Human Microbiome Microbiota Faecal transplant.pdf
VivekPatil679088
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May 23, 2024
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About This Presentation
Just like human genome, we have our own microbiome! Take a look into this presentation to get a wholesome picture of the concept. Must know topic for medical graduates and postgraduate students.
Slide Content
Human Microbiome
Dr Vivek Patil
PG JR
Dept. of Microbiology
AIIMS Raipur
Dr Vivek Patil
PG JR
Dept. of Microbiology
AIIMS Raipur
Contents
Introduction
Microbiology of Normal Flora
Role of Normal Flora
The human microbiome project
Faecal microbiota transplant
Introduction
Microbiology of Normal Flora
Role of Normal Flora
The human microbiome project
Faecal microbiota transplant
History of microbiome research
Biomedcentral.com
Biomedcentral.com
Defining ‘Microbiome’
“The ecological community of commensal, symbiotic &
pathogenic microorganisms that literally share our body space &
have been all but ignored as determinants of health & disease.”
(Lederberg 2001)
The microbiome comprises all of the genetic material within a
microbiota (HMP operational definition)
“The ecological community of commensal, symbiotic &
pathogenic microorganisms that literally share our body space &
have been all but ignored as determinants of health & disease.”
(Lederberg 2001)
The microbiome comprises all of the genetic material within a
microbiota (HMP operational definition)
BioMed
central/microbiome
central/microbiome
Microbiome vs Microbiota
Microbiome vs Microbiota
Microbiota : Living microorganisms found in a defined environment
Microbiome : Collection of genomes
Microbe
community
Structural
elements
Metabolites Environment
Microbiome vs Microbiota
Microbiota : Living microorganisms found in a defined environment
Microbiome : Collection of genomes
Microbe
community
Structural
elements
Metabolites Environment
Resident flora
Constant populations which cannot be completely
removed permanently.
Close association with particular area. (e.g. E.coli in
intestine)
Harmless
Re-establish themselves, when disturbed.
Prevent permanent colonisation of the body by other
organisms
Ananth Narayan
Constant populations which cannot be completely
removed permanently.
Close association with particular area. (e.g. E.coli in
intestine)
Harmless
Re-establish themselves, when disturbed.
Prevent permanent colonisation of the body by other
organisms
Ananth Narayan
Transient flora
Temporary for short interval
Produce disease when resident flora get disturbed
e.g. pneumococcus and meningococcus in
nasopharynx
Patients may acquire MDR organisms from hospital
environment & HCW
e.g. MRSA in nose and skin
MDR GNB (Klebsiella, E.coli, Pseudomonas,
Acinetobacter) in respiratory tract.
Eliminated by proper hand hygiene
Ananthnarayan
Temporary for short interval
Produce disease when resident flora get disturbed
e.g. pneumococcus and meningococcus in
nasopharynx
Patients may acquire MDR organisms from hospital
environment & HCW
e.g. MRSA in nose and skin
MDR GNB (Klebsiella, E.coli, Pseudomonas,
Acinetobacter) in respiratory tract.
Eliminated by proper hand hygiene
Ananthnarayan
Factors affecting the Microbiome
Intrinsic factors:
1.Body environment : temperature, pH, oxygen concentration,
pressure, osmolarity, and nutrient source(sebum in skin; mucous in
gut: source of C)
2.Genetics, ethnicity, gender, age
Extrinsic factors: Diet, Lifestyle, Medication, Geographic location,
Climate, Seasonality, Mode of delivery
Mode of delivery: Vaginal vs Caesarean different similar
to adult around age 3 yrs.
Bifidobacterium stimulates immunity decreased in old age
Nature review article
Intrinsic factors:
1.Body environment : temperature, pH, oxygen concentration,
pressure, osmolarity, and nutrient source(sebum in skin; mucous in
gut: source of C)
2.Genetics, ethnicity, gender, age
Extrinsic factors: Diet, Lifestyle, Medication, Geographic location,
Climate, Seasonality, Mode of delivery
Mode of delivery: Vaginal vs Caesarean different similar
to adult around age 3 yrs.
Bifidobacterium stimulates immunity decreased in old age
Nature review article
Factors shaping neonatal microbiome
(From Tamburini S, Shen N, Wu HC, Clemente
JC. The microbiome in early life: implications for health outcomes. Nat Med. 2016;22:713-722.)
