7.1 Viral and orofacial infection

Question 1

Describe the general properties of a virus.

Answer 1

• Extremely small (diameter of 20-300nm)
• Cannot be visualised with light microscopy
• Require electron microscopy
• Considered as obligate intracellular parastites which require host cells in order to replicate
• Cannot replicate independently

Question 2

What are the 2 types of viral infection?

Answer 2

• Acute
• Chronic

Question 3

What is meant by the term acute viral infection?

Answer 3

• Rapid onset of disease and sudden resolution or death (2-3 weeks)
• Short incubation period
• Ferbile disease (causes fever)
• Many infections are subclinical
• E.g. influenza

Question 4

What is meant by the term chronic/persistent viral infection?

Answer 4

• Symptoms occur over a prolonged period of time
• Slow onset and persistent
• Some viruses establish latency e.g. HSV-1: primary infection and later episodes of reactivation
• Includes oncogenic infections (cause tumours or malignancy) e.g. EBV and Burkitt’s lymphoma, HPV and cervical and oropharyngeal cancer

Question 5

Describe the structure of a virus particle (virion).

Answer 5

• Nucleic acid (RNA or DNA)
• Capsid (protein coat which aids entry into the host cell and protects the viral genome)
• Nucleocapsid (protecting nucleic acid)

Optional: envelope, a lipoprotein membrane projeting viral glycoproteins imporant for binding and entry to host cells.

Question 6

What are the ways in which a virus can be classified?

Answer 6

• Type of nucleic acid: DNA or RNA
• Structure of nucleic acid: single or double strand (ss or ds), linear or circular
• Polarity of viral genomes
• Symmetry of nucleocapsid: helical, icosahedral or complex)
• Presence or absence of lipid envelope

Question 7

What system is used to classify viruses based on genome structure?

Answer 7

Baltimore classification (I to VII)

Question 8

What does viral tissue tropism mean?

Answer 8

The ability of a virus to infect different cellular types and cause disease.
The viral envelope has viral glycoproteins embedded in the lipid envelope which determine the viral tissue tropism.

Question 9

What are the 2 ways that a virus can enter a cell?

Answer 9

• Receptor-mediated endocytosis
• Membrane fusion

Question 10

What cells can HIV infect?

Answer 10

CD4+ cells
- T helper cells
- Macrophages
- Dendritic cells

Question 10

Name 5 methods used for diagnosis/confirmation of viral disease.

Answer 10

• Electron microscopy
• Cell culture
• Serology (blood sample)
• Fluorescent microscopy
• Quantitative/real time PCR

Question 11

Describe the use of electron microscopy in viral detection.

Answer 11

• Only method that can be used to view the virion
• High resolving power
• Not routinely used for diagnostics in practice

Question 12

Describe the use of serology in viral detection.

Answer 12

• Blood sample
• Tested for pathogen specific antigen or antibody
• Commonly used in practice
• Used to monitor disease progression of certain viruses e.g. Hep B

Question 13

Describe the use of viral cultures in viral detection.

Answer 13

• Growing a culture, if virus is present it will infect cells
• Can then check the virus type by using fluorescent microscopy
• If no virus infects the cells, the culture is negative

Question 14

Describe the use of a quantitative/real time PCR in viral detection.

Answer 14

• Swab sample, place in fluid which breaks down particles and leaves purified DNA and RNA
• PCR reaction carried out, primers used for specific viral genes, will only bind if the viral genes are present
• E.g. COVID PCR test

Question 15

What are the routes of viral infection?

Answer 15

• Oral route
• Conjunctiva (HSV)
• Wound (Rabies)
• Skin (Hep B inoculation injury)
• Respiratory (rhinovirus, adenovirus)
• Urinogenital tract

All routes of infection and shedding (except for wound)

Question 16

What viruses are part of the Herpesviridae family?

Answer 16

• HSV types 1 and 2
• Varicella-Zoster virus (VZV) (HSV type 3)
• EBV (HSV type 4)
• Cytomegalovirus (CMV) (HSV type 5)
• Kaposi’s sarcoma herpes virus (HSV type 8)

Question 17

Describe the herpesviridae family virus types.

