1 / 87

Infection Prevention and Control

Infection Prevention and Control. Starting with the Basics. Objectives. Speak to the relationship between Infection Prevention methods and reduced transmission of multidrug resistant organisms and C. difficile.

derex
Download Presentation

Infection Prevention and Control

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Infection Prevention and Control Starting with the Basics

  2. Objectives • Speak to the relationship between Infection Prevention methods and reduced transmission of multidrug resistant organisms and C. difficile. • Explain the importance of hand hygiene including barriers preventing proper hand hygiene • Describe environmental cleaning issues and assessment methods for cleaning validation • Discuss recommendations for equipment cleaning and disinfection • List the personal protective equipment used to prevent the spread of organisms

  3. MDRO Definition Multi Drug Resistant Organisms • Microorganisms, predominantly bacteria, that are resistant to one or more classes of antimicrobial agents • Some common ones include: MRSA, VRE, CRE ESBL, and Acinetobacter

  4. Colonized or Infected:What is the Difference? • People who carry bacteria without evidence of infection (fever, purulent drainage, increased white blood cell count) are colonized • If an infection develops, it is usually from bacteria that colonize patients • Bacteria that colonize patients can be transmitted from one patient to another by the hands of healthcare workers ~ Bacteria can be transmitted even if the patient is not infected ~

  5. Resistant Staphylococcus • MRSA-Methicillin-resistant Staphylococcus aureus causes a range of illnesses, from skin and wound infections to pneumonia and bloodstream infections that can cause sepsis and death. • Staph bacteria, including MRSA, are one of the most common causes of healthcare-associated infections. • Vancomycin is a common antibiotic used for treatment of MRSA infections. Staphylococcus aureus can become resistant to Vancomycin . http://www.cdc.gov/mrsa/

  6. Resistant Enterococcus • VRE -Vancomycin resistant enterococcus can live in the human intestines and female genital tract without causing disease. • VRE can cause infections of the urinary tract, the bloodstream, or of wounds associated with catheters or surgical procedures. • People with colonized VRE  do not need treatment. • Most VRE infections can be treated with antibiotics other than Vancomycin. http://www.cdc.gov/HAI/organisms/vre/vre.html

  7. Carbapenem Resistant Organisms • CRE - Carbapenem-resistant Enterobacteriaceae bacteria are difficult to treat because they have high levels of resistance to antibiotics. • Klebsiellaspecies and Escherichia coli (E. coli) are examples of Enterobacteriaceae, a normal part of the human gut bacteria, that can become carbapenem-resistant. • Types of CRE are sometimes known as KPC (Klebsiella pneumoniae carbapenemase) and NDM (New Delhi Metallo-beta-lactamase). KPC and NDM are enzymes that break down carbapenems and make them ineffective. • Both of these enzymes, as well as the enzyme VIM (Verona Integron-Mediated Metallo-β-lactamase) have also been reported in Pseudomonas. http://www.cdc.gov/HAI/organisms/cre/

  8. ESBL Resistance • ESBL – Some bacteria product Extended Spectrum Beta Lactamase enzymes that mediate resistance to extended-spectrum third generation cephalosporins , but do not affect cephamycins (e.g., cefoxitin and cefotetan) or carbapenems (e.g., meropenem or imipenem). • K. pneumoniae, K. oxytoca, E. coli, and some Enterobacteriaceae, such as Salmonella species and Proteus mirabilis, and isolates of Pseudomonas aeruginosacan produce ESBLs. http://www.cdc.gov/HAI/settings/lab/lab_esbl.html

  9. Resistant Acinetobacter • Acinetobacter are gram-negative bacteria that cause of pneumonia, bloodstream infections, or wound infections among critically ill patients. • Many of these bacteria have become very resistant to antibiotics. • May “colonize” a patient especially in tracheostomy sites or open wounds. • Can be spread to susceptible persons by person-to-person contact or contact with contaminated surfaces. http://www.cdc.gov/HAI/organisms/acinetobacter.html

  10. Where Does C. difficile fit into this discussion? • Clostridium difficile is not a multidrug resistant organism • C. difficile is an anaerobic, gram-positive, spore-forming bacillus, first detected in 1935 in lower intestinal microbiota of healthy newborns. • C. difficile was thought to be nonpathogenic for nearly four decades • In 1978, C.difficile was identified as the primary cause of pseudomembranous colitis in patients treated with antibiotics. http://www.apic.org/Resource_/EliminationGuideForm/59397fc6-3f90-43d1-9325-e8be75d86888/File/2013CDiffFinal.pdf

  11. C. Difficile Facts • C. difficile infection (CDI) is the leading cause of antibiotic-associated diarrhea and a highly problematic healthcare-associated infection • The major risk factors for CDI are exposure to antibiotics, hospitalization, and advanced age. • The incubation period following acquisition is suggested to be short (median of 2–3 days). • There are two states of C. difficile: The vegetative stage does not survive long, but the spore state can persist in the environment for many months.