(From Tamburini S, Shen N, Wu HC, Clemente
JC. The microbiome in early life: implications for health outcomes. Nat Med. 2016;22:713-722.)
North-Central India, which was primarily consuming a plant-based
diet, was found to be associated with Prevotella and also showed
an enrichment of BCAA and lipopolysaccharide biosynthesis
pathways.
In contrast, the gut microbiome of the cohort from Southern India,
which was consuming an omnivorous diet, showed associations
with Bacteroides, Ruminococcus, and Faecalibacterium and had
an enrichment of SCFA biosynthesis pathway & BCAA transporters.
diet, was found to be associated with Prevotella and also showed
an enrichment of BCAA and lipopolysaccharide biosynthesis
pathways.
In contrast, the gut microbiome of the cohort from Southern India,
which was consuming an omnivorous diet, showed associations
with Bacteroides, Ruminococcus, and Faecalibacterium and had
an enrichment of SCFA biosynthesis pathway & BCAA transporters.
The relative abundances of the six
dominant bacterial phyla in different
body sites
Unravelling the effects of the
environment and host genotype on
the gut microbiome. Nat Rev
Microbiol. 2011;9:279-290.
dominant bacterial phyla in different
body sites
Unravelling the effects of the
environment and host genotype on
the gut microbiome. Nat Rev
Microbiol. 2011;9:279-290.
Different composition but Same function!!!
(From Human Microbiome
Project Consortium)
(From Human Microbiome
Project Consortium)
NIH library
Oral cavity
Mouth of an infant at birth is not sterile and it contains mother’s
vaginal flora i.e. micrococci, streptococci, coliforms & lactobacilli
Diminish in 2-5 days after birth and are replaced
GPC & GNC predominate; anaerobe: aerobe 100:1
Anaerobes: Peptostreptococcus, Veillonella, Actinomyces,
Fusobacterium
Aerobes: Streptococcus & Neisseria
Topley and ASM Manual of clinical microbiology
Mouth of an infant at birth is not sterile and it contains mother’s
vaginal flora i.e. micrococci, streptococci, coliforms & lactobacilli
Diminish in 2-5 days after birth and are replaced
GPC & GNC predominate; anaerobe: aerobe 100:1
Anaerobes: Peptostreptococcus, Veillonella, Actinomyces,
Fusobacterium
Aerobes: Streptococcus & Neisseria
Topley and ASM Manual of clinical microbiology
Oral streptococci includes: S. salivarius (saliva & tongue)
Tooth surface: S. sanguis & S. mutans
Oral mucosa: S. vestibularis & S. sanguis
S. pneumoniae & B-haemolytic streptococci (grp A,C,F,G)
S. pyogenes can transiently colonise healthy individuals
Topley and ASM Manual of clinical microbiology
Tooth surface: S. sanguis & S. mutans
Oral mucosa: S. vestibularis & S. sanguis
S. pneumoniae & B-haemolytic streptococci (grp A,C,F,G)
S. pyogenes can transiently colonise healthy individuals
Topley and ASM Manual of clinical microbiology
20% of individuals are colonized with S. aureus.
Other GPCs :Peptostreptococcus anaerobius, Micromonas,
Abiotrophia, Gemella spp.
GNCs: Veillonella spp (15%), Neisseria, Moraxella, Kingella,
Cardiobacterium, Eikenella corrodens.
GPBs : Actinomyces is predominant, Rothia
(A. israelli, A. naeslundii, A. odontolyticus, A. meyeri, A. georgiae)
They have fimbrie, adhere to mucosa, forms slime, entrap bacteria,
prevent their removal.
Topley and ASM Manual of clinical microbiology
Other GPCs :Peptostreptococcus anaerobius, Micromonas,
Abiotrophia, Gemella spp.
GNCs: Veillonella spp (15%), Neisseria, Moraxella, Kingella,
Cardiobacterium, Eikenella corrodens.
GPBs : Actinomyces is predominant, Rothia
(A. israelli, A. naeslundii, A. odontolyticus, A. meyeri, A. georgiae)
They have fimbrie, adhere to mucosa, forms slime, entrap bacteria,
prevent their removal.
