fs2 mod 3

Question 1

ox tension and f nuc and p ging

Answer 1

F nucleatum: anaerobe that binds to strep to help in ox
P gingivitis: sensitive anaerobe that aggregates when ox present

Question 2

What changes in quorum sensing:

Answer 2

virulence, antibiotic production, motility, sporulation, biofilm formation

Question 3

Determinants of microenvironment

Answer 3

host factors (what goes into mouth, including GCF), bacterial factors (adhesions, metabolic characteristics, congregation), local physicochemical factors (pH, redox, temp, nutrient availability)
- severity depends on these

Question 4

acquired pellicle

Answer 4

albumin, lysozyme, amylase, cysteine phosphoproteins, IgA, proline rich proteins, statherin, mucins —> can be adhesions FOR BAC!
- minor levels of ded cells, GCF
Functions to lubricate against damage, regulation of mineral homeostasis
- takes 7 days to mature

Question 5

strep spp

Answer 5

adhesion antigen 1 and 2, receptor is salivary agglutinin

Question 6

S mutans

Answer 6

gulan binding protein and gluten

Question 7

Actinomycete naeslundi

Answer 7

type 1 fimbriae and receptor is proline rich protein

Question 8

Initial colonizers

Answer 8

strep oralis, Mitis, gordonii, sanguis, actinomyces naeslundii, actinomyces viscosus, veillonella spp, haemophilus parainfluenzae (gram -)** well tolerated by host

Question 9

EPS

Answer 9

made of bacteria, saliva, GCF, DNA, inorganic molecules, mycoplasma, fungi, virus, protozoa, depends on the microbes in biofilm
helps in adhesion, aggregation (communication and quorum sensing), cohesion, protective barrier, sorption of organic compounds, enzymatic activity (biofilm di system), nutrient source

Question 10

Coaggrecation

Answer 10

both are planktonic then can adhere to biofilm. CORNCOB STRUCTURE (changes from gram + to gram - over time)
- fusobac do this with early and late colonizer (BUT NOT ITSELF). Allows plaque comp to change
** coadhesion comes only after coaggregation

Question 11

3 weeks plaque

Answer 11

** first gram + and rods, then gram - and rods. Then fusobac and filaments then spirochetes

mature. More = gram + and -, all shapes, both facultative and anaerobic, MOST causal of caries and gingivitis
NOT tolerated by host = inflame
- more filaments
Can be seeded to turn into calculus

Question 12

health and red bacteria

Answer 12

p gingivitis, t forsythia, t denticola, aa bacteria —> all cause perio
Health bacteria is streptococci and actinomycete
Keystones!!

Question 13

allo and autogenic succession

Answer 13

Allogenic succession: external factor change like smoking
Autogenic succession: interface and viral bac interactions (self factors)

Question 14

subgingival plaque

Answer 14

• less organized!! mostly gram -, anaerobic, capnophilic** perio bac!

Inflammation helps, esp with increase in gingival fluid containing growth factors not present in saliva
Because of pocket, the gingival flow is removed so bacteria stick better
Less transport of new bac via saliva
Dentinal tubules are colonized!!
– shedding surface!!
- bac adhere using fimbriae and pili (made of polymeric fibrils that are composed of repeating subunits that can extend far from cell mem)

Question 15

Specific plaque hypo:

Answer 15

specific bac cause diff forms of gingivitis and perio
acute necrotizing ulcerative gingivitis (ANUG) incudes spirochetes and fusobac
P gingivitis, aa bacteria

Question 16

ID of bacteria

Answer 16

hard to cultivate like 40%. soln is gene sequencing
- tooth has 6 active sites
- disease classifications changing
- do longitudinal studies since disease isn’t linear

Question 17

virulence factors

Answer 17

LPS, bacterial enzymes like collagenases, proteases (can inactivate antibodies), adhesions
- Result in indirect tissue damage (caused by immune response) or direct (caused by bac)
- Gram - LPS leads to inflammation stim, complement activation then immune cell stuff