  12. Transmission of MDRO Transmission and persistence of the resistant strain is determined by: • Availability of vulnerable patients • Selective pressure exerted by antimicrobial use • Colonization pressure • Utilization of prevention efforts MDRO are often used as surveillance markers to monitor for IC breaches

  13. CDC/HICPAC System for Categorizing Recommendations • Category IA Strongly recommended for implementation and strongly supported by well designed experimental, clinical, or epidemiologic studies. • Category IB Strongly recommended for implementation and supported by some experimental, clinical, or epidemiologic studies and a strong theoretical rationale. • Category IC Required for implementation, as mandated by federal and/or state regulation or standard. • Category II Suggested for implementation and supported by suggestive clinical or epidemiologic studies or a theoretical rationale. • No recommendation Unresolved issue. Practices for which insufficient evidence or no consensus regarding efficacy exists.

  14. CDC Recommendations • Two Tiered approach for prevention and control of MDRO in a healthcare setting • Tier one are general recommendations for routine prevention and control • Tier two are intensified MDRO control efforts to institute when MDRO rates are not decreasing, an outbreak or new MDRO organism is identified http://www.cdc.gov/hicpac/pdf/MDRO/MDROGuideline2006.pdf

  15. Guideline Area Emphasis • Administrative Measures/Adherence Monitoring • MDRO Education • Judicious Antimicrobial Use • Surveillance • Infection Control Precautions • Environmental Measures • Decolonization

  16. Administrative Support • Provide administrative support and commit both fiscal and human resources to prevent and control MDRO transmission (IB) • Enforce adherence to Standard and Contact Precautions (IB) • Feedback to administration and staff on rates (IB) • Participation in MDRO coalitions (IB) • Effective communication (II)

  17. MDRO Education • Staff education should occur as part of orientation and periodically based on facility assessment (IB) • Adherence to hand hygiene practices in conjunction with other control measures have been associated temporally with decreases in MDRO transmission in various healthcare settings.

  18. Judicious Antimicrobial Use • Hospitals and LTCFs should have a multi-disciplinary process to review susceptibility patterns and antimicrobial agents in the formulary (IB) • Implement a system to prompt clinicians to use the appropriate agent and regimen for a given clinical situation (IB) • Provide clinicians with antimicrobial susceptibility reports at least annually (IB)

  19. Surveillance • Establish a system that the lab promptly notifies IC, Medical Director, or designee if a novel resistance pattern is detected (IB) • Hospitals and LTCF labs: • Lab protocols for storing isolates for elected molecular typing when needed to confirm epi-link (IB) • System to detect and communicate evidence of MDRO’s in clinical isolates (IB) • Prepare facility and special care unit specific antimicrobial susceptibility reports and monitor for resistance changes (IA/IB/IC) • Monitor trends in incidence of target MDRO’s over time (IA)

  20. Environmental Measures • Follow recommended cleaning, disinfection, and sterilization guidelines • Dedicate non-critical medical items • Prioritize room cleaning • Focus on cleaning and disinfecting frequently touched surfaces and equipment in immediate vicinity of patient.

  21. Decolonization • Generally not routinely recommended • Do not use topical Mupirocin to routinely decolonized MRSA patients as a component for MRSA control in any healthcare setting (IB) • Limit decolonization to health care providers found to be colonized with MRSA who have an epi-link to ongoing transmission of MRSA to patients (IB) • Consult with experts on a case-by-case basis regarding decolonization.

  22. Tier 1 - IC Precautions to Prevent TransmissionAcute Care Settings • Follow Standard Precautions in all healthcare settings (IB) • Contact precautions in acute care settings • Implement for all patients known to be colonized or infected with target MDRO (IB) • Patient placement in single room or cohort (IB)

  23. Tier 2 - Intensified MDRO ControlAcute Care Settings • Contact precautions should be used routinely for all infected and known colonized patients (IA) • Don gowns and gloves upon entry to patient’s room or cubicle (IB) • Maintain contact precautions if active surveillance cultures are obtained until results are negative (IB) • Patient placement-single room or cohort • Implement admission and placement policies as needed (IB) • Stop new admissions to the unit or facility if transmission continues despite intensified control measures (IB)

  24. Infection Control and preventionExtended/Long-term Care • Different patient population • Mobile population • Cognitive issues may be a factor • Incontinence issues may be a factor • Frequent hospitalizations • Increased antibiotic use • Colonization pressure • Double-room/roommates • Group living for extended time period • Group activities • This is their home!! http://www.apic.org/Resource_/TinyMceFileManager/Practice_Guidance/id_APIC-SHEA_GuidelineforICinLTCFs.pdf