Topley and ASM Manual of clinical microbiology
Other GPBs Bifidobacterium, Corynebacterium,
Eubacterium, Lactobacillus, Propionibacterium
B. denticum (dental plaque), Lactobacillus & streptococci
(tooth caries),
GNB : Anaerobes like Fusobacterium, Bacteroides,
Porphyromonas, Prevotella, Selenomonas
Topley and ASM Manual of clinical microbiology
Eubacterium, Lactobacillus, Propionibacterium
B. denticum (dental plaque), Lactobacillus & streptococci
(tooth caries),
GNB : Anaerobes like Fusobacterium, Bacteroides,
Porphyromonas, Prevotella, Selenomonas
Topley and ASM Manual of clinical microbiology
Haemophilus spp (<5%) mc species is H. parainfluenza & non
capsulated strains of H. influenza
Actinobacillus actinomycetomcomitans & Treponema spp present
in gingival crevices is associated with periodontal disease
Enterobacterales, Psuedomonas & Acinetobacter in small numbers.
Increased transiently in hospitalised patients
Parasites: Trichomonas tenax & Entamoeba gingivalis
Topley and ASM Manual of clinical microbiology
capsulated strains of H. influenza
Actinobacillus actinomycetomcomitans & Treponema spp present
in gingival crevices is associated with periodontal disease
Enterobacterales, Psuedomonas & Acinetobacter in small numbers.
Increased transiently in hospitalised patients
Parasites: Trichomonas tenax & Entamoeba gingivalis
Topley and ASM Manual of clinical microbiology
Oral cavity is principle entry point of human body, spread to other
sites occurs
Nitrates Nitrites NO (antimicrobial,
vasodilator) shown by Lactobacilli
Streptococcus salivarius Bacteriocins; inhibits GNB & prevents
periodontitis
Dental caries: Streptococcus mutans, Streptococcus sobrinus, and
Lactobacillus acidophilus
Carbohydrates Low pH tooth demineralisation
& Cavitation
Topley and ASM Manual of clinical microbiology
reduction
Fermentation
sites occurs
Nitrates Nitrites NO (antimicrobial,
vasodilator) shown by Lactobacilli
Streptococcus salivarius Bacteriocins; inhibits GNB & prevents
periodontitis
Dental caries: Streptococcus mutans, Streptococcus sobrinus, and
Lactobacillus acidophilus
Carbohydrates Low pH tooth demineralisation
& Cavitation
Topley and ASM Manual of clinical microbiology
reduction
Fermentation
Nares & Nasopharynx
Nares: S. aureus, CoNS, Corynebacterium,
Peptostreptococcus, Fusobacterium spp.
Increased carriage of S. aureus in preadolescent
Nasopharynx: streptococci & Neisseria spp.
S. salivarius, S. parasanguis & S. pneumoniae
Colonisation with N. meningitidis in young adults of
military (10-95)% mc Neisseria spp in them are N.
subflava, N. sicca, N. mucosa, N. lactamica
GNCB: M. catarrhalis (sinusitis, bronchitis), H. influenza,
Cardiobacterium hominis (damaged heart valve)
Topley and ASM Manual of clinical microbiology
Nares: S. aureus, CoNS, Corynebacterium,
Peptostreptococcus, Fusobacterium spp.
Increased carriage of S. aureus in preadolescent
Nasopharynx: streptococci & Neisseria spp.
S. salivarius, S. parasanguis & S. pneumoniae
Colonisation with N. meningitidis in young adults of
military (10-95)% mc Neisseria spp in them are N.
subflava, N. sicca, N. mucosa, N. lactamica
GNCB: M. catarrhalis (sinusitis, bronchitis), H. influenza,
Cardiobacterium hominis (damaged heart valve)
Topley and ASM Manual of clinical microbiology
Trachea, larynx, bronchi & lungs
Few organisms, transient
Long term colonisation from upper airways occurs when
ciliated epithelial cells are damaged (influenza / COPD)
Topley and ASM Manual of clinical microbiology
Few organisms, transient
Long term colonisation from upper airways occurs when
ciliated epithelial cells are damaged (influenza / COPD)
Topley and ASM Manual of clinical microbiology
Esophagus
The esophagus is colonized by bacteria that are
introduced from the oropharynx by swallowing or from
the stomach by reflux.