Question 18

P gingivitis and virulence 8

Answer 18

makes endotoxin for cytokine activity, vesicles (with toxic crap inside that can damage from a distance), cell toxic substances, specific cytotoxins like reducing gradient of PMN chemotaxis and phagocytosis,
- specific proteases, trypsin like proteases like gingipains (very aggressive and violent. food source. Also mess with host response)
- collagenase, invasins,
- capsule to protect against phago (increase pathogenic)
- FIMBRIAE TYPE A that can bind integrins or host cell stuff

Question 19

aa bac and virulence 9

Answer 19

has leukotoxin (kills neutrophils), cytotoxins, chemotaxis inhibitors, collagenases, immunsuppress factors, fc binding protein (so no antibody made), invasion’s, bacteriocins, adhesions

• JP2A clone of AA causes SUPERPERIO or hyperleukotoxin

Question 20

key determinants of biofilm formation

Answer 20

fluids like saliva and GCF, surfaces and bacteria
- what is available changes the comp of the biofilm

Question 21

evading host immunity

Answer 21

Modulation of host responses by binding serum components on bacterial cell surface.
Invasion of gingival epi cells so can evade therapy!!
- capsule leads to more virulence
- proteolytic degredation

Question 22

bacterial succession

Answer 22

early colonizers: gram +, aerobic/facultative, saliva
secondary: gram +/-, capnophilic and facultative anaerobic/anaerobic, saliva
late colonizers: gram -, motile rods, anaerobic, GCF
** perio has resorbed bone, severe inflam, subgingival biofilm

Question 23

yellow bacteria

Answer 23

• c rectus, c gracilis, c showae
• s constellatus
• e nodatum
• p intermedia, nigrescens, micros
• f nuc vincentii, nucleatum, polymorphum, periodonticum

Question 24

health vs disease bac

Answer 24

• strep and actino is health
• disease is prevotella fusobac, and red

Question 25

nonspecific plaque hypo

Answer 25

• perio results from plaque accumulation regardless of species present within dental plaque

Question 26

oral mucosa, gingivitis and perio

Answer 26

• gingival crevice btw free gingiva and tooth surface is where inflam rxn start, including complement activation
• gingivitis: confined in gingiva and CT
• perio is bad PDL, deep gingival pocket, alveolar bone loss
• can become systemic
• tissue damage by host does biggest problem!
• majority of virulence factors in perio come from not previously known species!!!

Question 27

PSD

Answer 27

• perio is increased bad bac, less good bac = indigenous polymicrobial synergy and disbiosis
• group orgs do disease rather than 1
• involves accessory path (commensal but help pathogens colonize too) and pathobionts (commensals that take advantage of disbalance and promote inflam disease)

Question 28

inflam and perio

Answer 28

• with no brushing, cause bac growth, leading to inflam
• inflam brings in GCF and stuff to heal, but the bac EAT IT TO GROW using proteases, heme (take out iron), blood derived peroxidase (stop h202) and potassium

Question 29

p gingivalis and host responses

Answer 29

• messes up the TLR myD and activates MAL to block phago and promote inflam
• this benefits ALL dysbiotic bac

Question 30

immune subversion

Answer 30

first poor hygeine leads to inflam then susceptible host leads to immune subversion by keystone path causing inflam and dysbiosis

• degredation of complement
• manipulate chemokine expression
• block TLR dependent killing of bacteria
  ** all red bac can do this

Question 31

dysbiosis factors

Answer 31

• subversion of host, systemic disease like dia, obesity, smoking, aging, immune regulatory defects
• leads to inflam!!
• in gingivitis that moves to perio, there are certain factors that select for perio dysbiosis

Question 32

genetics and perio

Answer 32

• chronic adult type is polygenic while monogenic is seen in young patients with b2 integrin problems
• LAD1 so no transition to tissue
• neutropenia (ELANE): not enough neutro
• WHIM syndrome: don’t release neutro from bone marrow
• Chedia higashi/ papillon lefevre also does perio
• aging

