Cytomegalovirus Infections Clinical Trial
Official title:
Development of Potential Biomarkers for Foetal Brain Development After Congenital CMV Infection
Cytomegalovirus (CMV) is the most common cause of congenital infection, with approximately
0.5% of pregnant women being infected during pregnancy. CMV transmission to the fetus occurs
in about one third of women who are infected in first trimester. Babies infected before
birth are at risk for serious neurological complications such as intellectual disability,
seizures, deafness, and even death. Most couples facing a diagnosis of congenital
cytomegalovirus infection in their unborn baby focus heavily on the predicted neurological
outcome for their child. To date, methods to assess brain development in fetuses have been
mainly limited to detecting structural brain abnormalities by ultrasound. However, these
ultrasound signs may not become apparent until very late in pregnancy, and some neurological
disability is not accompanied by any structural brain changes. More research on methods of
predicting neurodevelopmental outcome independent of structural brain malformations before
third trimester is urgently needed.
The purpose of this study is to investigate a new method of studying the health of unborn
babies using amniotic fluid. Amniocentesis is often performed after maternal CMV infection
to diagnose fetal infection. Prior research by Dr Hui has demonstrated that cell free RNA in
amniotic fluid can provide meaningful information from multiple organs including the fetal
brain. The investigators propose to collect and analyse a small sample of amniotic fluid to
detect which genes are turned "on" or "off" (gene expression) in a fetus that has a
congenital CMV infection, compared to those without any infection.
The genes that are differentially expressed in CMV infected fetuses will then be analysed to
provide information on the broad physiological processes that are altered due to the
infection ("functional analysis") and identify neurodevelopmental gene transcripts of
interest for future studies ("biomarker discovery").
Rationale for the study Current tools for prediction of perinatal outcome after fetal
infection with CMV are very limited. Amniocentesis is usually offered from 20 weeks
gestation to diagnose fetal infection. This sampling provides an opportunity to investigate
novel approaches to predicting perinatal outcome.
This study aims to develop an mRNA based approach to studying the impact of CMV on the
developing fetus. Dr Hui's PhD thesis was based on the study of amniotic fluid mRNA as a
gene expression "summary fluid" of the fetus that provides meaningful information about
development. This work suggested that information about fetal neurodevelopment is obtainable
from amniotic fluid via cell-free fetal brain specific transcripts (mRNAs).
If a woman at risk of congenital CMV chooses to have an amniocentesis for diagnosis of fetal
infection, this sampling provides an opportunity to collect an aliquot of AF for RNA
analysis. RNA sequencing (RNAseq) is a relatively new technology that enables detailed
analysis of the genes that are actively expressed ('switched on') during a particular
disease state. The investigators will apply RNAsequencing methods to amniotic fluid to
search for potential gene expression differences that may assist in understanding the
disease through functional analysis and identifying candidate biomarkers for future studies.
Hypothesis That fetuses infected with CMV will have an altered gene expression profile
compared with noninfected fetuses, as ascertained in amniotic fluid cell-free RNA.
Aims To perform comparative whole transcriptome analysis of AF RNA from CMV-infected and
uninfected fetuses using RNA sequencing technology.
Methods This will be a multicentre study involving fetal medicine units in Melbourne (Mercy
Hospital for Women), Sydney (Royal Hospital for Women, Randwick) and Leuven (UZ Leuven,
Leuven). The investigators aim to recruit 20 women (10 cases, 10 controls) over 2 years.
Samples will be collected during clinically-indicated amniocentesis performed for the
purposes of diagnosing the presence or absence of congenital infection. This is usually
performed at 20-21 weeks gestation for women with seroconversion in early pregnancy, or at
the time of fetal assessment in cases of referrals with structural abnormalities. An
amniotic fluid (AF) volume of 5-10ml would be required for the research study. This sample
volume does not pose a significant burden on the clinician performing the procedure (only
10-20 seconds additional collection time) and does not increase the risk of the procedure
for the pregnancy or woman as there is NO additional needle insertion (no increase in
miscarriage or impact on fetal or maternal well-being).
The research sample will be stored in a separate vial to the clinical sample at the
respective recruitment sites. It is stored at 4 degrees Celsius and then centrifuged at 300
x g for 10 minutes within 6 hours of collection. The AF supernatant will be taken off and
stored in a separate tube. Both the cellular portion and the supernatant will be frozen and
stored at - 80°C. The Sydney recruitment site will transport the specimens to the University
of Melbourne laboratory at the Mercy Hospital for Women on dry ice, where they will be
processed. All samples will be given a study sample ID number before transport to the
University of Melbourne research lab at the Mercy Hospital for Women to protect the
participants privacy.
Total RNA from AF samples from 10 CMV infected and 10 uninfected fetuses, matched for
gestational age and fetal sex, will be analysed. Total RNA will be extracted from the AF
supernatant samples will be performed using the Qiagen Circulating Nucleic Acid extraction
kit. Whole transcriptome amplification and RNA-sequencing of the cell free RNA will be
performed and the expression profiles of the case and control groups compared in a paired
analysis as performed in previous studies of AF RNA. Pathway analysis of the
differentially-regulated genes will be used for the biological interpretation. The
investigators will employ both widely used commercial software (Ingenuity Pathway Analysis™)
and a fetus-specific functional analysis tool developed by collaborators at Tufts University
(DFLAT).