As in the oral cavity, Streptococcus is the dominant
genus in the healthy esophageal microbiome
In Barrett’s esophagus and esophageal carcinoma,
gram negative anaerobes predominates
In a diseased state, colonisation with Candida & viruses
(HSV, CMV)
Topley and ASM Manual of clinical microbiology
The esophagus is colonized by bacteria that are
introduced from the oropharynx by swallowing or from
the stomach by reflux.
As in the oral cavity, Streptococcus is the dominant
genus in the healthy esophageal microbiome
In Barrett’s esophagus and esophageal carcinoma,
gram negative anaerobes predominates
In a diseased state, colonisation with Candida & viruses
(HSV, CMV)
Topley and ASM Manual of clinical microbiology
Stomach
Inhospitable environment due to HCL, pepsinogen
Discovery of H. pylori by Marshal & Warren (1882)
Lactobacillus spp
Streptococcus spp
Helicobacter pylori
Veillonella
Clostridium
H. pylori can modulate gastric environment & alter the habitat of
resident flora
Increased risk for gastric cancer
Topley and ASM Manual of clinical microbiology
Inhospitable environment due to HCL, pepsinogen
Discovery of H. pylori by Marshal & Warren (1882)
Lactobacillus spp
Streptococcus spp
Helicobacter pylori
Veillonella
Clostridium
H. pylori can modulate gastric environment & alter the habitat of
resident flora
Increased risk for gastric cancer
Topley and ASM Manual of clinical microbiology
Intestine
Bacteria to host cell ratio 1:1
Majority in colon
Main phyla are Firmicutes & Bacteroides (90%)
Others : Actinobacteria, Proteobacteria, Fusobacteria
Fermicutes: 200 genera
Bacillus, Lactobacillus, Enterococcus, Clostridium, Ruminococcus
among them, S. aureus & C. perfringens are pathogenic
Bacteroidota: Bacteroides, Prevotella
Actinobacteria: Bifidobacterium
Proteobacteria: Enterobacter, Helicobacter, Shigella, Salmonella,
Escherichia coli
Topley and ASM Manual of clinical microbiology
Bacteria to host cell ratio 1:1
Majority in colon
Main phyla are Firmicutes & Bacteroides (90%)
Others : Actinobacteria, Proteobacteria, Fusobacteria
Fermicutes: 200 genera
Bacillus, Lactobacillus, Enterococcus, Clostridium, Ruminococcus
among them, S. aureus & C. perfringens are pathogenic
Bacteroidota: Bacteroides, Prevotella
Actinobacteria: Bifidobacterium
Proteobacteria: Enterobacter, Helicobacter, Shigella, Salmonella,
Escherichia coli
Topley and ASM Manual of clinical microbiology
Changes in 3 stages of life
1.Birth to weaning
2.Weaning to normal diet
3.Old age
Birth : Vaginal delivery -- Vaginal & fecal
Caesarean -- Skin & environment
Facultative anaerobes are first to colonise, they create anaerobic
conditions & promote growth of obligatory anaerobes Bifidobacterium,
Bacteroides spp. within 2 weeks
At 3 days, naturally born infants have more Bifidobacteria than
Caesarean born babies
Exclusively breastfed babies have more stable & less diverse microbiota
After the start of solid food, Firmicutes are increased
Topley and ASM Manual of clinical microbiology
1.Birth to weaning
2.Weaning to normal diet
3.Old age
Birth : Vaginal delivery -- Vaginal & fecal
Caesarean -- Skin & environment
Facultative anaerobes are first to colonise, they create anaerobic
conditions & promote growth of obligatory anaerobes Bifidobacterium,
Bacteroides spp. within 2 weeks
At 3 days, naturally born infants have more Bifidobacteria than
Caesarean born babies
Exclusively breastfed babies have more stable & less diverse microbiota
After the start of solid food, Firmicutes are increased
Topley and ASM Manual of clinical microbiology
Normal colonisation in breast-fed term babies
Carlsson et al JCM, 1975
E. Coli,
streptococci
bifidobacteria