Question 33

immune cells and perio

Answer 33

• neutrophils, APC and t lymphs
• if any are blocked, leads to perio

Question 34

neutrophils and perio

Answer 34

• can be protective and destructive
• LAD1 problem leads to NOT enough neutro so allow more perio destruction
• problems in MMP, ROS and pro inflam cytokines (IL1, TNF) when too much neutro

Question 35

LAD1 and DEL1 problem

Answer 35

• problem with b2 integran so no transition to tissue
• leads to no release of il 17!
• DEL1 restrains b2 integrin (LFA1) transmigration of neutro
• problems in DEl1 leads to TOO much neutro
• aging leads to less DEL1

Question 36

complement

Answer 36

• normal regulates pathogens
• bad complement can lead to hyperinflam
• activated comp is found in inflam gingiva of GCF
• activation of c3 in GCF increases with pocket depth
• perio leading to bone loss
• microbes exploit complement to do dysbiosis
• complement inhibitor, AMY101, stops perio inflam

Question 37

inflam resolution

Answer 37

• neutrophils do apoptosis of the pathogen, then add it to macrophage
• pro resolving mediators are TGFb
• resolving macrophages restore tissue integrity and destroy bad cells

Question 38

pro resolving lipid mediators

Answer 38

• arachidonic acid make lipoxins
• eicosapentaenoic acid (EPA) make resolvins
• docoshexaenoic acid (DHA) make resolvins
• lead to downreg of inflam mediators, stop neutro, efferocytosis (eating of neutro by macro), tissue repair

Question 39

DEL 1

Answer 39

• promotes efferocytosis by binding phosphatidyk serine on apoptotic cells abd avb3 integrin on macrophage
• also increases the expression of resolvins
• bad DEl1 or resolvins leads to non resolving perio

Question 40

osteoclastogenesis and bone resorption

Answer 40

• osteoblast and lymphocytes have RANK that binds to RANK on osteoclast
• osteoprotegrin
• RANKL is induced by inflam!! so high RANK/OPG ratio

Question 41

B cells and perio

Answer 41

• B cells recruited to periodontium, then antibody diffuses into gingival sulcus to suppress bacterial challenge
• B and plasma cells make proinflam cytokines, MMP and rankl, so prob do perio

Question 42

treg does

Answer 42

makes tgfb and immune suppression
- might stop perio

Question 43

th17

Answer 43

innate immunity, inflammation = autoimmunity
- il 17 induces RANKL on fibroblasts and also stim TNF, Il1 and 6
- do osteoclastogenesis
- impaired dev (autosomal dom hyper IgE syndrome) means less perio BUT more susceptible to oral fungal infections
- makes antimicrobial peptides

Question 44

th1

Answer 44

cell mediated/adaptive immunity = hypersensitivity

Question 45

th2

Answer 45

humoral adaptive = allergy

Question 46

systemic disease and perio

Answer 46

• bacteria can travel all over leading to sys inflam, alterations in bone marrow!!
• gingipains found in alzheimr patients
• atherosclerosis
• bac can translocate to gut and gause gut inflam!!! through th17 that do SPECIFICITY to the bac and have strong response
• memory cells in bone marrow react supar bad to perio bugs anywhere else in body

Question 47

host modulation

Answer 47

• change host immune to stop tissue damage
• doxycyclince inhibits MMPS
• can block complement, DEL1 blocks LFA1
• RANKL antagonists
• block Il17

Question 48

caries

Answer 48

• will find bac and fungi!! esp in kids with severe
• can treat it if you breakdown the EPS!