  25. IC Precautions to Prevent Transmission LTCFs Tier 1 and Tier 2 Tier 1: • Follow Standard Precautions in all healthcare settings (IB) • Consider the individual patient’s clinical situation and facility resources in deciding whether to implement Contact Precautions (II) • Patient placement in single room or cohort (IB) Tier 2: • Use contact precautions routinely for patients colonized or infected (IA) • Modify Contact Precautions for patients whose site of colonization or infection can be contained and who can observe good hand hygiene to enter common areas and group activities • Maintain Contact Precautions until active surveillance cultures are negative (IB) • Implement policies for patient admission and placement (IB) • Stop admissions if transmission continues (IB)

  26. Patient Placement • When single-patient rooms are available, assign priority for these rooms to patients with known or suspected MDRO colonization or infection. • When single-patient rooms are not available, cohort patients with the same MDRO in the same room or patient-care area. • When cohorting patients with the same MDRO is not possible, place MDRO patients in rooms with patients who are at low risk for acquisition of MDROs and associated adverse outcomes from infection and are likely to have short lengths of stay. • Give highest priority to those patients who have conditions that may facilitate transmission, e.g., uncontained secretions or excretions.

  27. Impact of Contact precautions on patient well-being • Studies found that HCP, including attending physicians, were half as likely to enter the rooms of or examine patient on contact precautions • Patients placed on Contract Precautions for MRSA had significantly more preventable adverse events, expressed greater dissatisfaction with their treatment and had less documented care than non-isolated patients

  28. Infection PreventionCommonality • Proper hand hygiene, proper use of PPE, Proper environmental cleaning, and proper cleaning, disinfection and/or sterilization of equipment, and avoiding reuse of single-use items. • Infection Prevention encompasses many factors • Breaks or missteps with any of these factors can result in risk of infection • Patients • Staff • Visitors

  29. Multidose vials Contaminated Hands Medical Procedures Environmental Surfaces Reusable Equipment Sick Visitors Improper PPE Use Prolonged Use of lines Contaminated meds Improper Disinfection And Sterilization Reuse of single-use items Ill Employees

  30. Hand Hygiene

  31. Hand Hygiene • Hand hygiene should be a cornerstone of prevention efforts • Prevents transmission of pathogens via hands of healthcare personnel • As part of a hand hygiene intervention, consider: • Ensuring easy access to soap and water/alcohol-based hand sanitizer • Education for healthcare personnel and patients • Observation of practices - particularly around high-risk procedures (before and after contact with colonized or infected patients) • Feedback – “Just in time” feedback if failure to perform hand hygiene observed • Positive and Negative feedback http://www.cdc.gov/mmwr/PDF/rr/rr5116.pdf

  32. Alcohol Hand SanitizerKnow the Regulations Fire Code and/or Life Safety • The maximum individual dispenser fluid • 1.2 Liters (1200mL; 0.3 gallons) for dispensers in patient rooms, corridors and areas open to corridors • Corridors must be at least 6 feet wide • 2.0 Liters (2000mL; 0.5 gallons) for dispensers in suites of rooms. • Dispensers must be installed at least 4 feet apart • Dispenser must measure at least 6 inches from the center line to the ignition source. • Dispensers installed directly over carpeted floors shall be permitted only in sprinkler smoke compartments • More storage and use regulations can be found at: https://www.ndhealth.gov/LifeSafety/PDF_Files/ALCOHOL_BASED_HAND_RUB_SOLUTIONS.pdf

  33. Poor Adherence to Hand HygieneSelf Reported • • Hand washing agents cause irritation and dryness • • Sinks are inconveniently located/shortage of sinks • • Lack of soap and paper towels • • Often too busy/insufficient time • • Understaffing/overcrowding • • Patient needs take priority • • Hand hygiene interferes with health-care worker relationships with patients • • Low risk of acquiring infection from patients • • Wearing of gloves/beliefs that glove use obviates the need for hand hygiene • • Lack of knowledge of guidelines/protocols • • Not thinking about it/forgetfulness • • No role model from colleagues or superiors • • Skepticism regarding the value of hand hygiene • • Disagreement with the recommendations • • Lack of scientific information of definitive impact of improved hand hygiene on health-care–associated infection rates

  34. Personnel with heavy workloads have little time to wash their hands A recent study showed that the busier healthcare workers are, the less likely they are to wash their hands when recommended. Hand washing Compliance Increasing Workload

  35. Sinks are often poorly located • Sinks used for hand washing are often installed in inconvenient locations. • Can you find the sink in this picture?