bacteroid
es
Lactobacilli
Enterobacteriaceae
0 5d 10 d 30 d 3-4 m 6m 1yr
Creates
anaerobic
environment
Carlsson et al JCM, 1975
E. Coli,
streptococci
bifidobacteria
bacteroid
es
Lactobacilli
Enterobacteriaceae
0 5d 10 d 30 d 3-4 m 6m 1yr
Creates
anaerobic
environment
At old age, decreased diversity, Bifidobacteria , Fermicutes
Increased Enterobacteriaceae, Bacteroidetes (>65years)
Largest microbiota in large intestine: slow flow rate, mild acidic to
neutral pH
Large intestine contains several microenvironments like epithelial
surface & inner mucin layer mainly contain Obligate anaerobes
Mucin layer: Akkermansia muciniphila
Gut lumen: Ruminococcus spp. Depending upon dietary fiber intake
Topley and ASM Manual of clinical microbiology
Increased Enterobacteriaceae, Bacteroidetes (>65years)
Largest microbiota in large intestine: slow flow rate, mild acidic to
neutral pH
Large intestine contains several microenvironments like epithelial
surface & inner mucin layer mainly contain Obligate anaerobes
Mucin layer: Akkermansia muciniphila
Gut lumen: Ruminococcus spp. Depending upon dietary fiber intake
Topley and ASM Manual of clinical microbiology
Small intestine: short transit time, high bile
Mainly facultative anaerobes Proteobacteria, Bacteroides,
Streptococci, Lactobacilli, Enterococci spp.
Entamoeba spp: E. dispar, E. coli, E. hartmanii (large intestine)
Intestinal flagellates: Pentatrichomonas hominis, Retortamonas
intestinalis, Chilomastix mesnili & Enteromonas hominis
Topley and ASM Manual of clinical microbiology
Mainly facultative anaerobes Proteobacteria, Bacteroides,
Streptococci, Lactobacilli, Enterococci spp.
Entamoeba spp: E. dispar, E. coli, E. hartmanii (large intestine)
Intestinal flagellates: Pentatrichomonas hominis, Retortamonas
intestinalis, Chilomastix mesnili & Enteromonas hominis
Topley and ASM Manual of clinical microbiology
Role in health
Regulate digestion- processing nutrients & metabolites; SCFA, bile
acids, amino acids
Maintain intestinal epithelial integrity, immunity, prevent bacterial
invasion
Supress pathogenic colonisation & growth
Topley and ASM Manual of clinical microbiology
Regulate digestion- processing nutrients & metabolites; SCFA, bile
acids, amino acids
Maintain intestinal epithelial integrity, immunity, prevent bacterial
invasion
Supress pathogenic colonisation & growth
Topley and ASM Manual of clinical microbiology
Genitourinary tract
Relatively sterile except in female urethra & vagina
Microbicidal activity of bladder epithelium & flushing action of urine
Ureters, kidneys, prostate & cervix are sterile
Female urethra: lactobacilli, streptococci, CoNS
E. coli & Enterococcus spp are transient, can cause UTI
Topley and ASM Manual of clinical microbiology
Relatively sterile except in female urethra & vagina
Microbicidal activity of bladder epithelium & flushing action of urine
Ureters, kidneys, prostate & cervix are sterile
Female urethra: lactobacilli, streptococci, CoNS
E. coli & Enterococcus spp are transient, can cause UTI
Topley and ASM Manual of clinical microbiology
Anaerobes : Lactobacillus spp. (L.acidophilus,
L.fermentum, L.casei, L.cellobiosus)
Bifidobacterium spp., Porphyromonas, Prevotella,
Peptococcus spp., Propionibacterium, Mobiluncus(in small
numbers), Treponema spp.
Facultative anaerobes : CoNS, Streptococci,
Corynebacterium spp, Viridans group of streptococci ,
Gardnerella vaginalis, Neisseria spp., Haemophilus
Topley and ASM Manual of clinical microbiology
L.fermentum, L.casei, L.cellobiosus)
Bifidobacterium spp., Porphyromonas, Prevotella,
Peptococcus spp., Propionibacterium, Mobiluncus(in small
numbers), Treponema spp.
