Sepsis from a microbiological
perspective
Veronika Holá
Institute for Microbiology
Faculty of Medicine, Masaryk University 
and St. Anne´s Faculty Hospital in Brno
TZKM, spring 2018
Sepsis
• Definition od sepsis
• Septic haemodynamic
• Presence of infection
• SIRS
• Systemic Inflammatory Response Syndrome (SIRS)
• Sepsis = SIRS + infection
• Severe sepsis = sepssis + signs of organ dysfunction
• Septic shock = severe sepsis + haemodynamic changes
Response of the macroorganism
Infection, SIRS, sepsis
Bone, R., Balk, R., Cerra, F., Dellinger, R., Fein, A., Knaus, W., Schein, R., et al. (1992). Definitions for sepsis and organ failure and
guidelines for the use of innovative therapies in sepsis. The ACCP/SCCM Consensus Conference Committee. American College of Chest
Physicians/Society of Critical Care Medicine. Chest, 101(6), 1644–1655.
Sepsis
• Cytokine storm
• Systemic Inflammatory Response Syndrome (SIRS)
• Reaction of immune system to microbial products 
• SIRS include
– 1) Body temperature <36 °C or >38 °C 
– 2) Heart rate greater than 90 beats per minute
– 3) Tachypnea (high respiratory rate), >20 breaths per minute 
or arterial partial pressure of carbon dioxide <4.3 kPa (32 mmHg)
– 4) White blood cell count <4000 cells/mm³ (4 x 109 cells/L) or >12,000 
cells/mm³ (12 x 109 cells/L)
or the presence of >10% immature neutrophils (band forms) ‐ "left‐shift"
• The septic patients meet criteria for SIRS
• Clinical symptoms
– Temperature
– Respiratory rate
– Pulse rate
– Nausea
– Confusion
– Blood pressure
– Urine secretion
• + Laboratory markers
– Number of leukocytes
– Haemocoagulation
– Respiratory‐metabolical acidosis
– Organ dysfunction
– Inflammatory markers
Bedside dg. of sepsis
SIRS criteria x SOFA score x qSOFA score
• SOFA score ‐ Sequential organ failure assessment 
score
• Based on six different scores
– Respiratory, cardiovascular, hepatic, coagulation, renal and 
neurological systems
• qSOFA ‐ simplified
– Low blood pressure (SBP ≤ 100 mmHg)
– High respiratory rate (≥ 22 breaths/min)
– Altered mentation (GCS < 15)
Sepsis vs. microbaemia
Bacteriaemia
 !!!
Starting sepsis