  36. Location, location, location ... • The sink is located behind the patient’s bed and behind several IV pumps. • (see arrow) • Personnel are unlikely to use hand washing sinks if they are not readily accessible. • Be involved with all remodel and construction projects from the design phase to completion of the project

  37. Another reason why personnel don’t wash their hands often • Frequent hand washing with soap and water often causes skin irritation and dryness. • Staff should be involved with hand hygiene product selection • Facilities should provide lotion that is compatible with soaps, sanitizers, and gloves

  38. Many personnel don’t realize when they have germs on their hands • Healthcare workers can get 100s or 1000s of bacteria on their hands by doing simple tasks, like: • pulling patients up in bed • taking a blood pressure or pulse • touching a patient’s hand • rolling patients over in bed • touching the patient’s gown or bed sheets • touching equipment like bedside rails, over-bed tables, IV pumps Culture plate showing growth of bacteria 24 hours after a nurse placed her hand on the plate

  39. Using alcohol-based hand sanitizer to improve hand hygiene More than 20 published studies have shown that alcohol-based hand sanitizers are more effective than either plain soap or antibacterial soaps in reducing the number of live bacteria on the hands. Adapted from: Hosp Epidemiol Infect Control, 2nd Edition, 1999.

  40. Alcohol-based Hand Sanitizer Advantages • When compared to traditional soap and water hand washing, alcohol hand sanitizers have the following advantages: • take less time to use • can be made more accessible than sinks • cause less skin irritation and dryness • are more effective in reducing the number of bacteria on hands • makes alcohol-based hand sanitizers readily available to personnel • has led to improved hand hygiene practices • Infection Preventionists need to assess that hand sanitizer is available in convenient locations

  41. Soap and Water has it’s Place • For hands that are visibly dirty or contaminated with • proteinaceous material or are visibly soiled with blood or other body fluids • Before eating • After using the restroom • After exposure to C. difficile or Bacillus anthracis is suspected or proven. Hand Sanitizer has it’s Place also • Hand sanitizer dispensers should be placed in safe locations • Pediatric units, chemical dependency units, cognitive and behavioral settings

  42. Measuring Hand Hygiene Methods of Measure Consider two methods of measurement: • Observation • Time consuming/bias • Patient or visitor/family surveys • Patient knowledge/cognition/recall • Product Measurement • Proxy measure/inaccuracies • Electronic Monitoring • Cost

  43. Measuring Hand Hygiene Compliance • Objective • Measurable • Unbiased • Consistent • Repeatable • Accurate • Comparable • Observation most common type used • Issues include: • Hawthorne Effect • Time Consuming • Bias by observers • Inability of anonymously observe behind closed doors Staff education and feedback are very important components to a hand hygiene program

  44. How Healthcare workers contaminate their hands Frequency of Environmental Contamination of Surfaces in the Rooms of Patients with Methicillin-Resistant S. aureus (MRSA) Resistant bacteria on the skin or in the gastrointestinal tract of patients can often be found on common items Healthcare workers can contaminate their hands by touching environmental surfaces near affected patients. Percent of Surfaces Contaminated

  45. Environmental Cleaning

  46. VRE on Hands and Environmental Surfaces Studies have been conducted to monitor the transmission of VRE • Up to 41% of healthcare worker’s hands sampled (after patient care and before hand hygiene) were positive for VRE1 • VRE were recovered from a number of environmental surfaces in patient rooms • VRE survived on a countertop for up to 7 days2 1Hayden MK, Clin Infect Diseases 2000;31:1058-1065. 2 Noskin G, Infect Control and Hosp Epidemi 1995;16:577-581.

  47. The Inanimate Environment Can Facilitate Transmission Xrepresents VRE culture positive sites ~ Contaminated surfaces increase cross-transmission ~

  48. Disinfectant Use • In patient-care areas, visibly soiled areas should first be cleaned and then chemically disinfected. • For disinfection, the precleaned areas should be moistened with the appropriate disinfectant for the stated contact time and allowed to air dry. • Gloves should be worn during cleaning and decontaminating procedures.

  49. Types of DisinfectantsSpaulding Categorization • There are three levels of disinfection: • High Level • kills all organisms, except high levels of bacterial spores • Intermediate Level • kills mycobacteria, most viruses, and bacteria as chemical germicide registered as a "tuberculocide" by the EPA • Low Level • kills some viruses and bacteria as a chemical germicide registered as a hospital disinfectant by the EPA. http://www.cdc.gov/hicpac/Disinfection_Sterilization/2_approach.html

  50. Low or Intermediate Level Disinfection • Contact Time • Short contact time may be difficult to obtain • Room turn around time can be a factor • Orientation and ongoing staff education • Quiz staff and provide real-time education • Manufacturer recommendations • Review to make sure disinfectants can be used • CDC guidelines • Some non critical equipment may not have M. recommendations available. CDC guidelines should be considered based on equipment construction and usage.

More Related