Facultative anaerobes : CoNS, Streptococci,
Corynebacterium spp, Viridans group of streptococci ,
Gardnerella vaginalis, Neisseria spp., Haemophilus
Topley and ASM Manual of clinical microbiology
Mycoplasma (M. hominis, M. genitalium, M. fermentans, M.
primatum, M. spermatophilum, M. penetrans)
M. hominis & U. urealyticum have pathogenic potential
Topley and ASM Manual of clinical microbiology
primatum, M. spermatophilum, M. penetrans)
M. hominis & U. urealyticum have pathogenic potential
Topley and ASM Manual of clinical microbiology
Skin
Anaerobes >100 folds>> aerobes ; gram positive > gram negatives
Staphylococcus, Micrococcus, Corynebacterium, Peptococcus,
Finegoldia, Peptostreptococcus & Propionibacterium
S. epidermidis is most common; other CoNS are S. hominis, S.
hemolyticus, S. warneri, S. capitis, S. saprophyticus, S. caprae, S.
saccharolyticus, S. pasteuri, S. lugdunensis, S. simulans & S. xylosus
Topley and ASM Manual of clinical microbiology
Anaerobes >100 folds>> aerobes ; gram positive > gram negatives
Staphylococcus, Micrococcus, Corynebacterium, Peptococcus,
Finegoldia, Peptostreptococcus & Propionibacterium
S. epidermidis is most common; other CoNS are S. hominis, S.
hemolyticus, S. warneri, S. capitis, S. saprophyticus, S. caprae, S.
saccharolyticus, S. pasteuri, S. lugdunensis, S. simulans & S. xylosus
Topley and ASM Manual of clinical microbiology
Micrococcus spp (20%), most common is Micrococcus
luteus
Other GPCs are Dermacoccus, Kocuria kristinae, Kocuria
rosea, K. varians & kytococcus
S. pyogenes are well suited for dry skin surfaces
Anaerobic cocci survive in hair follicles & skin glands
Topley and ASM Manual of clinical microbiology
luteus
Other GPCs are Dermacoccus, Kocuria kristinae, Kocuria
rosea, K. varians & kytococcus
S. pyogenes are well suited for dry skin surfaces
Anaerobic cocci survive in hair follicles & skin glands
Topley and ASM Manual of clinical microbiology
Corynebacterium spp ; C. striatum, C. minutissimum, C.
psuedodiphtheriticum, C. xerosis, C.urealyticus (groin), C. jeikeium
(apocrine glands)
Propionibacterium acnes (sebaceous gland), Propionibacterium
avidum (axilla & perineum)
Other gram positive includes Dermabacter, Brevibacterium,
Turicella otitidis
Transient members are Clostridium perfringens, Acinetobacter,
Burkholderia.
Topley and ASM Manual of clinical microbiology
psuedodiphtheriticum, C. xerosis, C.urealyticus (groin), C. jeikeium
(apocrine glands)
Propionibacterium acnes (sebaceous gland), Propionibacterium
avidum (axilla & perineum)
Other gram positive includes Dermabacter, Brevibacterium,
Turicella otitidis
Transient members are Clostridium perfringens, Acinetobacter,
Burkholderia.
