Lecture 5.1 - Hospital Acquired Infections PDF

Summary

This lecture covers hospital acquired infections (HAIs), including types, transmission, predisposing factors, and preventative measures. It details various types of infections and associated organisms. The lecture also looks into ventilator-associated pneumonia (VAP) and catheter-related infections, offering prevention strategies.

Full Transcript

Key terms:
◦Hospital acquired infections - HAI
◦Healthcare associated infections - HCAI
◦Nosocomial infections

Hospital acquired infections:
◦Infections arising as a consequence of providing healthcare
◦Neither present nor incubating at time of admission (onset is at least 48 hours after admission)
◦Also includes infections in hospital visitors and healthcare workers
◦NHS England defines probable healthcare-associated COVID-19 inpatient infection as patients diagnosed more than 7 days after admission

Consequences:
◦Hospital acquired infections (HAIs) are a major health and economic burden (8% of inpatients)
◦Results in increase in:
‣ Length of hospitalisation
‣ Morbidity
‣ Cost of care
‣ Mortality
◦Highest prevalence of HAIs - generally in ICU
◦Preventable

Types of infections:
◦HAIs can be classified into six main types which account for 80% of all HAIs:
‣ Respiratory tract infections (pneumonia/other respiratory infections) - 22.8%
‣ Urinary tract infections - 17.2%
‣ Surgical site infections (SSI) - 15.7%
‣ Clinical sepsis - 10.5%
‣ Gastrointestinal infections - 8.8%
‣ Bloodstream infections - 7.3%

Infection transmission:
◦Routes of entry of microbes
◦Skin - 10%
◦Gastrointestinal - 21%
◦Respiratory - 14%
◦Urogenital - 20%
◦Person to person transmission (respiratory/faecal-oral)

Predisposing factors in patients:
◦Extremes of age
◦Obesity/malnourished
◦Diabetes
◦Cancer
◦Immunosuppression
 ◦Smoker
◦Surgical patient
◦Emergency admission
◦Prosthetic devices

Organisms causing hospital acquired infections:
◦Bacteria (staphylococcus aureus including MRSA, Clostridium difficile, Escherichia coli, Klebsiella pneumoniae, Pseudomonas aeruginosa)
◦Viruses (blood borne viruses hepatitis B and C, HIV, Norovirus, Rotavirus, SARS-CoV-2)
◦Fungi (Candida Albicans, Aspergillus species)
◦Parasites (Cryptosporidium spp - patient with cryptosporidiosis contaminated ice cubes through frequent use of the ice machines)

Simplified Ventilator system:

Ventilator associated pneumonia (VAP):
◦Pneumonia develops in 5-20% of mechanically ventilated patients
◦Mortality of ventilator associated infection is 10%
◦Associated complication - pulmonary ARDS (acute respiratory distress syndrome), pneumothorax, pulmonary oedema

Pathogenesis of VAP:
◦Micro aspiration of oropharyngeal pathogens around the cuff
◦Micro aspiration of gastro-enteric regurgitated secretion
◦Bio film within the endotracheal tube
◦Cross contamination via respiratory equipment

Ventilator associated Pneumonia:
◦Causative pathogens
‣ EARLY (5 days of being off ventilator) - MRSA, Pseudomonas species, multi-drug resistant organisms

VAP bundle:
◦Elevation of the head of the bed 30 degrees to prevent aspiration
◦Sedation holiday to check for continued ventilation needs - try to get patient to breathe on their own
◦Weaning trials to indicate if the ventilator is still needed daily
◦Medication to prevent gastrointestinal bleeding (stress-related mucosal disease is a typical complication of critically ill patients)
 ◦DVT prophylaxis (thromboembolism is a major complication in these patients)
◦Sub-glottal suctioning to prevent colonisation and infection from pooling of secretions must be done every 4 hours
◦Oral care to prevent accumulation of oral bacteria every 4 hours

Catheter related blood stream infections:
◦Introduction to skin pathogens at the time of insertion
◦Contamination of the catheter hub(s)
◦Contaminated infusate (every infusate should be sterilised to a certain standard)
◦Migration of skin pathogens into the cutaneous catheter tract
◦Hematogenous seeding from a distant infectious focus
◦Most common pathogens: S.epidermis, S.aureus, Candida albicans

Prevention measures:
◦Fill out central line insertion check list
◦Hand hygiene prior to insertion
◦Use standardised supply kit that is all inclusive for the insertion of central venous catheter
◦Use maximal barrier precautions (full body drape, wearing of cap, mask, gown and gloves)
◦Clean skin with chlorhexidine and allow to air dry
◦Need for continuation of catheter is evaluated on a daily bases
◦Central line dressings are changed every 7 days
◦Positive pressure caps are used on all central line ports and changed every 7 days

Surgical site infections (SSI):
◦Most common HAI in surgical patients
◦Superficial incisional SSI: skin + subcutaneous tissue
◦Deep incisional SSI: deep soft tissue (fascia + muscle)
◦Organ/space SSI: organs, body cavities, sub-integumental spaces
◦Occur within 30 days post-op, or within 1 year if an implant is left, and infection appears to be related to the operation
◦Most SSIs occur between 5-10 days post-operation - most vulnerable time for patient

Organisms causing SSI:
◦Enterobacterales - caused SSI are the most prevalent in large bowel surgery, contributing 48.5% of superficial SSIs and 55.7% of deep or
organ/space SSIs
◦Infecting organisms in hip and knee surgery
‣ Methicillin sensitive staphylococcus aureus
Hip 32%, knee 40.7%
‣ Methicillin resistant staphylococcus aureus
Hip 4%, knee 3.1%
‣ Coagulase-negative staphylococci
Hip 25.1%, knee 23.9%
◦Infections can also be caused by a mixture of organisms

