Recent studies have shown a growing increase in renal stenosis; it is estimated that 6% of the adult population has hypertension. To date there have been few controlled epidemiological studies, but diagnosis rates of renal stenosis have increased, possibly because of improvements in the capacity to detect it, by both imaging exams and laboratory tests.There are a range of different etiologies of hypertensive disease, including heart disease, renal artery stenosis and parenchymatous renal disease. Many authors have proposed simplified treatments, but knowledge of the underlying pathophysiology of disease and its repercussions for different organs is of fundamental importance to choosing a treatment and to whether that treatment will be successful.Stenosis of the renal artery is caused by two important factors: degenerative diseases, such as progressive atherosclerosis, and inflammatory diseases, such as fibromuscular dysplasia. However, different age groups are predominantly affected by each type: the first, degenerative diseases, affects people over the age of 50, while the second prefers young people, particularly females. It is also important to consider the appearance of images in diagnosis, because atherosclerosis affects the origin of the renal artery, with atheromatous plaques that often begin in the aorta, whereas dysplasia affects the renal artery along its length, with an intense inflammatory process in the tunica media, producing an appearance of alternating stenosis and dilatation, somewhat like a bead necklace.The first attempts to treat hypertension caused by stenosis of the renal artery took place during the 1970s, but patients who were treated using open surgery for revascularization of the organ suffered high rates of morbidity and mortality. It is believed that this was due to their advanced stage of kidney damage.An alternative option, transluminal percutaneous angioplasty was first proposed around the same time and gradually refined, in terms of clinical and laboratory diagnosis, of imaging technologies and materials technologies, all of which made treatment easier and preservation of renal function more likely.During the 1980s, it was found that endovascular surgery had surpassed the results of open surgery and nowadays the objectives are to control hypertension and preserve the kidney, reducing renal overload and achieving relative improvement of renal function. In some case, improvement is sufficient to avert a future need for enrolment on a hemodialysis program, which shortens survival. After the first results of treatment using angioplasty, it was found that placement of a stent reduced restenosis for long periods.A ten-year follow-up study of patients with hypertensive renal disease caused by stenosis of the renal artery who were treated at a University Hospital following a predefined protocol observed that kidneys and renal function were preserved in 76% of cases. Although there are recent multicenter studies (CORAL, STAR, etc.) that contest these results that have been achieved and demonstrated, we believe that unsuccessful treatment outcomes are the result of erroneous etiologic diagnosis and disease staging. In view of this, it is necessary to study and analyze progression of kidney disease in order to intervene at the most appropriate point. When stenosis is significant, and there is at least a minimum of 30% of the renal parenchyma functioning, angioplasty/stenting has a positive effect in reducing arterial blood pressure and removing renal overload, improving renal function. Therefore, the better preserved the parenchyma, the better the postoperative outcomes.There are recent reports of treatment for renovascular hypertension using intravascular devices to produce denervation of the renal artery. The procedure is new and investigation of disease pathophysiology is of fundamental importance to application of this new technology. The results of some current randomized studies indicate that therapeutic effects are promising. However, more accurate studies are needed to define its indications, primarily in terms of their definitions of inclusion and exclusion criteria, but also analyzing larger samples, in order to specify for which types of hypertension (by etiology) we should be indicating this treatment. Considering that denervation of the renal artery leads to vasomotor paralysis due to removal of the effect of