Pulmonary arterial hypertension (PAH) is a progressive, fatal disease and most PAH patients have a poor prognosis despite standard-of-care therapies. Heritable PAH (HPAH) is usually (>80%) due to germline mutations in the bone morphogenetic protein receptor 2 (BMPR2) gene [1–4]. Thus, BMPR2 mutations constitute the largest known risk for developing PAH. One of the most perplexing features of HPAH is its reduced penetrance, which confounds genetic counselling. Nearly 80% of mutation carriers have no clinical symptoms, but they can produce offspring that are affected by HPAH [5]. Thus, disease development cannot be predicted in a mutation carrier and this deficiency in our knowledge about disease penetrance results in a significant physical, emotional and economic burden in HPAH families. Because 75% of subjects with HPAH have a New York Heart Association functional class rating of III or IV at the time of diagnosis, they have poor long-term prognosis: average life expectancy is ∼3 yrs from the time of diagnosis [6], as the treatment options for PAH, including HPAH, continue to have no impact on the underlying pulmonary vascular disease and limited efficacy.
Thus, for individuals with mutation, the decision to have children is fraught with two major uncertainties. 1) Will the mutated gene be passed along to their child (a 50% risk)? 2) If the mutation is passed along, will the child develop clinical disease? These important questions are not answerable with the current knowledge. The couple may decide to not have children, or can proceed to have children with the hope that their child will either not inherit the mutated gene or if they do, will hopefully never develop the disease. Pre-implantation genetic diagnosis (which has been used successfully in other genetic diseases), in theory, offers another welcome option that had not previously been considered in HPAH.
In this issue of the European Respiratory Journal, Frydman et al. [7] show the successful use of pre-implantation genetic testing in a family with BMPR2-related HPAH. The BMPR2 mutation carrier was the father who, at the time of the procedure, did not have any clinical or echocardiographic evidence of PAH. In vitro fertilisation (IVF) was performed by intracytoplasmic sperm injection (ICSI) into a harvested ovum obtained after hormonal stimulation. Among seven embryos analysed, five carried the mutated BMPR2 gene and two did not. One of these unaffected embryos was implanted, leading to a successful pregnancy and the birth of a healthy child who did not carry the deleterious BMPR2 mutation.
The use of IVF is not unique, but this is the first time this procedure has been successfully used in HPAH. However, IVF in itself can be a less than ideal solution. In couples undergoing this procedure, there is a significant physical, emotional and financial (up to ∼US$17,000 per cycle) burden. Furthermore, IVF is not harmless and has been reported to be associated with complications including higher incidence of multiple births and a low but discrete risk of other genetic disorders. Several studies have shown that IVF performed by ICSI carries a higher risk of a major birth defect (in particular, genitourinary defects and epigenetic syndromes such as Beckwith–Wiedemann syndrome and Silver–Russell dwarfism) compared with a naturally conceived infant [6, 8–10]. The American Society of Reproductive Medicine considers ICSI a safe and effective procedure but notes that it may carry some increased risk for the transmission of selected genetic abnormalities to offspring [11].
On the surface, the case for using IVF in an autosomal dominant disease with poor prognosis and inadequate treatment options appears to be clear cut and would seem to offer no relative disadvantage for this procedure, yet many advantages. However, the use of IVF in this disease is complicated by many factors, including the fact that only 20% of mutation carriers will eventually develop disease. Furthermore, the use of ICSI for IVF introduces additional risk of unwanted and potentially severe genetic disorders. These two factors necessitate complicated and extensive genetic counselling provided by trained professionals along with careful genetic evaluation in early childhood. This may limit the number of couples who qualify or are willing to pursue this procedure. Regardless, the first successful application of this procedure in HPAH is an important forward step and offers a welcome additional option to a couple in which one partner carries a mutation.
Footnotes
Statement of Interest
None declared.
- ©ERS 2012