Prevention measures:
◦Screened prior to surgery for MRSA
 ◦Chlorhexidine washes/shower
◦Alcohol containing skin prep (2% chlorhexidine gluconate in 70% isopropyl alcohol solution)
◦Preoperative antibiotics
◦Appropriate hair removal
◦Euglycemia
◦Optimise tissue oxygenation
◦Wound care
◦Best practice checklist
◦Surveillance for SSi
◦Educate providers, patient regarding SSI

Catheter associated urinary tract infection (CAUTI):
◦Approximately 20% of hospital-acquired bacteraemias arise from the urinary tract, and the mortality associated with this condition is
approximately 10%.
◦Urinary catheter associated infections are defined as an infection occurring 48 hours after insertion of a urinary catheter, signs and
symptoms of infection (fever, pain, frequency, urgency, increased white count etc) and a positive urine culture of greater than 10^3 cfu/ml

Causative organisms:
◦Multidrug resistant enterobacteriaceae (MDRE)
‣ Escherichia coli (gram negative)
‣ Klebsiella, Proteus and Pseudomonas species (gram-negative)
◦Candida albicans

Prevention of catheter associated UTI:
◦Evaluation of catheter need prior to insertion
◦Hand hygiene should be done immediately before and after any manipulation of the catheter site
◦Closed catheter system
◦Catheter securement system
◦Urinary collection bag not to be higher than the bladder
◦Urinary collection bag not to rest on the floor
◦The catheter and collecting tube should be free of kinking
◦The collecting bag should be emptied regularly

Multiresistant organisms:
◦MROs are bacteria that have become resistant to many of the antibiotics used to treat infections caused by them
◦Multidrug resistant organisms of concern are:
‣ Methicillin resistant staphylococcus aureus (MRSA)
‣ Vancomycin resistant Enterococci (VRE)
‣ Multidrug resistant Enterobacteriaceae (MDRE)

Antimicrobial resistance:
◦Antimicrobial resistance is the ability of a microbe to resist the effects of medication that once could successfully treat the microbe
◦The term antibiotic resistance is a subset of anti-microbial resistance, as it applies only to bacteria becoming resistant to antibiotics
◦Factors to consider:
 ‣ Duration of antibiotics
‣ Use of broad spectrum antibiotics
‣ Hygiene

Principles of antibiotic resistance:
◦Inactivation of antibiotic (e.g. beta-lactamase)
◦Alteration of target - or binding site
◦Alteration of metabolic pathway - prevent formation of proteins or alter DNA
◦Reduced drug accumulation

Emergence of resistance in staphylococci and gram positive bacteria:

Methicillin resistant staphylococcus aureus (MRSA):
◦Methicillin-resistant staphylococcus aureus (MRSA) refers to a group of gram-positive bacteria that are genetically distinct from other
strains of staphylococcus aureus.
‣ mecA gene codes for PBP2a which has low affinity for beta lactam antibiotics
◦Prevention - screening/handwashing/isolation
◦Management - antibiotics (vancomycin), dependent on site of infection

Norovirus:
◦Norovirus is a non-enveloped, ss +ve strand RNA virus
◦Spread by faecal-oral route
◦Norovirus infection is characterised by nausea, vomiting, watery diarrhoea, abdominal pain, and in some cases, loss of taste. A person usually
develops symptoms of gastroenteritis 12-48 hours after being exposed to norovirus
◦General lethargy, weakness, muscle aches, headaches and low-grade fevers may occur
◦Most who contract it make a full recovery within 2-3 days

Rotavirus:
◦Rotavirus is a non-enveloped ds RNA virus
◦Rotavirus (RV) is considered as the most important viral agent of acute gastroenteritis worldwide in children less than 5
◦Vaccines available for prevention of rotavirus infections
◦48 hours after the admission in hospital to 72 hours after hospital discharge

Clostridium difficile (Clostridioides difficile):
◦Clostridium difficile gram positive spore forming rods
◦Pathogenic strains produced toxic polypeptides Toxin A and Toxin B
 ‣ Toxin A and Toxin B are exotoxins which stimulate the inflammatory response
‣ Toxin A and Toxin B are enterotoxins (cause gastrointestinal symptoms)
◦Symptoms include watery diarrhoea, fever, nausea and abdominal pain. It makes up about 20% of cases of antibiotic-associated diarrhoea

Clostridium difficile associated problems:
◦Antibiotic associated diarrhoea - benign, self-limited after use of antimicrobials, clostridium difficile implicated in 10-25%
◦Antibiotic associated colitis - worse diarrhoea, fever, abdominal pain, leukocytosis, clostridium difficile implicated in 50-75%
◦Antibiotic associated pseudomembranous colitis - typical pseudomembranous, high leukocytosis, profuse diarrhoea, abdominal pain +
distension, can progress to toxic megacolon, sepsis and death (6-30%). Clostridium difficile implicated in 90-100%

Risk factors/management - clostridium difficile:
◦Antibiotic use and clostridium difficile infection:
‣ High risk - Cephalosporins, Clindamycin, Co-amoxiclav, Ciprofloxacin
‣ Intermediate risk - Amoxicillin, Carbapenems, Erythromycin
‣ Low risk - Nitrofurantoin, Penicillin V, Trimethoprim, Vancomycin
◦Healthcare environment
◦Acid suppression medication (may help clostridium difficile proliferate by altering gut flora)
◦Management - isolation measure, treatment of dehydration and vancomycin