteristics. identification of methicillin-resistant coagulase-negative staphylococci by polymerase chain reaction polymerase chain reaction (pŏl`ĭmərās') (PCR), laboratory process in which a particular DNA segment from a mixture of DNA chains is rapidly replicated, producing a large, readily analyzed sample of a piece of DNA; the process is . Antimicrob Agents Chemother 1991;35:2568-73. (11.) Rossi T, Laine J, Eerola E, Kotilainen P, Peltonen R. Denture denture, artificial replacement for natural teeth and surrounding tissue. Dentures are classified as partial or complete. The former are removable and maintained by clasps, or are fixed bridges with crowns cemented over adjacent teeth or over spikes embedded in the carriage of methicillin-resistant Staphylococcus aureus [letter]. Lancet 1995;345:1577. (12.) Aires de Sousa M, Santos Santos (sän`t  s), city (1996 pop. 412,288), São Paulo state, SE Brazil, on the island of São Vicente in the Atlantic just off the mainland. Sanches I, Ferro ML, Vaz MJ, Saraiva
Z, Tendeiro T, et al. Intercontinental spread of a multidrug-resistant
methicillin-resistant Staphylococcus aureus clone. J Clin Microbiol
1998;36:2590-6.(13.) Couto I, Melo-Cristino J, Fernandes ML, Garcia T, Serrano ser·ra·no n. pl. ser·ra·nos A cultivar of the tropical pepper Capsicum annuum having small, blunt, highly pungent red or green fruit used in cooking. N, Salgado MJ, et al. Unusually large number of methicillin-resistant Staphylococcus aureus clones in a Portuguese hospital. J Clin Microbiol 1995;33:2032-5. (14.) Farrington M, Redpath C, Trundle C, Coomber S, Brown NM. Winning the battle but losing the war: methicillin-resistant Staphylococcus aureus (MRSA) infection at a teaching hospital. QJM QJM Quarterly Journal of Medicine (Association of Physicians) QJM Quantified Judgement Model QJM Quantified/Quantitative Judgment Method 1998;91:539-48. (15.) The Hopital Propre II Study Group. Methicillin-resistant Staphylococcus aureus in French hospitals: a 2-month survey in 43 hospitals, 1995. Infect Control Hosp Epidemiol 1999;20:478-86. (16.) de Lencastre H, Severina E, Milch milch giving milk or kept for milking. H, Konkoly Thege M, Tomasz A. Wide geographic distribution of a unique methicillin-resistant Staphylococcus aureus clone in Hungarian hospitals. Clin Microbiol Infect 1997;3:289-96. (17.) Aucken HM, Gunner M, Murchan S, Cookson BD, Johnson AP. A new UK strain of epidemic methicillin-resistant Staphylococcus aureus (EMRSA-17) resistant to multiple antibiotics. J Antimicrob Chemother 2002;50:171-5. (18.) Dancer SJ, Crawford A. Keeping MRSA out of a district general hospital. J Hosp Infect 1999;43(Suppl):19-27. (19.) Herwaldt LA. Control of methicillin-resistant Staphylococcus aureus in the hospital setting. Am J Med 1999;106:11-8. (20.) Vandenbroucke-Grauls CM, Frenay HME HME Home Medical Equipment HME Home Media Engine (TiVo) HME Heat and Moisture Exchange HME Hierarchical Mixtures-of-Experts HME Happy Meal Ethernet (UNIX driver) HME Honeymoon Experience , van Klingeren B, Savelkoul TF, Verhoef J. Control of epidemic methicillin-resistant Staphylococcus aureus in a Dutch university hospital. Eur J Clin Microbiol Infect Dis 1991;10:6-11. (21.) Jernigan JA, Titus MG, Groschel DH, Getchell-White S, Farr BM. Effectiveness of contact isolation during a hospital outbreak of methicillin-resistant Staphylococcus aureus. Am J Epidemiol 1996;143:496-504. (22.) Karchmer TB, Durbin LJ, Simonton BM, Fart BM. Cost-effectiveness of active surveillance cultures and contact/droplet precautions for control of methicillin-resistant Staphylococcus aureus. J Hosp Infect 2002;51:126-32. (23.) Barrett SP, Mummery mum·mer·y n. pl. mum·mer·ies 1. A performance by mummers. 2. A pretentious or hypocritical show or ceremony. RV, Chattopadhyay B. Trying to control MRSA causes more problems than it solves. J Hosp Infect 1998;39:85-93. (24.) Bowler ICJ ICJ abbr. International Court of Justice . Is control of methicillin-resistant Staphylococcus aureus justified? QJM 1997;90:243-6. (25.) Pittet D, Waldvogel FA. To control or not to control colonization with MRSA ... that's the question That's the Question is an American quiz game show on GSN, hosted by game show veteran and former Entertainment Tonight reporter, Bob Goen, which premiered in October 2006. . QJM 1997;90:239-41. (26.) Teare EL, Barrett SP. Controversies: is it time to stop searching for MRSA? Stop the ritual of tracing colonised Adj. 1. colonised - inhabited by colonists colonized, settled inhabited - having inhabitants; lived in; "the inhabited regions of the earth" people. BMJ BMJ n abbr (= British Medical