Primary aldosteronism (PA) results from renin-independent aldosterone hypersecretion and causes hypertension, often with associated hypokalaemia and metabolic alkalosis. These are due to enhanced mineralocorticoid receptor-mediated renal sodium retention and potassium excretion. PA is the commonest cause of secondary hypertension and is responsible for 5-10% of all hypertension, rising to in excess of 20% of resistant cases. Very low diagnosis rates result from a generation of doctors schooled on order-of-magnitude lower estimates, but recent findings suggest that even the 5-10% prevalence may be a considerable under-estimate. In addition to its frequency, PA is a high-risk subset of hypertension and is associated with a two-fold increased risk of cardiovascular events and atrial fibrillation compared to comparable patients with essential hypertension, as well as a reduced quality of life.
Aldosterone excess in PA can originate from one or both adrenal glands. Patients with PA are considered to divide \~50:50 into those with a curable unilateral aldosterone-producing adenoma (APA), and those with bilateral idiopathic adrenal hyperplasia (IAH). For patients with unilateral PA, surgical removal of the affected gland (adrenalectomy) is highly likely to cure the biochemical abnormality, reverse the excess cardiovascular and stroke risks, and is strongly supported by international guidelines.
Whilst directed medical therapies against aldosterone excess exist (e.g. mineralocorticoid receptor antagonists, MRAs), they are inferior to surgery in reducing the excess cardiovascular and stroke risk and improving quality of life. Furthermore, sufficient MRA dosing to de-suppress renin and reverse this excess risk is only achieved in one-third of medically-treated patients. The case for definitive intervention in unilateral PA is therefore compelling, and recommended whenever possible. At present, this is achieved by laparoscopic adrenalectomy (LA), which involves a general anaesthetic, inpatient admission and removal of the entire adrenal gland to treat a condition caused by a small (usually \<2cm diameter, often \<1cm) benign APA.
An alternative intervention to LA, and the focus of this trial, is selective thermal ablation (by radiofrequency or microwave) of the identified APA(s). Thermal ablation is a technique in which targeted and directed tissue death can be achieved with precision under image guidance, sparing the normal adrenal gland. It is widely established in the treatment of benign and malignant hepatic and renal neoplasms as an alternative to conventional surgery. For these indications, thermal ablation techniques have transformed practice, not only providing high-risk surgical patients with a previously unobtainable curative treatment option but also becoming an accepted mainstay of treatment for small lesions (of the size encountered in PA) in all patients regardless of surgical risk.
We propose a multi-centre prospective randomised trial comparing adrenalectomy (LA) and thermal ablation for the treatment of unilateral APAs. This study is powered to demonstrate non-inferiority of biochemical and clinical response to thermal ablation, compared to the current standard of care, adrenalectomy. The rationale for a non-inferiority trial is that subsequent preference for thermal ablation over surgery will be driven by thermal ablation's greater patient-acceptability and availability, rather than an implausible superior efficacy of sub-total than total adrenalectomy in curing PA. Once safety and efficacy are proven as comparable to those of adrenalectomy, thermal ablation has potential for superiority over medical treatment in several patient groups ineligible for WAVE, e.g., some with bilateral disease, or in whom lateralisation could not be performed.