Answer 17

• Herpes virus
• Chronic, recurrent nature
• Double stranded linear DNA
• Icosahedral capsid
• Nucleocapsid covered in a protein layer called Tegument
• Lipid envelope with viral glycoproteins

Question 18

Describe the HSV lytic cycle.

Answer 18

HSV replication cycle:
- Virus binds to receptors on epithelial cells
- Triggers cells to internalise virus via membrane fusion
- Nucleocapsid delivers DNA genome to nucleus
- Virus released via exocytosis or direct cell-cell transfer- or through cell lysis which causes blistering of the host tissue

Question 19

The 8 human herpesviruses are divided into what 3 categories?

Answer 19

• Alpha (1,2,3)
• Beta (5,6)
• Gamma (4,7,8)

Question 20

Describe HSV-1 and -2 infection.

Answer 20

• Virus present in saliva and lesions
• Can cause eye infection, oral or genital lesions, skin infection
• Latency in dorsal root ganglion
• Recurrent cold sores or keratoconjunctivitis

Question 21

Describe HSV-1.

Answer 21

• Most common viral infection of the oral cavity
• Spreads easily through saliva and is shed through symptomatic and asymptomatic periods
• Up to 70% of the population shed the virus once a month asymptomatically
• Infects epithelial cells of the oral mucosa
• Causes primary herpetic gingivostomatitis
• Self-resolves in 10 days
• Some people have severe symptoms: gingival swelling, pyrexia, lymphaenopathy

Question 22

How is HSV-1 managed?

Answer 22

• Limit contact with lips/mouth to reduce risk of spreading to other body site
• Chlorhexidine mouthwash
• Analgesics
• Soft diet and rest
• For severe cases Aciclovir is recommended (200mg 5 times a day)

Question 23

Describe HSV-1 secondary infection.

Answer 23

• Following resolution of the primary symptoms the virus establishes latency in the trigeminal nerve and local nerve tissue of the oral cavity
• Up to 40% of HSV-1 positive people experience recurrent episodes of seconary infection
• Triggers include UV light, stress, cold and flu, trauma, menstruation
• Causes herpes labialis (coldsores)
• Virus transported back down the nerve axon and reinfects epithelial cells
• Can cause intra-oral ulceration (most commonly affecting the hard palate)

Question 24

How are cold sores managed?

Answer 24

Topical antivirals:
- Aciclovir
- Valacyclovir
- Penciclovir

Question 25

Describe HSV-3.

Answer 25

• Called VZV: varicella zoster virus
• Causes varicella in children (chickenpox)
• Spread through droplets
• Virus becomes latent in ganglia along the sensory nerves
• Reactivation causes shingles in adults
• In adults, the trigeminal nerve is affected in 15% of patients, causes intraoral vesicular eruptions (lesions, usually on hard palate)
• Virus only spreads down 1 nerve branch so symptoms are unilateral
• Antiviral treatment required
• Complication: postherpetic neuralgia

Question 26

Describe HSV-4.

Answer 26

• Epstein-Barr virus
• Spread through droplets
• 70% of people aged 30 have established latent infection
• Effects B-lymphocytes
• Can cause infectious mononucleosis
• Can lead to Burkitt’s lymphoma or nasopharyngeal carcinoma
• Also implicated in aetiology of oral hairy leukoplakia
• EBV is associated with HIV positive patients

Question 27

Describe infectious mononucleosis.

Answer 27

• Glandular fever
• Headache, fever, lymph node enlargement, signs of tonsilitis
• 30% of pts develop leasions on the palate
• Some experience gingival bleeding and ulceration
• White pseudomembrane develops on tonsils

Question 28

Describe oral hairy leukoplakia.

Answer 28

• White lesions on lateral border of tongue
• EBV particles found in upper keratinocyte layers
• Biopsy required to rule out malignancy or pre-malignancy

Question 29

Describe HSV-5.

Answer 29

• Cytomegalovirus (CMV)
• By the age of 80, 90% of population are infected
• Rarely associated with oral disease
• Can present similarly to oral symptoms of infectious mononucleosis (IM)
• Significant if present in immunocompromised patients and pregnant women, can cause deafness and learning disabilities in foetus

Question 30

Describe HSV-6 and HSV-7.

