Intracranial aneurysms form part of the group of cerebrovascular disorders, and are defined as abnormal dilations of the cerebral arteries, generally located in the bifurcation of the arteries which form the Circle of Willis. The incidence in the general population is 2–8%.1–3

Depending on how they present, intracranial aneurysms can be classified as unruptured, which in most cases are incidental findings on cerebral angiography for a different diagnostic purpose, or at autopsy1–3; and ruptured, which usually cause a subarachnoid haemorrhage with manifestations which include: intense headache, nausea, vomiting, focal neurological deficit, and loss of consciousness, amongst others.4 The mortality rate for ruptured intracranial aneurysms is high (50%), while 25% will suffer permanent disability, paralysis, loss of speech, vision and motor coordination.1

To date, the aetiology of intracranial aneurysms is unknown. However, various environmental factors are associated, such as smoking, systemic arterial hypertension and alcoholism.3,4 Similarly, genetic factors are associated with a predisposition; although there is no defined Mendelian inheritance pattern for this disease, epidemiological studies demonstrate higher autosomal transmission; the first degree relatives of a person with an intracranial aneurysm have a 3–6 times greater risk than that of the general population.3,4 Genetic studies also show potential sites of susceptible genes, or loci, for the formation of intracranial aneurysms; however, in many populations these results have been contradictory, as in the case of the gene which codes the nitric oxide synthase enzyme (NOS), which is responsible for producing nitric oxide.3,5–9

Endothelial nitric oxide synthase (eNOS) is one of the 3 isoforms of NOS, found in the body constitutively10; the significance of the production of nitric oxide synthase by eNOS is that it is the most powerful endogenous vasodilator known.10,11 eNOS is coded by the NOS3 gene and is expressed principally in the endothelial cells. Various polymorphisms in the gene have been described in association with a variable number tandem repeat (VNTR), located in intron 4 in the eNOS4 gene, which might affect the expression of the enzyme, and alter the circulating levels of nitric oxide. As an example, it is known that eNOS participates in both haemodynamic and structural functions, and its absence or reduction might cause the vascular wall to weaken or rupture, conditioning susceptibility to the formation of coronary and cerebral aneurysms.7,10,12–16

In 2008, Özüm et al.14 reported that the TT genotype of the eNOS3 gene G894T polymorphism is significantly frequent in patients with ruptured intracranial aneurysm compared with the healthy population, and is associated with a risk of rupture (p<0.05). However, other authors did not find this same association, probably due to the ethnic differences in the genotype distribution.14

Studies oriented towards gaining a deeper knowledge of human variability help us to understand the genetic structure of our population, compare it with other populations, and to propose new techniques for diagnosis, and even specific treatments aimed at stabilising the patient.

Over the past decade both Mexico, and clinical genetics have undergone major development, which coincides in part with the changes in the national health profile. Thus, the purpose of our work is to gain an understanding of the genotype frequencies of the polymorphisms of the eNOS3 and eNOS4 genes, and their relationship with ruptured intracranial aneurysms in the Mexican population.

We know that a delay in the diagnosis of an intracranial aneurysm increases the risk of rebleed, especially if more than 6h have passed since the initial haemorrhagic event. Early intervention, known as “haemorrhage prevention”, is the best strategy to reduce the incidence and prevalence of this disorder.

A prospective case–control study was undertaken, evaluated and approved by the Research and Ethics Committees of the Centro Médico Nacional “20 de Noviembre” (CMN), Instituto de Seguridad y Servicios Sociales de los Trabajadores del Estado (ISSSTE); all of the participants signed their informed consent. A total of 172 patients, of whom 79 had been diagnosed with ruptured intracranial aneurysm, confirmed by panangiography with digital subtraction; their general and clinical features are described in Table 1. Ninety-three individuals were included as control from the same geographical area, selected at random from the Blood Bank; their clinical history, blood count and blood chemistry were taken, and a physical examination performed. They were classed as healthy if they met the requirements. A 5ml venous blood sample was taken from all of them in Vacutainer blood collection tubes with EDTA anticoagulant, for DNA extraction by salting out17 and stored at −20°C, for subsequent use.

The general feature of the cases with intracranial aneurysms and the controls included in our study (Table 1) show that the female:male ratio is higher in the case group compared to the control group (p<0.001). Furthermore, with regard to personal pathological background, the case group presented a higher percentage of patients with diabetes mellitus and systemic arterial hypertension, the latter being known to significantly increase the risk of a ruptured aneurysm.