Topley and ASM Manual of clinical microbiology
Site Anaerobes Aerobes others
Mouth Anaerobic cocci
Actinomyces
Fusobacterium
Bifidobacterium
Prevotella
Spirochetes
Viridans streptococciTrichomonas tenax
Entamoeba gingivalis
Nasopharynx Prevotella species
Anaerobic cocci
Fusobacterium
Streptococci (α and
non-hemolytic)
Neisseria spp
Diphtheroids
Staphylococcus
epidermidis
Haemophilus
Meningococcus
Pneumococcus
Staphylococcus
aureus Gram-
negative bacilli
Yeasts
Gastro-intestinal tractLactobacillus
Anaerobic cocci
Bacteroides fragilis
Fusobacterium
Bifidobacterium
Prevotella
Clostridium
Helicobacter pylori
Enterobacteriaceae
& other GNB
Enterococci,
Streptococci (α and
non hemolytic),
S. Agalactiae
Diphtheroids
Candida species
Staphylococcus
aureus
Entamoeba spp
intestinal
flagellates
Mouth Anaerobic cocci
Actinomyces
Fusobacterium
Bifidobacterium
Prevotella
Spirochetes
Viridans streptococciTrichomonas tenax
Entamoeba gingivalis
Nasopharynx Prevotella species
Anaerobic cocci
Fusobacterium
Streptococci (α and
non-hemolytic)
Neisseria spp
Diphtheroids
Staphylococcus
epidermidis
Haemophilus
Meningococcus
Pneumococcus
Staphylococcus
aureus Gram-
negative bacilli
Yeasts
Gastro-intestinal tractLactobacillus
Anaerobic cocci
Bacteroides fragilis
Fusobacterium
Bifidobacterium
Prevotella
Clostridium
Helicobacter pylori
Enterobacteriaceae
& other GNB
Enterococci,
Streptococci (α and
non hemolytic),
S. Agalactiae
Diphtheroids
Candida species
Staphylococcus
aureus
Entamoeba spp
intestinal
flagellates
Site Anaerobes Aerobes Others
Female genital tractAnaerobic cocci
Lactobacillus
Prevotella
Bifidobacterium
Clostridium
Corynebacterium
species
Streptococci (α, non-
hemolytic and
S. agalactiae)
Neisseria (non-
pathogenic species)
Enterococci
Enterobacteriaceae
and
other gram-negative
rods
S. epidermidis
Candida species
Skin Propionibacterium
Anaerobic cocci
Staphylococcus
epidermidis
Diphtheroids
Micrococcus species
Neisseria (Non-
pathogenic species)
Streptococci (α and
non hemolytic)
Staphylococcus
aureus Candida
species
Acinetobacter
species
Female genital tractAnaerobic cocci
Lactobacillus
Prevotella
Bifidobacterium
Clostridium
Corynebacterium
species
Streptococci (α, non-
hemolytic and
S. agalactiae)
Neisseria (non-
pathogenic species)
Enterococci
Enterobacteriaceae
and
other gram-negative
rods
S. epidermidis
Candida species
Skin Propionibacterium
Anaerobic cocci
Staphylococcus
epidermidis
Diphtheroids
Micrococcus species
Neisseria (Non-
pathogenic species)
Streptococci (α and
non hemolytic)
Staphylococcus
aureus Candida
species
Acinetobacter
species
The Human Microbiome Project
TheHuman Microbiome Project(HMP) was a United States National
Institutes of Health(NIH) research initiative to improve
understanding of the microbiota involved in human health and
disease (2007-2016)
The first phase (HMP1) focused on identifying and characterizing
the microbiomes of healthy human subjects at 5 major body sites
using 16S & metagenomic shotgun sequencing
Human Microbiome Project
TheHuman Microbiome Project(HMP) was a United States National
Institutes of Health(NIH) research initiative to improve
understanding of the microbiota involved in human health and
disease (2007-2016)
The first phase (HMP1) focused on identifying and characterizing
the microbiomes of healthy human subjects at 5 major body sites
using 16S & metagenomic shotgun sequencing
Human Microbiome Project
The second phase, known as the Integrative Human
Microbiome Project (iHMP) launched in 2014 with the
aim of characterization of microbiome & human host
from 3 cohorts of microbiome associated conditions
using multiple ‘omics’ strategies
Study methods included16S rRNAgene profiling,
wholemetagenome shotgun sequencing,
metatranscriptomics, metabolomics
Microbiome Project (iHMP) launched in 2014 with the
aim of characterization of microbiome & human host
from 3 cohorts of microbiome associated conditions
using multiple ‘omics’ strategies
Study methods included16S rRNAgene profiling,
wholemetagenome shotgun sequencing,
metatranscriptomics, metabolomics
Culture independent molecular approaches to
study host-microbiome interaction
DNA-based approaches- 16s rRNA, 18s rRNA
Who is there and what can they do?
RNA-based approaches-
How do they respond?
What pathways are activated?
Protein-based approaches-
How are they interacting with the host?
What proteins are being produced?
Metabolite-based approaches-
What are the chemical outcomes of their activity?
Metagenomics
Metatranscriptomics
Metaproteomics
Metabolomics
the Human Microbiome, and Health Risk: A Research Strategy (2018)
study host-microbiome interaction
DNA-based approaches- 16s rRNA, 18s rRNA
Who is there and what can they do?