Answer 30

• HSV 6 causes common childhood disease called Roseola Infantum
• Infectious mononucleosis like illness
• Shed in the saliva of most adults
• Establishes latency in lymphoid tissue

Question 31

Describe HHV-8.

Answer 31

• HHV-8: Kaposi’s sarcoma herpesvirus
• Kaposi’s sarcoma is a neoplasm of endothelial cells
• Seen in immunocompromised patients
• Dark plaques or nodules as a consequence of vascular proliferations
• Biopsy
• Most commonly affects the palate, gingivae and tongue

Question 32

Describe human papilloma virus (HPV).

Answer 32

• Small, icosahedral, non-enveloped
• ds DNA virions
• More than 170 serological types of HPV have been described
• Virus infects epithelial cells
• Causes hyperplasia of epithelium (benign proliferation) or carcinoma

Question 33

Describe infective warts.

Answer 33

• Usually develop as a consequence of transmission of infection involving HPV-2 or HPV-4 from warts on the hands
• Intraoral verruca vulgaris
• Some oral warts may be caused by HPV-6, -11 or -16 (due to orogenital contact)
• HIV infection has been associated with a predisposition for developing multiple oral warts

Question 34

What disease is show in this image?

Answer 34

Heck’s disease
- Cause by HPV-13 and -32
- Discrete or clusters of smooth pink papules on the tongue, buccal or labial mucosa, or gingivae
- Benign and asymptomatic
- No treatment indicated but may be biopsied for cosmetic reasons

Question 35

How does HPV cause oropharnygeal carcinoma?

Answer 35

• HPV causes 5% of all cancers
• HPV 16 and 18 implicated in oropharyngeal cancer
• Some HPV types are known to possess oncogenes that cause cancer, including the E6 and E7 proteins
• E6 protein inhibits action of p53, the “guardian of the genome”
• E7 protein inhibits action of retinoblastoma protein (involved in cell cycle control)

Question 36

Describe coxsackie virus.

Answer 36

Group of enterioviruses
- Small
- ssRNA
- Non-enveloped
- Composed of 60 subunits
- Subdivided into group A and B

Question 37

Describe hand, foot and mouth disease.

Answer 37

• A group A coxsackie virus
• Transmitted via the faecal-oral route or by nasopharnygeal secretions
• Highly infectious
• Lesions on hands, feet and mucosa of the pharynx, soft palate, buccal mucosa and tongue
• Resolves within 7-10 days
• Can use mouthwash and analgesics to manage symptoms
• Important to differentiate from primary herpes or VSV infection: mild symptoms, distribution of lesions, association with an outbreak

Question 38

Describe herpangina.

Answer 38

• A group A coxsackie virus
• Transmitted via respiratory droplets
• Predominantly seen in children
• Sore throat, dysphagia, small yellow/grey lesions on the soft palate and tonsils
• Resolves within 7-10 days
• Can use antiseptic mouthwash, adequate fluid intake recommended

Question 39

Describe paramyxoviruses.

Answer 39

• Negative sense ssRNA viruses
• Enveloped

Question 40

Describe measles.

Answer 40

• A paramyxovirus
• Highly infectious
• Rash accompanied by transient small discrete macules on buccal mucosa called Koplik spots
• In malnourished individuals it is implicated in the gross destruction of the orofacial tissues called Noma

Question 41

Describe mumps.

Answer 41

• A paramyxovirus
• Painful inflammation and swelling of major salivary glands
• Important to differentiate from infection of salivary glands, diagnosed by absence of pus material

Question 42

Name the common antivirals.

Answer 42

• Main antiviral is aciclovir
• Others include valaciclovir and famciclovir
• All have the same modes of action
  Resistance is rare

Question 43

Describe the mode of action of aciclovir.

Answer 43

• Prevents viral replication in host cells, does not eradicate the virus from tissues
• In a virally infected cell it is converted to aciclovir monophosphate and then to aciclovir triphosphate
• During viral DNA replication, aciclovir is added to the growing strand rather than GTP- this halts further elongation of the DNA and stops viral replication
• Drug is only selective to viral infected cells