Diverticulitis Clinical Trial
Official title:
Assessment of the Gut Microbiome in Diverticulitis and Diverticulosis
Colonic diverticula are outpouchings of the large bowel, and they occur in up to 60% of
people over 60 years of age. About 10-25% of patients with diverticula will have symptoms.
These can range from acute diverticulitis, which can be a lethal infection to symptomatic
diverticular disease, which involves inflammation of the bowel and altered bowel habits,
decreasing patients' quality of life. We do not know which patients will develop acute
diverticulitis or which patients will develop diverticula in their colon.
We believe that diverticulitis may be associated with, or even caused by, alterations in the
bacteria that live in the colon, known as the gut microbiome. Until recently it was too
expensive and too complex to examine the microbiome in detail. We propose to examine for the
first time in detail the microbiome of patients with acute diverticulitis and asymptomatic
diverticulosis.
Stool samples will be analysed for gut microbiome composition by 16S ribosomal RNA gene
pyrosequencing. There is a part of the bacterial cell, the ribosome, which is the same in all
bacteria (16S). Through PCR, polymerase chain reaction, and sequencing, we can separate out
the different types of bacteria in a sample. We can then look at the different kinds of
bacteria in each patient population, as well as how diverse the populations are within the
groups, and compared to other groups.
We hope to be able to discriminate between the microbiome of patients with acute
diverticulitis and asymptomatic diverticulosis. This study many change how diverticulitis and
diverticulosis are conceptualized and treated. Alterations in the microbiome in these disease
states may be able to be treated, preventing further disease.
Diverticulosis affects 60% of people over 60 and roughly 10-25% of individuals will have
symptoms, ranging from acute diverticulitis requiring emergent intervention to symptomatic
diverticular disease with persistent lower abdominal pain and altered bowel habits. Up to 5%
of patients with acute diverticulitis will die while hospitalized. In spite of the prevalence
and severity of its manifestations, fundamental questions remain about the nature of
diverticulitis and diverticulosis.
The human colon contains 100 trillion bacteria, including hundreds of species and 10 times as
many genes as the human genome. While alterations in the microbiome have been implicated in
disease states such as Irritable Bowel Syndrome (IBS) or Inflammatory Bowel Disease (IBD),
the microbiome has not been adequately described in relation to colonic diverticula. As
King's College Hospital has the only known dedicated Diverticular Disease clinic, we have a
uniquely large patient population in which to learn about this condition.
When colonic diverticula become inflamed or perforate, patients have diverticulitis. Inciting
factors for episodes of acute diverticulitis are not well characterized, but include age,
lifestyle factors and certain medications. Clinicians have no way to predict which patients
will get diverticulitis, nor how severe its presentation will be. In some cases of
pericolonic diverticulitis (known as Hinchey I), inflammation may resolve even without
antibiotics, while in other cases, perforated diverticulitis will include feculent
peritonitis (Hinchey IV) and require emergent colon resection. Diverticulitis may be caused
by alterations in the microbiome, but this has not been sufficiently addressed.
The majority of patients with asymptomatic diverticulosis, that is, the presence of colonic
diverticula in the absence of symptoms, will never experience an episode of diverticulitis.
There has been, however, some limited evidence that the microbiome in diverticulosis is
altered, and similar to that in acute diverticulitis. If that is so, then predicting which
patients will develop acute diverticulitis will remain impossible. It will also mean that
research which did not assess or control for the presence of diverticula in patient
populations will need to be revisited.
Currently, clinicians have no basis to predict (1) which patients will develop severe acute
diverticulitis requiring surgery or (2) which patients will develop acute diverticulitis
which will resolve with antibiotics. We believe that further insights into the gut microbiome
will allow for better diagnostics and treatments in the future.
There have been a few, limited studies of the microbiome in diverticulitis, but not full
pyrosequencing. This is because research costs have fallen 5 orders of magnitude in the past
decade while computational capacity has increased. Studies have looked at the individual
strains of bacteria within stool or mucosal samples, which does not suffice to understand the
complex microbiome.