RNA-based approaches-
How do they respond?
What pathways are activated?
Protein-based approaches-
How are they interacting with the host?
What proteins are being produced?
Metabolite-based approaches-
What are the chemical outcomes of their activity?
Metagenomics
Metatranscriptomics
Metaproteomics
Metabolomics
the Human Microbiome, and Health Risk: A Research Strategy (2018)
Noecker C, McNally CP, Eng A, Borenstein E. High-resolution characterization of
the human microbiome.
Schemes of Microbiome
Analysis
the human microbiome.
Schemes of Microbiome
Analysis
Fecal Microbiota Transplant
Process of transferring fecal bacteria and other microbes from a
healthy individual into another individual. FDA approved
forClostridioides difficileinfection
FMT procedure includes
1.Patient criteria
2.Stool donar criteria
3.Bowel preparation
4.FMT administration
European consensus conference on FMT in clinical practice
Process of transferring fecal bacteria and other microbes from a
healthy individual into another individual. FDA approved
forClostridioides difficileinfection
FMT procedure includes
1.Patient criteria
2.Stool donar criteria
3.Bowel preparation
4.FMT administration
European consensus conference on FMT in clinical practice
Patient eligibility criteria (FDA Approved)
>18years
Recurrent CDI not responding to standard vancomycin therapy
Severe CDI not responding to therapy after 48 hours
Laboratory confirmed CDI
Stool donor exclusion criteria
H/O antibiotics 12 wks
Major GI surgery
HIV, HBV, HCV, tattoos within last 6 months
>18years
Recurrent CDI not responding to standard vancomycin therapy
Severe CDI not responding to therapy after 48 hours
Laboratory confirmed CDI
Stool donor exclusion criteria
H/O antibiotics 12 wks
Major GI surgery
HIV, HBV, HCV, tattoos within last 6 months
DONAR SELECTION
Stool testing
(1) Clostridioides difficile (PCR or EIA test for Toxin A and B)
(2) Routine culture for enteric bacterial pathogens
(3) Complete Ova and Parasite studies, if pertinent travel history
Serologic testing
(4) anti-HIV type 1 and 2
(5) anti-HAV IgM
(6) HBsAg
(7) anti-HCV
(8) Rapid plasma reagin (RPR)
Stool testing
(1) Clostridioides difficile (PCR or EIA test for Toxin A and B)
(2) Routine culture for enteric bacterial pathogens
(3) Complete Ova and Parasite studies, if pertinent travel history
Serologic testing
(4) anti-HIV type 1 and 2
(5) anti-HAV IgM
(6) HBsAg
(7) anti-HCV
(8) Rapid plasma reagin (RPR)
Specimen preparation
Fresh stool (30-100 grams)
Samples prepared within 6-8 hrs of defecation
The sample is then diluted with 2.5–5 times the volume of the
sample with either normal saline, sterile wateror 4% milk.
Mix the solution with morter & pestle/ blender
The suspension is then strained through a filter and transferred to an
administration container
For later use it can be frozen after dilution using 10% glycerol
European consensus conference on FMT in clinical practice
Fresh stool (30-100 grams)
Samples prepared within 6-8 hrs of defecation
The sample is then diluted with 2.5–5 times the volume of the
sample with either normal saline, sterile wateror 4% milk.
Mix the solution with morter & pestle/ blender
The suspension is then strained through a filter and transferred to an
administration container
For later use it can be frozen after dilution using 10% glycerol
European consensus conference on FMT in clinical practice
Administration
European consensus conference on FMT in clinical practice
(A)Donor stool and normal
saline (1:3) ground in a
blender.
(B)Fecal suspension in 50-mL
syringes.
(C)Infusion using
colonoscopy.
European consensus conference on FMT in clinical practice
(A)Donor stool and normal
saline (1:3) ground in a
blender.
(B)Fecal suspension in 50-mL
syringes.
(C)Infusion using
colonoscopy.
*RECTAL
ENEMA
ENEMA
First oral pill for CDI, FDA
APPROVED on 16 APR 23
SER-109
APPROVED on 16 APR 23
SER-109
Role of a microbiologist in fecal transplant!
Topley and ASM Manual of clinical microbiology
Topley and ASM Manual of clinical microbiology
Thank You!
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