Question 49

glucosyltransferases found where

Answer 49

• bac breaks down sucrose via glucosyltransferases into water-soluble glucans (GFTB and C) and C and D
• made by strep mutans to make glucan. has also a binding domain to help build a chain of polymers
• if inhibited, can stop cariogenic plaque. can also predict caries using this
• present in human whole saliva and pellicle AND bound to bac mem
• form glucans even at low pH on tooth surfaces
• these allow microbes to bind!!! using binding proteins (gbp a,b,c,d)
• also make EPS that is suppper sticky
• sucrose allows EPS and acid production, thus making biofilm!!
• has 1,3 linkages that can be broken by mutanase

Question 50

acid production

Answer 50

• acidogenic bac transport fermentable carbs using sugar ABC transport system OR phosphotransferase system
• also effective in carrying out glycolysis and making acid from fermentable carbs = lactic acid that acidifies the eco
• survive at low pH by increasing ATPase, DNA repair at low pH, and changes in FA composition
• leads to demineralization of enamel BUT saliva is a buffer to remin
• acid pockets form, not hetero!!

Question 51

EPS and acid

Answer 51

• can label EPS and see the glucans made
• shows that bac need EPS to grow
• eps needs sugar to grow
• EPS is like a diffusion barrier to stop saliva from neutralizing acid pockets
• also assists in demin!!

Question 52

which xrays for which treatments

Answer 52

• bitewings for caries and interprox bone levels ALSO FOR PROXIMAL SMOOTH SURFACE CARIES
• periapical for interproximal caries and root
• pano for occlusal carries
• cbct shows tooth support structure
  bitewing>PA.pano

*frequent radiograph exposure isn’t high caries risk

Question 53

american dental association caries classification system

Answer 53

• e1 is invaded outerhalf enamel
• e2 is at dej
• d1 is outer dentin
  d3 is innermost dentin
  **restore past d2, d3 is endo/extract

Question 54

types of caries

Answer 54

0 pit and fissure
- approximal/interprox
- cervical/smooth surface (buccal/lingual) **radiation caries!!
- root

Question 55

international caries classification and management system (ICCMS)

Answer 55

• ra1 is lucent outer half enamel
• ra2 is inner enamel NO DEJ
• ra3 is outer dentin
• rb4 is outer third dentin extended
• rc5 is inner third
• rc6 is pulp

Question 56

cervical burnout

Answer 56

• right by the crest, smooth edge
• shadow, not cavity!

Question 57

crest cortication

Answer 57

• in anterior teeth, it is pointed and well corticated around the top btw 0.5-2 mm

Question 58

perio and alveolar process changes

Answer 58

• resoroption
• vertical bone defect (big angle)
• buccal or lingual cortical plate loss (CBCT)
• horizontal bone loss
• interdental craters
• furcation of roots

Question 59

other perio radio problems

Answer 59

• apical abcess is NOT same as perio abcess
• perio endo lesion
• calculus
• tooth alignment (MALOCCLUSION)
• overhanging restorations
• malignant lesion (looks like tooth is floating)

Question 60

root canal system

Answer 60

• small cns btw teeth
• contains odontoblasts, t cells, fibroblast, nerves, blood, lymph, undiff stem cells
• should be sterile
• necrotic pulp is no vasculature, no inflam, and leads to bac infxn (no response to cold and leads to resorption at apex)

Question 61

pulpal hyperemia

Answer 61

• result of caries, trauma, fracture, invasive restoration, bad response to dental materials, perio disease
• can also get in via root planing, root restoration
• extraradicular colonization:
• first cracket tooth, then ^^ leads to hyperaemiea (MORe blood flow) then pulpal ischaemia (no o2) to necrosis

Question 62

apical perio

Answer 62

• bac invade perio tissues, resulting in invasion of necrotic pulp
• protective response to stop bac going into marrow
• inflammation has nowhere to go so bac just resorb bone
• can be symptomatic, dev into chronic abcess
• intraradicular biofilms in 80% even post treatment
• diff morph of biofilms, dentinal tubules often invaded
• more common in root canals of teeth with large apical peiro lesions (all teeth with endo infxns)