As the gut microbiome has not been thoroughly investigated in diverticular disease, this is
an exploratory study. However, we do wish to test the hypotheses that patients with
asymptomatic diverticulosis have a microbiome more similar to patients with acute
diverticulitis, than to that of normal controls.
14. Methodology Setting: King's College Hospital, a tertiary referral hospital in south
London. King's is a referral centre for the work up of two-week wait for colorectal cancer
(2ww) assessments, with 900 new patient referrals assessed per year. Also, the Accident &
Emergency Department at King's admits up to 250 patients per year with acute diverticulitis.
Patients: 4 sets of patients will be recruited. 25 patients per group will be recruited:
Groups A and B. Patients with acute diverticulitis will be recruited from the A&E department
at King's, prior to commencement of antibiotics. Rectal swabs will be obtained from patients
with a chief complaint of acute abdominal pain upon initial assessment, prior to initial
antibiotics. All specimens will be initially frozen, but only patients specimens with an
admitting diagnosis of acute diverticulitis and colonic imaging (CT imaging or visualization
at surgery) will be analysed. Patients with acute diverticulitis will be assessed in 2
groups, those patients with perforated diverticulitis (i.e., Hinchey III or IV) and those
patients with unperforated diverticulitis (Hinchey I or II).
Group C. Patients with asymptomatic diverticulosis will be recruited from the 2-week wait
(2ww) colorectal cancer pathway. Patients presenting with a chief complaint of fresh rectal
bleeding, with no other complaints, will be recruited prior to diagnostic imaging, either by
CT, CT colonography, or endoscopy. They will provide a stool sample or rectal swab prior to
bowel cleansing, if required for their evaluation, as that may alter the microbiome. Those
patient samples with diverticulosis (and or haemorrhoids, as the other most common cause of
fresh PR bleeding) will be analysed.
Group D. Patients with or without haemorrhoids, and no other colonic pathology will be
recruited from the 2ww colorectal cancer pathway. These will be the normal controls. Patients
presenting with a chief complaint of fresh PR bleeding, with no other complaints, will be
recruited prior to diagnostic imaging, either by CT, CT colonography, or endoscopy. They will
provide a stool sample or rectal swab prior to bowel cleansing, if required for their
evaluation, as that may alter the microbiome. Those patient samples with diverticulosis (and
or haemorrhoids, as the other most common cause of fresh PR bleeding) will be analysed.
Stool analysis: Stool samples will be analysed for faecal microbiome composition by 16S
ribosomal RNA gene pyrosequencing, through a cooperative agreement with the Bruce lab at
King's College London.
In brief, gene targeted 16S rRNA sequencing examines a structural component of the bacterial
ribosome through targeted primers. Constant portions of the ribosomal RNA are amplified,
which allows for identification of the variable portions. Sequences are then clustered in to
OTUs, operational taxonomic units and may be assigned to lineages from genus all the way to
phyla.
Planned statistical analyses: Microbiome composition will be assessed in several different
ways. Alpha diversity will be measured, which is a measure of the average diversity within a
sample. Multiple assessments of alpha diversity will be made, including Chaol richness
estimate, OTU richness, and Shannon index. Alpha diversity has been shown to be reduced in
patients with active IBD as compared to patients with quiescent disease, but has not been
described in diverticular disease. Beta diversity is a comparison of diversity between
samples (that is, the separation of the phylogenetic structure of the OTUs in one sample as
compared to all other samples) will be calculated through Unifrac distances.
Power calculation: Metabonomic studies of the gut microbiome at this time are necessarily
exploratory. As such power calculations have not been performed in the field. However, in
this instance analysing 25 samples per group should be sufficient to discriminate between
groups and assess their diversity.
Existing infrastructure: All infrastructure needed is currently in place. The study team
(Professor Bjarnason and Mr Papagrigoriadis) currently manage the 2ww clinics, as well as
attend to acute admissions in A&E at King's College Hospital. A materials transfer agreement
is in place with the Bruce lab at King's College London for transfer of other faecal samples,
and would only need to be amended.
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