Download prenatal arrays user guide - Leeds Teaching Hospitals NHS Trust

The Leeds Teaching Hospitals NHS Trust
Leeds Genetics Laboratory (Cytogenetics)
PRENATAL ARRAYS USER GUIDE
Microarray Lead: Mrs Sarah Hewitt
Telephone: 0113 206 5419
Email: [email protected]
Microarray Comparative Genomic Hybridisation (array CGH) has been in service in the Leeds
Cytogenetics lab since 2012 as a first line postnatal investigation for children with unexplained
learning difficulties and/or dysmorphic features. The technology provides a high resolution genomewide analysis of genomic imbalance and as a result the abnormality detection rate is twice that
achieved by conventional cytogenetics.
As chromosomal anomalies account for 20~25% of major fetal anomalies, array CGH is also
increasingly being used to replace karyotyping for this referral group. There have been several recent
studies on the application of array CGH in prenatal diagnosis which show that array CGH is more
effective than karyotyping at detecting pathogenic genomic imbalance [refs PD Brady et al, 2014, B
Oneda et al, 2014, and RJ Wapner et al, 2014, Vanakker et al 2014.
In the UK, an EME-funded study (the EACH project) which ran between 2012 and 2014 was designed
to evaluate the patient and professional views of the technology and the barriers/facilitators to its
implementation into service. This study ended in May 2014 and has reported its findings. The Joint
Committee on Genomics in Medicine has produced guidelines ‘Recommendations for the use of
Chromosome Microarray in Pregnancy June 2015’.The Leeds Cytogenetics lab participated in the
EACH study and has capitalised on its involvement to develop robust and reliable processes and
testing pathways for prenatal arrays.
The recommendation that prenatal arrays are introduced into diagnostic service for referrals with
abnormal ultrasound findings has resulted in the development of clear local guidelines on how the
Leeds lab applies array CGH in a prenatal setting.
This document is designed to provide current information about the local policy regarding prenatal
arrays and information about the technology. The local policy is subject to amendment following
publications and recommendations from the EACH study, and any recommendations set by the Royal
College of Obstetricians and Gynaecologists and the Association for Clinical Genetic Science (ACGS)
Quality Committee (for best practice guidelines). Users will be informed of any major changes in
policy.
The Leeds Teaching Hospitals NHS Trust
Leeds Genetics Laboratory (Cytogenetics)
What is array CGH and what are the benefits?
Figure of chromosome 8 showing a loss of chromosomal material denoted by the red bar
Array CGH is a technique for detecting abnormalities of genomic copy number. It is a high resolution
whole genome screen which detects genetic imbalances at a greater resolution (~60Kb) compared
with karyotyping (5-10Mb), ie a ~1000 fold increase in resolution. This increase in resolution detects
a higher number of genomic gains and losses (imbalances) than can be seen using QF-PCR &
karyotype. Array CGH also accurately identifies the pathogenic genes involved in chromosome
imbalances. This gives more accurate information on the cause of the fetus’s phenotype and enables
better patient management.
Who will be tested by array CGH?
Prenatal array CGH was introduced into our laboratory for selected cases for all referring centers on
the 13th February 2015. All referrals are initially tested by QF-PCR for sexing and rapid aneuploidy
assessment for chromosomes X,Y,13,18 and 21. Where the QF-PCR result is normal prenatal arrays
are performed in the following cases unless stated on the referral form by the referring clinician:
1)
2)
3)
4)
A pregnancy with an abnormal ultrasound scan
A pregnancy with an increased NT of >3.5mm
Other specific clinician requests
A pregnancy in a family known to carry a clinically significant genomic imbalance detected
pre- or postnatally by array CGH or another molecular method.
