RCSI GIHEP Viral Bowel Past Paper PDF 2024

Summary

This RCSI past paper from 2024 covers viral infections of the bowel. It includes questions and learning outcomes related to gastroenteritis, virology, and clinical implications.

Full Transcript

Leading the world
to better health
Clinical
implications of viral
infections of the
bowel
Prof Hilary Humphreys,
Emeritus Professor
Dept. of Clinical Microbiology,
RCSI
 RCSI Royal College of Surgeons in Ireland Coláiste Ríoga na Máinleá in
Éirinn

SESSION ID: GIHEPMicroL4

Clinical implications of viral
infections of the bowel
Class Year 2

Course Undergraduate Medicine

Lecturer Prof Hilary Humphreys

Date 10th September 2024
 LEARNING OUTCOMES FOR GI VIRUSES &
INFECTIONS
BY THE END OF THIS LECTURE YOU SHOULD BE ABLE TO……

Discuss the epidemiology of gastrointestinal (GIT)
viruses & the infections they cause
Describe the pathogenesis of GIT viruses
Recognise & describe the clinical features &
complications of GIT virus infection
Outline the laboratory diagnosis of infections caused
by GIT viruses
Choose the appropriate measures to treat infections
caused by GIT viruses
Use the appropriate measures to prevent the acquisition
and spread of GIT virus infection
 CLINICAL VIGNETTE
On a Thursday afternoon, over a period of 3
hours, four hospital patients develop
vomiting followed later by diarrhoea
One of the patients is on co-amoxiclav for a
urinary tract infection
Later, a staff nurse goes off sick with similar
symptoms

Q. What is the likely cause of this?
Q. How might it have been acquired?
Q. How do you treat the patients & the nurse?
Q. What measures should be taken to prevent
onward spread?
 GASTROINTESTINAL VIRUSES
Cause diarrhoeal illness Cause illness elsewhere
Rotavirus Hepatitis A (see hepatitis)
Hepatitis E (see hepatitis)
CMV (see herpes viruses)
Caliciviruses
Enteroviruses
– Noroviruses
Cause luminal disease
Astroviruses CMV (see herpes viruses)

Adenoviruses
 ENTEROVIRUSES
Family: Picornavirus
Genus: Enterovirus

1. Polioviruses – 3 types
2. Coxsackie A viruses – 23 types
3. Coxsackie B viruses – 6 types
4. ECHO viruses – 33 types
5. Other Enteroviruses – at least 5 types
VIRUSES TRANSMITTED VIA THE FAECAL-ORAL
ROUTE WITHOUT SYMPTOMS OF DIARRHOEA

Source Unknown
 POLIOVIRUS
Enterovirus:
– 3 distinct serotypes
– Type 1 the most likely to cause
paralysis
– Paralysis in infected individuals: 1 in
1000
Higher in adults
POLIOVIRUS
Faecal-oral
spread
– Virus multiplies
in lymphoid
tissue of GIT &
migrates to the
local lymphatic
glands
– Continues to
multiply in the
intestine with
faecal excretion
WHICH ONE OF THE FOLLOWING IS
MOST CLOSELY ASSOCIATED WITH A
HIGHER PREVALENCE OF POLIO?
A. Ethnicity
B. Family size
C. Seasonal factors
D. Socioeconomic
factors
E. Urban living
 POLIOMYELITIS –IRISH DATA
(WWW.HPSC.IE)

Although rare if non-existent in high-income
countries, it could return & it is still a major
source of illness & death in income-poor
countries or during warfare, e.g. Gaza
 EPIDEMIOLOGY
Humans the only known reservoir

Incubation period: usually 7 days

Faecal-oral spread

Highly infectious!
– Can remain in stool for up to 6 weeks
 CLINICAL MANIFESTATIONS
3 manifestations
1. Nil or mild illness (90-95% cases)
– Virus is still shed in stool & they are infectious
2. Influenza-like illness (4-8% cases)
Fever, lack of energy, pharyngitis
Complete recovery usually in 1 week
3. Biphasic illness (1-2%)
– with fever & GIT symptoms for 2-3 days, appear to
recover then develop fever, severe headache, etc.
– Aseptic meningitis [1-5%], usually recover
– Paralytic poliomyelitis [1 in 1,000] with acute flaccid
paralysis; covered in CNS module
 POLIOVIRUS
Laboratory diagnosis
Early in illness – viral culture (throat +
faeces)
CSF – PCR

Treatment
Supportive - pain relief & physical therapy
Mechanical ventilation, if respiratory failure
Bulbar involvement = monitor blood pressure
fluctuations, circulatory collapse
– (autonomic dysfunction)
 POLIO VACCINE
Antibody is the principal protective component of the immune response