Similarly, the distribution of the genotypes of the eNOS3 and eNOS4 genes was studied in both the case group and the control group (Table 2). In the eNOS3 gene the GG genotype was observed to predominate in both the case group, and the control group (64.56% and 88.23%; respectively); while the GT genotype presented more frequently in the case group (p=0.0012). Furthermore, the a/b and b/b genotypes of gene eNOS4 showed similar proportions in each study group, the b/b genotype presenting in over 90% in both the case and the control group.

Due to the distribution of the genotypes of gene eNOS3, it showed greater heterogeneity in the case group, a correlation was made between genotypes and frequency of presentation of intracranial aneurysm according to its size; classified as small (<5mm), medium (6–9mm) and large (>10mm) (Table 3). As can be observed, the GG genotype showed the greater amount of patients (n=29) with a large aneurysm; however the TT genotype had the greater percentage (83.34%) of patients with this type of aneurysm. Whereas medium-sized intracranial aneurysms were the highest percentage (50%) in patients with GT genotype. This heterogeneity in the size of aneurysms between the genotypes produced a significant tendency (p=0.05) between them.

Furthermore, taking into account the size in millimetres of each aneurysm for each genotype, the mean size of the aneurysm was calculated, and they were compared with one another (Fig. 1). As can be seen, the GT genotype presents the lowest mean of the 3 genotypes (7.73±0.76 vs 9.81±0.54; and 7.73±0.76 vs 12.5±1.12; for GT vs GG and GT vs TT; respectively).

Figure 1.

Mean size of aneurysms distributed by genotypes for the eNOS3 gene.

(0.05MB).

Taking the patients’ outcomes during their hospitalisation into account (death, sequelae or recovery), it was observed that there was greater heterogeneity of results in the GG and GT genotypes (Table 4). Thus it was noted that the patients with GG genotype presented the highest percentage (43.13%) of recovery, compared to the patients with GT genotype (27.27%). By contrast, the patients with GT genotype presented the highest percentage (68.18%) of sequelae and the lowest percentage of deaths (4.54%).

In recent years, the Mexican Health Secretary has reported cardiovascular and cerebrovascular disease as principal causes of death in the general adult population, occupying the second and third place respectively.18 Currently, there are no serum and/or genetic markers in Mexico to enable us to identify these diseases in advance. On a global level, various groups have studied genetic markers with clinical relevance for intracranial aneurysms.6,19–21 This research indicates that the presence of G894T polymorphisms of the eNOS3 gene, and VNTR a/b polymorphisms of the eNOS4 gene are associated with the development of intracranial aneurysms,5,14 and with other diseases of vascular-endothelial tissue.16,22

The presence of these 2 polymorphisms was studied in the Caucasian population of the USA, observing a greater frequency of the GT genotype of the G894T polymorphism, followed by the GG and TT genotypes, whereas, in the black population of Colombia the GG genotype was more frequent, followed by the GT and TT genotypes.12,23 The latter findings were also found in our population.

In the case of the VNTR a/b polymorphism, the Americans and the Colombians had a greater frequency of the genotype b/b, followed by the genotypes b/a and a/a.12,23

In our study, the b/b genotype also presented with greater frequency; however, we had no case with a/a genotype. This discrepancy in the distribution of the genotypes could be attributed to ethnic differences which should be taken into account for our population, because ancestrally, we have a different proportion of American Indian, European and African ethnicities.24,25

Song et al.5 recently described the relationship between ruptured aneurysms and genotypes; they found that in patients with intracranial aneurysms, the heterozygous genotype was associated with the size of the aneurysm compared with wild-type homozygotes and mutant homozygotes. Our data show that the patients with medium-sized aneurysms and GT heterozygous genotype had the highest percentage of sequela due to rupture (68.18%) compared to GG and TT homozygotes, therefore the data put forward by Song et al.5 and our findings indicate that genotypes can be used to predict the risk of the disorder.

There are currently few publications in Mexico which link polymorphisms of the eNOS gene with the size, location, and consequent rupture of aneurysms, therefore further studies are necessary to complement, confirm or discount our findings to provide greater evidence of the usefulness of these polymorphisms in our population.

Our study demonstrated that ruptured intracranial aneurysm occur more frequently in women with a mean age of 55, and a history of system arterial hypertension. It was also found that there is a significant tendency between the G894T polymorphisms of the eNOS3 gene, and the VNTR polymorphisms of the eNOS4 gene with the size and clinical course of intracranial aneurysms, and therefore the eNOS gene appears to play an important role in the pathogenesis of this disease.

This information could be used by neurological doctors and neurosurgeons, to generally anticipate the course of the disorder, and help to optimise the management, monitoring, treatment and recovery of patients with intracranial aneurysms.

Therefore, genetic screening for individuals at high risk, and their potential complications might be a clinical test available in the future.

The authors have no conflict of interests to declare.