The Leeds Teaching Hospitals NHS Trust
Leeds Genetics Laboratory (Cytogenetics)
Specimens required for QF-PCR, Array CGH and karyotype to be performed:
Amniotic Fluid - Minimum 15-20ml
CVS - 5 fronds
Parental bloods will be requested by the laboratory if required
Suboptimal Samples
Where DNA quality from uncultured tissue is unsuitable for array CGH, it may be necessary to extract
DNA from cultured cells. In such circumstances, the lab will notify the referring obstetrician of the
need for performing array CGH on cultured cells as this will generate a delay in reporting time.
The Leeds Teaching Hospitals NHS Trust
Leeds Genetics Laboratory (Cytogenetics)
Turnaround Times (TAT)
Our professional body the Association for Clinical Genetic Science (ACGS) issues best practice
guidelines which define the recommended TAT for prenatal karyotyping as 95% of cases reported
within 14 calendar days of sample receipt. At present it is not feasible to turn prenatal arrays around
within this timeframe, although all efforts will be made by the lab to work towards achieving this.
The lab will endeavours to report a prenatal array result within 21 days of sample receipt for a first
line array, or within 28 days for an array performed after karyotyping due to an abnormal result. This
will include any confirmatory studies necessary in the event of finding a pathogenic imbalance.
Where it is necessary to analyse parental samples for confirmation/clarification purposes, an interim
prenatal array CGH report will be issued and a final report when any necessary parental studies are
completed.
Where DNA quality from uncultured tissue is unsuitable for array CGH, it may be necessary to extract
DNA from cultured cells. This will add on further delays to reporting times as DNA extraction can only
take place when cultures are ready (about 14 days from receipt).
Platform used
Array CGH will be performed on extracted DNA using CytoSure Constitutional v3 (8x60k) oligo array
and analysed with CytoSure Interpret software. The design of this array gives the following
resolution: High Priority (exon targeted) 189kb (1 probe every ~63kb); Medium Priority (whole-gene
targeted) 375kb (1 probe every ~125kb); and Low Priority (whole-gene targeted) 663kb (1 probe
every ~221kb). Only clinically significant imbalances will be reported.
Interpretation and Reporting
The purpose of a prenatal array in an ongoing pregnancy is to ascertain whether there is a genetic
imbalance present that is clinically significant with respect to the features detected on antenatal scan
or whether a familial imbalance is present in a fetus.
Interpretation for ongoing pregnancies
1) Imbalances will only be reported if they are interpreted as likely to be clinically significant to the
fetus in relation to the supplied USS features. Guidance will be taken from the locally held table
produced by the EACH study. The guidelines were devised with multicenter input. Clinically
significant findings will include recognised microdeletion and duplication syndromes, as well as other
imbalances where the literature details association with significant problems.
2) Neurosusceptibility loci have variable expression and penetrance and therefore the phenotype of
an individual with one of these imbalances may vary from within normal limits to developmental
delay and autism. As phenotypic certainty cannot be offered and in line with national consensus only
a limited number of these loci that are associated with an increased incidence of anomalies detected
on scan will be reported.
3) Due to the increased resolution of the screening there may be occasional unexpected incidental
findings. Incidental findings will be discussed with the obstetrician, Clinical Geneticists and laboratory
The Leeds Teaching Hospitals NHS Trust
Leeds Genetics Laboratory (Cytogenetics)
staff on a case to case basis and will only be reported if they will have implications for the individual
or relative and by reporting them there will be a health benefit.
4) Benign imbalances or imbalances classified as variants of uncertain significance (either likely
benign or uncertain) will not be reported and will not be validated.
Interpretation for non-viable / terminated pregnancies
If a pregnancy is no longer ongoing (after discussion with obstetric team/clinical geneticist) and on
analysis an imbalance is detected that may either:
1) Have contributed to the phenotypic features of the fetus or the demise of the
pregnancy, or
2) Be clinically significant for other family members (neurosusceptibility loci, incidental
findings).
These findings will be reported.