Question 63

periapical abcess

Answer 63

• acute is inflam rxn to pulp infxn. fast onset and spontaneous pain, tender tooth to pressure. pulp forms and swelling
• usually necrotizing ulcerative gingivitis
• chronic is gradual, no discomfort, pus discharge, no symptom
  *** extraradicular
• have gram + anaerobes like actinomyces and PROPIONIBACTERIUM PROPIONICUM

Question 64

how to ID endo infxn and ox tension

Answer 64

• 40% non cultivatable
• culture based, but for not, can use 16s ribosome sequencing
• corontal third is high o2, many nutrients
• apical third (lowest) is least o2, serum protein is food, many bac by products

** treatment requires full removal of bac, by products and pulpal debris from root canal system

Question 65

endo infxn virulence factors

Answer 65

• colonization of root canal via adhesion
• evasion of host defenses using protease, capsule, complement
• tissue damage via proteases, lps endotoxin
• indirect damage by inflam response like cytokines

Question 66

endo biofilms characteristics

Answer 66

• has channels, defense, more tolerate to antimicrobials (chlorhexidine and antibiotics, gene transfer), neutralize cell toxins using b lactamases, new gene expression, cell cell signalling, ph and o2 gradients, catabolism of host macromolec, more virulent

Question 67

primary and secondary intraradicular biofilms

Answer 67

primary
- infxn of necrotic pulp
- less divers flora mainly from dental plaque, caries, saliva
- facultative then anaerobic, protein bac
- 40% can’t cultivate

secondary
- occur in previously treated!!! with persistent apical perio
- mostly gram +, facultative anaerobe INCLUDING strem, lacto and actinomyces
- enteric orgs like E facalis (EW)

Question 68

extraradicular biofilm

Answer 68

• outside of pulp
• form on root surface adjacent to root apex of endo treated teeth
• most common in situations with sinus tract and no response to treatment
• found in teeth with asymptomatic apical perio, chronic apical and sinus tracts
• can be come calcified
• usually T forsynthesis, F nucleatum, P gingivalis

Question 69

endo vs perio biofilm

Answer 69

• endo is less diverse, less nutrients
• perio is more diverse, more nutrients

Question 70

e faecalis

Answer 70

• persistant following RCT
• very good at forming biofilms, attaching to denting via collagen binding protein
• small enough to colonize dentinal tubules
• can tolerate basic pH too so resistant to therapy
• can starve and use serum as nutrient source
• gram +

Question 71

local aggressive perio is usually

Answer 71

in incisors and first molars

Question 72

can radiographs be used to see if surface of a lesion is cavitated

Answer 72

no

Question 73

do biofilms help bac survive better in a variety of Phs

Answer 73

NO!

Question 74

subgingival eco vs supra

Answer 74

• higher temp, more iron, proteins, decreased ox, BUT NOT DECREASED PH

Question 75

amount of attachment loss = disease for which condition

Answer 75

chronic perio!!

Question 76

what happens in healthy mouth

Answer 76

f nucleatum DOESNT CAUSE gingivitis
- low GCF flow
- there can be a host immune response even in normal
** include the red bac tho

Question 77

why does koch postulate not work for bac

Answer 77

• because bac might be a result of favourable conditions induced by perio disease

Question 78

dentinal tubules

Answer 78

• dia is narrower near enamel, lined by collagen
  ** NOT a route for pulp infection

Question 79

arrested lesions

Answer 79

• shiny, no sealant, more resistant to caries than uneffected enamel
  ***THEY AREN’T WHITE

Question 80

is p gingivalis in mature supra gingival plaque

Answer 80

NO

Question 81

adults and kids with perio

Answer 81

8.5% adults, 25% kids?

Question 82

rampant caries =

Answer 82

early childhood caries

Question 83

trauma leads to

Answer 83

widening of PDL (radiolucent)
- lamina dura is opaquw

Question 84

perio vs malignant lesion

Answer 84

• radiolucent is malignant lesion and it looks like something is pushing it (flaoting teeth)