1. Live attenuated poliovirus (Sabin) OPV
- Administered orally
- Induces secretory IgA in addition to other
humoral immunity
- 3 doses must be given in primary course

2. Inactivated Poliovirus “IPV” (Salk)
- Contains 3 polio serotypes
- Produces immunity (antibody) to each -
produces little secretory IgA
- 3 doses must be given in primary course
Big global priority by
WHO & others
 POLIO ERADICATION STRATEGY
2022 - 2026
1. Permanently interrupt all poliovirus
transmission in endemic countries
– Well functioning vaccination programme
– Investment in improving surveillance &
detection

2. Stop circulating vaccine-derived poliovirus
(cVDPV) transmission & prevent outbreaks in
non-endemic countries

http://www.who.int/topics/poliomyelitis/en/
 NON-POLIO ENTEROVIRUSES
Epidemiology
Human-only infection
Incubation period + clinical presentation variable
– Depends on the virus
Can be detected for 1-2 weeks in pharyngeal washings
– & for several weeks in faeces
Transmission
Faecal-oral route (enterovirus)
– Direct contact – e.g. changing nappies
– Indirect contact – e.g. contaminated water
Oral-oral route (less common)
Peri-natal transmission
 PATHOGENESIS
Initiate infection by
replicating in mucosa of the
upper respiratory & GI tracts
– Multiply in the intestinal tract;
only occasionally cause GI
symptoms
Virus spreads to lymphoid
tissue
Viraemia common (hence
spread to different target
organs)
Damage to the target organ
– direct cell damage
– cell-mediated immunity
 CLINICAL PRESENTATION
Infections more common in children
– 75% in children under 15 years old
Most are asymptomatic (90%)
Can cause a wide range of symptoms
– Mild febrile / flu-like illness
– Pharyngitis
– Respiratory (D68)
– Headache
– Conjunctivitis
– Rash
– Meningitis
– Paralysis (D68)
 DIAGNOSIS & TREATMENT
Diagnosis Treatment
Enterovirus PCR Illness usually self-
– Stool sample limiting
– Clinical specimens Supportive treatment
– Rehydration
Cell culture, rarely – Analgesia
done now – Anti-pyretics
Antivirals not
Serology indicated
– Not available
 COXSACKIE VIRUSES
Large number of
different antigenic types
divided into two groups:
– Coxsackie A
– Coxsackie B

Source of infection:
– faecal-oral
– inhalation
– direct contact
 CLINICAL MANIFESTATIONS
Coxsackie A Coxsackie B
Fever Fever
Common cold Rash
Rash Meningitis
Herpangina Epidemic myalgia
(vesicular ulcerated (Bornholm’s disease)
lesions around soft – severe pleuritic chest
palate/uvula) pain
Hand, foot & mouth Respiratory
disease (vesicles) – bronchitis &
pneumonia in children
Myocarditis,
pericarditis
 ENTERIC CYTOPATHOGENIC HUMAN
ORPHAN (ECHO) VIRUSES
At least 33 antigenic types (1 – 33)
Spread:
– faecal-oral route
– oropharyngeal secretions
Clinical Manifestations
– Many asymptomatic
– Fever
– Sore throat with rash
– Meningitis
– Diarrhoea
– Rubella-form rash
– Pericarditis, myocarditis
 ENTEROVIRUS D68
Non polio enterovirus
Clinical manifestations
Spread:
– Mild upper respiratory
– Via
direct inhalation tract infection
manual transfer of – Severe LRTI
infected particles – Acute flaccid paralysis
– Cough/Sneeze/Saliva/
Fomites Diagnosis
Epidemiology – PCR (Throat/
– Cases peak in Summer Nasopharyngeal swab,
and Autumn BAL, CSF)
– Children predominantly
Treatment
affected
– Underlying respiratory – Supportive
illness (Asthma) – No antivirals
VIRAL GASTROENTERITIS OVERVIEW
Significant cause of
morbidity / mortality
worldwide
– Overcrowded, poorer
socioeconomic
regions
Faecal-oral spread
Occasionally droplet
(inhalation from vomit)
Food contamination
Asymptomatic infection
common
Gastroenteritis
Outbreaks, families,
institutions, ships
VIRUSES CAUSING GASTROENTERITIS

Reoviridae family
– RNA viruses
– Rotavirus
Caliciviridae family
– RNA viruses
– Norovirus
Astroviridae family
– RNA viruses
– Astrovirus
Adenoviridae family
– DNA viruses
– Adenovirus
OUTBREAKS OF ROTAVIRUS ARE MOST
COMMON IN WHICH ONE OF THE
FOLLOWING SETTINGS?