Interaction with immunity system

Cytokines  endothelium of capillars + inflammation

Systemic Inflammatory Response Syndrome (SIRS)
+
Compensatory Anti‐inflammatory Response Syndrome
(CARS)
Sepsis vs. microbaemia
• Sepsis x bacteraemia and bacteraemia x sepsis
• Blood normally sterile 
• Not necessarily present in developed sepsis 
• High risk of multi‐organ failure
• Sepsis ‐ mortality
• Septic shock
The phases of the development of 
the generalized infection 
Recovery
Lethal result Chronic sepsis
1.
2.
3.
4.
5.
Syndrome of the systemic 
inflammatory answer
Purulent resorptive fever
Local inflectional focus
SepticopyemiaSepticemia
• Microbial process
• Necessary conditions
• Most bacteria – only in attenuated patient
Pathogenesis of sepsis
http://faculty.washington.edu/alexbert/MEDEX/
• Clinical symptoms
• Pathological physiology
– Local x generalized inflammation
• Laboratory markers
www.nzma.org.nz
• Lungs
• Kidneys
• Heart
• Livers
• Intestine
• Brain
• Adrenals
• Pancreas (B‐cells)
• Coagulation system (DIC)
• Leukocytes (PMNs)
Organ dysfunction in sepsis
Therapy of sepsis
• Intensive
• Complex
• ATB treatment not satisfactory
• Need of shock treatment
• Event. surgical intervention
Spectrum of etiological agents of sepses
• Autumn 2017 lecture
– Sepsis in localised infections
– Wound sepsis
– Fulminant sepsis
– Urosepsis
– Intraabdominal sepsis
– Nosocomial sepsis
– Sepsis puerperalis
– Newborn sepsis
– Blood stream infections
• Catheter‐related BSI & sepsis
Catheter related sepsis
• Catheter‐related blood stream infection
• Colonisation of catheter
• Suspect catheter‐associated infection
• Local infection of catheter
Catheter related sepsis
• Peripheral venous catheters
• Peripheral arterial catheters
• Schwan‐Ganz catheters
• Central venous catheters (CVC)
• Tunnelised CVC
• Implanted venous ports
Venous catheters
• Infection
• Extraluminar
• Intraluminar
• Source of the infection
Infection of the catheter
Infection of the catheter
• Catheter sepsis
• Trombophlebitis
• Central sepsis
– Endarteritis and (trombo‐)phlebitis
– Endocarditis
• Accute endocarditis
• Subaccute and chronic endocarditis  sepsis lenta 
• „Culture‐negative“ endocarditis
BSI related sepsis
CoNS
Enterobacteria
PSSP
STAU
ECSP & SRSP
yeasts
Other
(Sherertz et al. , 1990)
(Wisplinghoff et al., 2004 )
Etiology of CRBSI I.
• Biofilm & Resistance
G+ 60-70%
CoNS
S. aureus
Enterococci and streptococci
G-
Enterobacteria
Pseudomonas, Burkholderia,
Stenotrophomonas, aj.
Yeasts
Other MRSA
EARSS Annual Report 2014
VRE
E. faecium
Karbapenemases
K. pneumoniae
?
• Specifity of the examination
Etiology of CRBSI II.
Karbapenemases
P. aeruginosa
MDR (FQ, AMG, CEF III.)
K. pneumoniae
PREVENTION OF CATHETER-RELATED
INFECTIONS
IS PREFERABLE TO TREATMENT
• Aseptic character of catheter insertion
+ 
• Expirienced personnel
+ 
• High‐quality subsequent care
• Place of the catheter insertion
• No. of catheter lumen
• Surface treatment of the entry
• Better connection systems and in‐line filtration
• Implanted ports and tunnelisation
Prevention of CRBSI – catheter insertion
• Aseptic manipulation
• Expirienced personnel
• Care management
• Minimalisation of manipulation
• Regular control
• Treatment of site of insertion by disinfectants  No ATB oitments
• Prophylactic administration of anticoagulants  No systemic prophylaxis
with ATB
• Regular exchange of short‐term catheters  No preventive exchange of
long‐term catheters (CVC)
• Regular exchange of infusion sets and accessories
Prevention of CRBSI – catheter care
• Material
• Surface treatment
• Impregnation of catheter by antimicrobial compounds
Prevention of CRBSI – catheter
• Impregnation with antiseptics
• Impregnation with ATB
• Impregnation with Ag
• Other chemicals used for catheter surface impregantion
(in vitro)
Prevention of CRBSI – catheter
• Rapidity
• Sensitivity
• Specifity 
• Correct sampling technique
Microbiological dg. of sepsis
• Diagnosis of catheter sepsis
– Positive quantitative culture of extracted catheter
– Positive haemoculture
– Sepsis without response to ATB therapy, positive 
response to the catheter extraction
Catheter sepsis
Haemoculture sampling
• Patient with suspiction of bacterial infection
– CRP > 60 mg/l
– Fever in anamnesis
– (Inserted catheters)
• Aseptic sampling
• 2‐3 haemoculture bottles
• 30‐60 min. intervals
• Before ATB treatment
• If treated, sample prior to next ATB dose
Haemoculture sampling
• Skin disinfection
– 0,5% chlorhexidine in 70% alcohol
– Polyvinylpyrolidon w. 10% of iodine
– Iodine tincture
– 70% alcohol
• Change of needle
• Disinfection of bottle end‐seal
Bruker Daltonics
textbookofbacteriology.net
PCR – quantification
Broad range PCR  assay
FISH (Fluorescent in situ
hybridisation)
etc.
ID 
(60 min)
www.aquilantscientific.ie
Culture (up to 7 days)
„Genetics“(cca 37 hod.)
Sequenace
PCR identification
Typing (MLAST, PFGE…)
etc.
ID     (hrs‐days)
Rapidity + sensitivity + specifity
ID     (hrs‐days)
Haemoculture examination
Haemoculture examination
• Positivity
• Length of culture
– HACEK 
– Fungaemia
• TTD 
• No of anaerobic BSI very low
• Serology
• Biochemistry
• MALDI from sample
Other possibilitieas of sepsis
diagnostic
A) Catheter in situ
• Quantification of haemocultures
• Quantity of microbes in catheter sample
• Comparison of microbial quantity in samples from periphery and from
catheter
• Difference in TTD in haemocultures from periphery and from catheter
• Intraluminar brush
• AOLC (Acridine Orange Leukocyte Cytospin) 
Proof of catheter colonisation
B) Extracted catheter
• Sonication, vortexing
• Semiquantitative method
• Intraluminar flush
• Subculture + subsequent inoculation
• Catheter staining
Proof of catheter colonisation
• 80% of primary bacteraemia CVCs
• CoNS
• STAU 
• ECSP & CASP 
• Catheter infection
– Extraluminar
– Haematogenic infection
– Endoluminar
Interpretation of positive results
Interpretation of positive results
• Depends on the species of isolated microbe
• Obligate pathogens
• Typical nosocomial pathogens of BSI
• Saprophytic microbes
Therapy of CRBSI
Retaining of infected catheter
Less serious CRBSI
Stabilised patient
Reaction on ATB therapy
Attempt at eradication of biofilm
Elimination
of focus
+ 
ATB
• Systemic ATB treatment
 Fails in eradication of biofilm layer
• ATB with higher anti‐biofilm effect
• Advantage to combiate ATBs
• Antimicrobial lock
ATB therapy of CRBSI
Chance of ATBs to affect infectious
process
Focal infections
MODS
multiple organ dysfunction syndrome
Sepsis
Septic shock
Bacteriaemia
& fungaemia
ATB
M
O
R
T
A
L
I
T
Y
ATB
ATB
Treatment of the sepsis
• Control the infection
– Elimination of CA 
– Finding the focus and surgical intervention
– Removal of cause of septic state
• Symptomacic therapy
– Breething support 
– Adjustment of haemodynamic
– Support for failing organs
– Continuous veno‐venous hemodiafiltration
– In DIC (disseminated intravascular coagulation)