[5].We are familiar with carrying out cardiovascular risk assessment, screening for diabetes and giving lifestyle advice to men with erectile dysfunction. Given the evidence suggesting that erectile dysfunction and BPH are closely associated, with many men suffering from both conditions [6], it would suggest that perhaps we should be doing the same for men presenting with symptomatic BPH. An awareness and understanding of the connection between BPH and metabolic syndrome should encourage all physicians to assess patients with LUTS/BPH for underlying cardiovascular risk. It suggests that as a minimum, a number of baseline investigations should be carried out: blood pressure measurement, a fasting lipid profile (and formal cardiovascular risk profile using established algorithms, such as QRISK®), assessment for diabetes using fasting glucose or glycated haemoglobin (HbA1c), measurement of weight and BMI, or ideally the measurement of abdominal circumference (as central obesity is a far more sensitive marker of risk than BMI). Identification of features of the metabolic syndrome allows for tailored lifestyle intervention, in terms of increasing exercise, dietary changes, weight loss, smoking cessation advice and alcohol moderation. Medical management of hypertension, diabetes, dyslipidaemia and cardiovascular disease may be required according to national guidelines. Huge numbers of men die prematurely from cardiovascular disease and complications of type 2 diabetes, and men are renowned for poor engagement with primary preventive strategies to decrease this risk. Men presenting to their GP or Urologist with symptoms from BPH are therefore presenting us with an opportunity to intervene and potentially save lives in the process – the prostate can be considered a gateway to wider aspects of men’s health, far beyond the quality-of-life impact of LUTS. Conflicts of Interest None disclosed. Jonathan Rees Backwell & Nailsea Medical Group, North Somerset, UK References 1 Hammarsten J, Peeker R. Urological aspects of the metabolic syndrome. Nat Rev Urol 2011; 8: 483–94 2 Gacci M, Corona G, Vignozzi L et al. Metabolic syndrome and benign prostatic enlargement: a systematic review and meta-analysis. BJU Int 2015; 115: 24–31 3 Parsons JK, Messer K, White M et al. Obesity increases and physical activity decreases lower urinary tract symptom risk in older men: the Osteoporotic Fractures in Men Study. Eur Urol 2011; 60: 1173–80 4 St Sauver J, Jacobsen SJ, Jacobson DJ et al. Statin use and decreased risk of benign prostatic enlargement and lower urinary tract symptoms. BJU Int 2011; 107: 443–50 5 Rees J, Kirby M. Metabolic syndrome and common urological conditions: looking beyond the obvious. Trends in Urology and Men’s Health 2014; 5: 9–14 6 Rosen R, Altwein J, Boyle P et al. Lower urinary tract symptoms and male sexual dysfunction: the multinational survey of the aging male (MSAM-7). Eur Urol 2003; 44: 637–49 Cognitive training and assessment in robotic surgery – is it effective? A formal and standardised process of credentialing and certification is required that should not merely be based on the number of completed cases but should be done via demonstration of proficiency and safety in robotic procedural skills. Therefore, validated assessment tools for technical and non-technical skills are required. In addition to effective technical skills, non-technical skills are vital for safe operative practice. These skill-sets can be divided into three categories; social (communication, leadership and teamwork), cognitive (decision making, planning and situation awareness) and personal resource factors (ability to cope with stress and fatigue) [1] (Fig. 1). Robotic surgeons are not exempt in requiring these skills, as situation awareness for example may become of even more significance with the surgeon placed at a distance from the patient. Most of these skills can, just like technical skills, be trained and assessed. Various assessment tools have been developed, e.g. the Non-Technical Skills for Surgeons (NOTSS) rating system [1] that provides useful insight into individual non-technical skill performance. The Observational Teamwork Assessment for Surgery (OTAS) rating scale has additionally been developed and is suited better for operative team assessment [2]. Decision-making (cognitive skill) is considered as one of the advanced sets of skills and it consolidates exponentially with increasing clinical experience [3]. A structured method for this sub-set of skills training and assessment does not exist. The present paper by Guru et al. [4] discusses an interesting objective method to evaluate robot-assisted surgical Editor’s Choice © 2014 The Authors BJU International © 2014 BJU International 5