The most down- and up-regulated brain transcripts will be identified as candidate biomarkers
of abnormal outcome for future validation studies.
Pregnancy outcomes to six weeks postpartum for mother and baby will be collected from the
hospital medical record, including fetal abnormalities detected on ultrasound or MRI,
gestation and mode of birth, birth weight, use of prenatal therapies (CMV immunoglobulin or
other), newborn investigations such as urine/saliva/ cord blood test results, cranial
ultrasound, physical examination and results of newborn hearing screening.
Expected outcomes: Compared to uninfected fetuses, CMV-infected fetuses will show altered
neurodevelopmental pathways and gene expression on functional analysis. Fetal-brain specific
transcripts that are differentially expressed in CMV-infected fetuses will be identified as
candidate biomarkers of neurodevelopmental outcome for future validation studies.
Data storage and security The database will be set up within RedCap (Research Electronic
Data Capture), a free, secure, web-based application designed to support patient data
capture for research studies. The University of Melbourne REDCap service provides secure
storage and backup policies that comply with University standards and the the United States
Health Information and Privacy Act. Only the study investigators will have access to this
database.
Hard copies of consent forms and other study information will be kept in locked filing
cabinets. Only the study investigators and the HREC will have access to the files.
6.0 Inclusion criteria Women undergoing clinically-indicated amniocentesis for suspected
congenital CMV infection through the Department of Perinatal Medicine at the Mercy Hospital
for Women or the Royal Hospital for Women, Randwick will be identified from the perinatal
clinic referrals by Dr Hui or Dr Shand respectively. These women will include (i) women with
evidence of maternal primary CMV infection during pregnancy (ii) Fetuses with structural
abnormalities suggestive of congenital CMV infection (as listed in Hui L and Wood G.
Perinatal outcome after maternal primary cytomegalovirus infection in first trimester: a
practical update and counseling aid. 2015 Prenatal Diagnosis; 35:1-7. ) Any English-speaking
woman aged 18 or over who is capable of giving informed consent will be eligible.
Subjects with confirmed fetal CMV infection will form the case group. Fetuses without
evidence of congenital infection will form the control group. Structurally abnormal fetuses
that are CMV negative will be excluded from the control group analysis. The rate of infected
vs noninfected fetuses following maternal infection is approximately 40%, so we anticipate a
reasonable ratio of cases and controls for our target sample size.
Initial contact will be made by the clinical team, but follow up by a research midwife to
discuss the research study in detail will be made, either by telephone, or face-to-face
following the clinical consultation wherever possible. This is to minimize potential
conflicts from having the clinicians obtain patient consent for the study. Patients will be
reassured that they will be under no obligation to participate and that their decision will
not affect their clinical care or relationship with their treating medical practitioner
Written, informed consent will be obtained from women prior to their procedure and be stored
in a locked filing cabinet in the respective Departments of Perinatal Medicine.
Exclusion criteria Women who do not give consent, who are not capable of consent for medical
procedures, non-English speaking, or who are under 18 years of age.
Statistical analyses Sample size In general, the more biological replicates (larger sample
size), the stronger the inferences that can be made from the gene expression data.
Biological variation between samples and the expected spread of differential gene expression
are important factors influencing the ideal sample size. For this study, the investigators
do not know in advance how the gene expression levels would be distributed, thus restricting
our ability to use sample size algorithms for RNA-seq experiments. In addition to the
restrictions on sample availability discussed above, the high costs associated with
laboratory processing limited the feasibility of using large numbers of AF samples.
The main factors that influence formal sample size calculations for RNA-sequencing
experiments are: depth of sequencing, coefficient of variation, magnitude of differential
expression detected, false positive rate and power. Assuming average read depth of 20, equal
within group coefficient of variation of 0.4, an effect size of 2 fold, 0.05 false positive
rate and 80% power, the number of subjects per group required is 7.1 The investigators
therefore aim for a minimum target of ten samples per group.
Analysis of differential gene expression and functional analysis A consultant bioinformatics
specialist within the Translational Obstetric Group will be available for statistical and
analysis support for the gene expression data. Genes that are significantly dysregulated in
the CMV infected cases compared with non-infected controls will be identified. Functional
analyses of the differentially expressed genes will be performed using Ingenuity Pathways
Analysis (IPA) Version 9.0 software (Ingenuity; Redwood City, CA). Ingenuity is a
manually-curated database that identifies over-represented biological processes in a given
data set and calculates a significance score for each result using the right tailed Fisher's
test. The investigators will also use a publicly available fetus-specific functional
annotation "Developmental FunctionaL Annotation at Tufts" (DFLAT) that has previously been
shown to enhance biological interpretation of perinatal datasets
(http://dflat.cs.tufts.edu).2
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