Genomic testing is being gradually adopted in healthcare assisting in defining treatments for selected disorders.
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One of the primary fields for these tests are cancer mutations. Genomic tests on cancer cells may help to determine what types of treatment would be effective. Some insist that in cases of advanced cancer oncologists have an ethical obligation to request genomic testing while patients should be demanding these tests to make better informed decisions regarding their treatment.
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Still, in many cases neither cancer patients request these kinds of tests
not doctors offer them, primarily due to the high cost of the procedure. But
even if the possibility of genomic testing is discussed with their patients, nearly
one in four oncologists rarely or never bring up the issue of costs. The majority
of doctors who initiated such discussions were those who received training in
genomic testing or are working with electronic medical record (EMR) alerts for
genomic tests.
Discussion with Patients
Such are the results of a new study led by American Cancer Society’s Robin
Yabroff, Ph.D. and published on November 1 in JNCI: The Journal of the
National Cancer Institute.
Its aim was to analyse how routine were the discussions about expected costs
of genomic testing and what related treatments were happening. Such discussions
facilitate treatment decision making and provide cancer patients with a clearer
picture about expenses involved, but despite their importance little is known
of whether and how often they take place.
The investigators studied the data from 1,220 oncologists who reported discussing
genomic testing with their cancer patients from the 2017 National Survey of Precision Medicine in Cancer Treatment. They found that 50% discussed the likely costs of testing and related
treatments often; 26.3% did sometimes; and 23.7% did never or rarely.
Further on, it appeared that if oncologists had training in genomic testing
or implemented EMR alerts for genomic tests, they about twice as likely discussed
cost issues sometimes or often compared to rarely/never. More frequent cost
discussions were also associated with a number of other factors, including:
- treating solid tumours (as opposed to only hematological cancers)
- using next-generation sequencing (NSG) technology
- having higher patient volume; and
- dealing with higher percentages of patients, potentially vulnerable to expenses (insured by Medicaid, or self-paid or uninsured).
“Initiating a discussion about the expected out-of-pocket
costs of genomic testing and related treatment is a necessary first step, but
is not sufficient to ensure that patients and their families can make fully
informed decisions about treatment options,” the authors conclude. They point
out that targeting modifiable physician and practice factors, such as training
in genomic testing and use of EMR alerts, may be influential in increasing the
frequency of physician-patient cost discussions.
Procedure Cost
With the cost of sequencing generally falling, in the U.S., for example, genomic testing for patients with early-stage breast
cancer costs $3,217 on average. In a recent study conducted in the UK, genome sequencing costs were found to be £6,841 per cancer
case and £7,050 per rare disease case. The major share of sequencing cost (68–72%
of the total) falls on the consumables used during the testing. Equipment costs
are higher for rare disease cases, whereas consumable and staff costs are
slightly higher for cancer cases.
Categories of Expenses
The National Human Genome Research Institute (NHGRI) that for many years has
been tracking the costs associated with DNA sequencing considers the following
'production' costs:
- Labour and management costs, utilities, consumables
- Instruments and other large equipment (three-year amortisation period)
- Necessary informatics activities (eg initial data processing)
- Processing and submission of data to a public database; and
- Indirect costs such as fringe benefits, overhead costs and general administrative costs.
There are, however, so called 'non-production' activities that also
influence the ultimate cost of testing, such as:
- Quality assessment/control
- Development of technology and computational tools necessary for further improvement of the sequencing process
- Micro-managing of individual projects
- Informatics equipment
- Initial data processing (eg sequence assembly and alignments, interpretation of results)
Genetic vs Genomic Testing
It should be noted that genomic testing
is often used interchangeably
with and genetic testing, but each procedure has unique characteristics. Genetic testing refers to a type of medical test that
looks at the hereditary profiles
of patients. It is used to identify the risk of possible genetic disorders development in the future.
This procedure in relatively cheap and can be even done at home with a device
such as Oxford Nanopore's hand-held reader. In turn, genomic testing can be
performed by healthcare professional only and helps to understand the how certain
genes in the body behave and interact once a gene mutation has occurred. It can provide insight on the
aggressiveness and responsiveness of a tumour prompting a preferred course of
treatment.
References
Dinan MA, Wilson LE, Reed SD. Chemotherapy costs and 21-gene
recurrence score genomic testing among Medicare beneficiaries with early-stage
breast cancer, 2005 to 2011. J Natl Compr Canc.
2019;17(3):245-254. Available from https://jnccn.org/view/journals/jnccn/17/3/article-p245.xml
Schwarze K, Buchanan J, Fermont JM et al. (2019) The complete costs of genome sequencing: a microcosting study in cancer and rare diseases from a single center in the United Kingdom. Genetics in Medicine (2019): 1-10. Avaliable fromhttps://www.nature.com/articles/s41436-019-0618-7
Wetterstrand KA. DNA Sequencing Costs: Data from the NHGRI
Genome Sequencing Program (GSP) Available at www.genome.gov/sequencingcostsdata.
Yabroff RK, Zhao J, de Moor JS et al. (2019) Factors associated with
oncologist discussions of the costs of genomic testing and related treatments. JNCI: Journal of the
National Cancer Institute.Availablefromhttps://academic.oup.com/jnci/advance-article/doi/10.1093/jnci/djz173/5609133