Journal) → vom BMA herausgegebene Zeitschrift 1997;314:665. (27.) Boyce JM. Should we vigorously try to contain and control methicillin-resistant Staphylococcus aureus? Infect Control Hosp Epidemiol 1991;12:46-54. (28.) Working Party report. Revised guidelines for the control of epidemic methicillin-resistant Staphylococcus aureus. J Hosp Infect 1990;16:351-77. (29.) Ayliffe GA, Buckles This article is about the comic strip. For the fastener, see Buckle Buckles is a comic strip by David Gilbert about the misadventures of a naïve dog. Buckles debuted on March 25, 1996. A, Casewell MW, Cookson BD, Cox RA, Duckworth GJ, et al. Revised guidelines for control of MRSA: applying appropriately-based recommendations. J Hosp Infect 1999;43:315-6. (30.) Working Party report. Revised guidelines for the control of methicillin-resistant Staphylococcus aureus infection in hospitals. J Hosp Infect 1998;39:253-90. (31.) Mulligan mul·li·gan n. A golf shot not tallied against the score, granted in informal play after a poor shot especially from the tee. [Probably from the name Mulligan.] Noun 1. ME, Murray-Leisure KA, Ribner BS, Standiford HC, John JF, Korvick JA, et al. Methicillin-resistant Staphylococcus aureus: a consensus review of the microbiology microbiology: see biology. microbiology Scientific study of microorganisms, a diverse group of simple life-forms including protozoans, algae, molds, bacteria, and viruses. , pathogenesis pathogenesis /patho·gen·e·sis/ (path?ah-jen´e-sis) the development of morbid conditions or of disease; more specifically the cellular events and reactions and other pathologic mechanisms occurring in the development of disease. , and epidemiology with implications for prevention and management. Am J Med 1993;94:313-28. (32.) Wenzel RP, Reagan DR, Bertino JS, Baron EJ, Arias K. Methicillin-resistant Staphylococcus aureus outbreak: a consensus panel's definition and management guidelines. Am J Infect Control 1998;26:102-10. (33.) Centers for Disease Control and Prevention Centers for Disease Control and Prevention (CDC), agency of the U.S. Public Health Service since 1973, with headquarters in Atlanta; it was established in 1946 as the Communicable Disease Center. . Staphylococcus aureus Staphylococcus au·re·us n. A bacterium that causes furunculosis, pyemia, osteomyelitis, suppuration of wounds, and food poisoning. Staphylococcus aureus Staphylococcus pyogenes resistant to vancomycin--United States, 2002. MMWR MMWR Morbidity & Mortality Weekly Report Epidemiology A news bulletin published by the CDC, which provides epidemiologic data–eg, statistics on the incidence of AIDS, rabies, rubella, STDs and other communicable diseases, causes of mortality–eg, Morb Mortal Wkly Rep 2002;51;565-7. Address for correspondence: Pirkko Kotilainen, Department of Medicine, Turku University Central Hospital, Kiinamyllynkatu 4-8, 20520 Turku, Finland; fax: +358 2 3132030; e-mail: pirkko.kotilainen@utu.fi Pirkko Kotilainen, * ([dagger]) Marianne Routamaa, * Reijo Peltonen, * Jarmo Oksi,* Esa Rintala, ([double dagger double dagger n. A reference mark (  ) used in printing and writing. Also called diesis.Noun 1. ]) Olli Meurman,* Olli-Pekka Lehtonen,* Erkki Eerola, ([sections]) Saara Salmenlinna, ([paragraph]) Jaana Vuopio-Varkila, ([paragraph]) and Tuire Rossi * * Turku University Central Hospital, Turku, Finland; ([dagger]) National Public Health Institute, Turku, Finland; ([double dagger]) Satakunta Central Hospital, Pori, Finland; ([sections]) Turku University, Turku, Finland; and ([paragraph]) National Public Health Institute, Helsinki, Finland Dr. Kotilainen is professor of infectious diseases at the Medical School of the University of Turku For The university founded in 1640, see . History The Royal Academy of Turku
Diseases caused by bacteria. The most common infectious diseases, they range from minor skin infections to bubonic plague and tuberculosis. Until the mid-20th century, bacterial pneumonia was probably the leading cause of death among the elderly. in a clinical setting; and the increasing antimicrobial resistance problems of Salmonella enterica Salmonella enterica is a rod shaped, flagellated, Gram-negative bacterium, and a member of the genus Salmonella.[1] Serovars S. enterica has an extraordinarily large number of serovars and Campylobacter jejuni Campylobacter jejuni Vibrio jejuni, Campylobacter fetus ssp jejuni A curved or spiral gram-negative bacillus with a single polar flagellum Epidemiology Linked to contact with domestic and farm animals, unpasteurized milk, primates, day care . |
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