A. Crèches
B. Fast food outlets
C. Holiday camps
D. Large families
E. Universities
 ROTAVIRUS - EPIDEMIOLOGY
7 serogroups (A-G), Group A most common
Most common cause of acute diarrhoeal illness
in infants + young children
– Main cause of diarrhoea requiring hospitalisation
– Outbreaks: crèches, children’s hospitals
– Susceptibility greatest between 6 & 24 months
– By 3yo most infected & immune
Infectious dose very small
Incubation period: 2-4 days
Tropical regions = year round
Temperate climates = peaks during the cooler
months
 ROTAVIRUS - PATHOGENESIS
Multiplies in villi of small
intestine
– Damaged cells slough into
lumen of intestine
– Release of large numbers of
viruses

Shortening & flattening of
villi
– Decreases the surface area
for production of enzymes &
absorption

Hyperosmotic diarrhoea
results from this
malabsorptive state
 CLINICAL PRESENTATION
Diarrhoea for about 5 days
– Variable
mild diarrhoea & vomiting
severe, non-bloody watery
diarrhoea with dehydration &
electrolyte loss
– Dehydration
– Circulatory collapse & death
occasionally in severe cases
In immunocompromised, may
cause persistent diarrhoea
Rarely, CNS manifestations
– Seizure
– Encephalopathy
ROTAVIRUS IN IRELAND (HPSC)
LABORATORY DIAGNOSIS / MANAGEMENT
Diagnosis:
Stool
– Antigen detection
– PCR
Management:
Rehydration
May develop post-gastroenteritis lactose
intolerance
– Persistent diarrhoea exacerbated by milk
Prevention:
Vaccine now available
Oral vaccine (2 & 4 months)
Given up to 8 months of age
 CALICIVIRUSES
Small RNA viruses
Calicivirus: cup shaped
(‘Calyx’) depression on
spherical capsid surface
Most well-recognised are the
Noroviruses
– Very common cause of
gastroenteritis worldwide
– ‘Winter vomiting’ bug
– Norwalk virus, a norovirus, is a
major cause of epidemics of
diarrhoea in children
– Half of non-bacterial acute
gastroenteritis in US due to
Norwalk
 NOROVIRUS: EPIDEMIOLOGY
Spread by the faecal-oral route
– Contaminated water or food
Replication in small intestine
Asymptomatic excretion by
carriers is not uncommon
Short incubation period (12-72hrs)
Clinical presentation:
– Nausea, abdominal cramps
– Malaise, myalgia, headache
– Acute vomiting
– Diarrhoea may occasionally
occur
Spontaneous resolution in 24-48h
Rehydration important
 DIAGNOSIS
Clinical presentation – especially in
healthcare facilities if staff also have
symptoms
Faeces: PCR (antigen detection & EM but
rarely used now)
 PREVENTION & CONTROL
Hand hygiene – soap &
water
Good standards of
environmental cleaning &
disinfection
In hospitals & other
healthcare facilities
– Surveillance to detect cases &
outbreaks
– Isolation/cohorting of patients
– Closing wards/limiting traffic
(visitors, staff) & transfers
www.hpsc.ie
 ASTROVIRUSES
Astrovirus: star-like appearance
– Similar symptoms to norovirus
– Incubation period slightly longer (3-
4 days)
– Illness lasts up to 4 days
Numerous outbreaks caused by
caliciviruses & astroviruses in
bivalve shellfish (oysters, clams,
mussels etc.)
Acute diarrhoea / vomiting
– more prominent in calicivirus
infections
 ADENOVIRUS
Double-stranded DNA virus
> 40 serotypes
Most adenoviruses multiply in
GIT & can be found in faeces
– Generally asymptomatic
Transmission by:
– faecal-oral route
– respiratory route
– direct inoculation
Clinical infection:
Infantile diarrhoea – watery
diarrhoea and fever lasting up
to 2 weeks
Respiratory infection
(common), meningitis,
conjunctivitis
 SUMMARY POINTS
1. Polio remains important in low-income
countries but can be prevented/eradicated
by vaccination
2. Enteroviruses cause a variety of illnesses,
including meningitis, especially during
childhood, but most are minor & self-limiting
3. Rotavirus is a major cause of diarrhoea
amongst infants & for which there is a
vaccine
4. Norovirus causes sporadic & epidemic
diarrhoea & vomiting in hospitals & the
community
 CLINICAL VIGNETTE
On a Thursday afternoon, over a period of 3
hours, four hospital patients develop
vomiting followed later by diarrhoea
One of the patients is on co-amoxiclav for a
urinary tract infection
Later, a staff nurse goes off sick with similar
symptoms.
WHAT IS THE LIKELY CAUSE OF THIS?
HOW MIGHT IT HAVE BEEN ACQUIRED?
HOW DO YOU TREAT THE PATIENTS & THE
NURSE?
WHAT MEASURES SHOULD BE TAKEN TO
PREVENT ONWARD SPREAD?
Thank you