Confirmation and follow-up
If a clinically significant imbalance is detected further confirmation studies will be performed. These
may take the form of FISH studies, Q-PCR (different to QF-PCR) studies, MLPA, karyotyping or other
techniques as appropriate.
Parental studies will also be undertaken to determine whether the imbalance has arisen de-novo or
has been inherited where appropriate.
These studies will add extra days to the reporting time.
Reports
Following interpretation of the imbalances and adhering to the policy detailed above reports will
take the following format:
1) No imbalances detected relevant to the fetus’s problems.
NO CLINICALLY SIGNIFICANT IMBALANCE DETECTED
Microarray analysis on DNA extracted from chorionic villi/amniotic fluid sample has shown a fe/male
profile with no imbalances of known clinical significance detected. As such no further work will be
carried out on this sample.
2) Imbalance detected which can be associated with the scan findings - Abnormal Report
FINAL REPORT: FAMILIALLY INHERITED 6p DELETION AND 17p DUPLICATION DETECTED BY ARRAYCGH AND CONFIRMED BY G-BANDING
Microarray analysis of DNA extracted from direct chronic villus material has shown a female profile
with two large imbalances involving material derived from the short arm of chromosome 6 and the
short arm of a chromosome 17. The first is a deletion of 6p**-6p** which is estimated to be between
a minimum of 2.1Mb (DNA positions:**-**) and a maximum of 2.3Mb (DNA positions:**-**) in size
and contains * genes including * OMIM morbid genes.
The Leeds Teaching Hospitals NHS Trust
Leeds Genetics Laboratory (Cytogenetics)
The second imbalance detected is a duplication of 17p**-17p** which is estimated to be 32Mb
(minimum DNA positions: **-** and maximum DNA positions: **-**) in size. This region contains **
genes including ** OMIM morbid genes.
G-banded chromosome analysis has confirmed that these imbalances are the result of a paternally
derived unbalanced translocation between the short arm of a chromosome 6 and the short arm of a
chromosome 17, with the duplicated 17 material positioned on the deleted 6p (see CVxxxx and
Bxxxx). It is highly likely that this unbalanced rearrangement is the cause of the scan findings seen in
this foetus. Advice on prenatal diagnosis may be helpful in any future pregnancy involving xxx and
her partner. This patient and her partner may benefit from genetic counselling which can be
arranged at the Department of Clinical Genetics, Chapel Allerton, Leeds.
Results
All array results will be telephoned to the obstetricians. Unusual abnormal array results will also be
given to a Clinical Geneticist.
Limits to Array CGH technique and reporting restrictions
- Array CGH will not detect all genetic abnormalities
- Array CGH cannot detect balanced chromosome rearrangements such as reciprocal translocations
and inversions. Karyotyping will be carried out for patients suspected of these abnormalities.
- Array CGH cannot detect low level mosaicism (< 30% mixture of abnormal and normal cells)
- Array CGH cannot detect mutations
- Anomalies may occur which cannot always be recognised or properly interpreted.
- Not all imbalances will be reported (as detailed above and in the laboratories policy on prenatal
arrays). Some unreported imbalances may become clinically significant postnatally.
The Leeds Teaching Hospitals NHS Trust
Leeds Genetics Laboratory (Cytogenetics)
Frequently Asked Questions
What if I can’t obtain parental blood samples?
We are aware that family circumstances can be difficult and it may not be possible to obtain parental
samples in some cases. Interpretation of an imbalance detected on array CGH is less informative
without inheritance studies.
Will array CGH detect mutations?
No. The array platform we will be using will detect small genomic imbalances which may disrupt
genes and give a similar phenotype to a mutation but it is not sensitive enough to detect mutations
within genes. Requests for specific mutation testing can be made to the Leeds DNA laboratory.
Which referral card do I use?
It's the Cytogenetics and DNA Joint referral card which can be downloaded from this website.
It is important that any patient referred for array CGH testing is appropriately consented and
counselled about the technology, its limitations, target turnaround times, and reporting
arrangements.