肾去神经:一个不确定的未来。

IF 2.1 4区 医学 Q3 PERIPHERAL VASCULAR DISEASE
Peter Sever
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It is now more than 5 years since I wrote my first commentary on renal denervation (RDN).1 At the time, I was prompted by the contrast between the enormous enthusiasm for the technique, inspired by dramatic claims of >30 mmHg reductions in systolic blood pressure (SBP) observed in patients with resistant hypertension who had undergone RDN,2–4 and the minimal falls in blood pressure (BP) when RDN was studied in well-controlled trials, particularly those involving sham-control procedures.5–7 National bodies and international guidelines followed,8,9 which recommended a moratorium on the widespread clinical uptake of RDN until such time as the true benefits or otherwise of RDN had been evaluated in well-controlled studies, in a variety of patient subgroups with hypertension and possibly other cardiovascular conditions, including heart failure. Two important studies now deserve further commentary. SPYRAL HTN-ON MED10 was a proof-of-concept randomised trial of BP lowering with the Symplicity Spyral multielectrode renal denervation catheter and the Symplicity G3 renal denervation RF generator (Medtronic), used to provide circumferential radiofrequency ablation treatments in a spiral pattern in the four quadrants of the renal artery and branch vessels. The control group received a sham procedure. A total of 467 patients were recruited into this trial, and subsequently 80 with uncontrolled BP (office SBP 150–180 mmHg, a 24-hour ambulatory SBP between 140 and 170 mmHg) and receiving one to three antihypertensive drugs were randomised to RDN or sham procedure. The primary efficacy end point was change from baseline ambulatory BP at 6 months. After 6 months, baseline-adjusted treatment differences between the RDN and sham control groups were −7.0/−4.3 mmHg for 24-hour ambulatory BP and −6.6/−4.2 mmHg for office BP in favour of RDN. Both results were statistically significant. No procedural or other adverse events were reported. In SPYRAL HTN-OFF MED,11 331 patients with an office SBP between 150 and 180 mmHg were randomly assigned RDN using the same procedure as for the ontreatment trial or sham control. The primary efficacy end point was baseline-adjusted change in 24-hour SBP at 3 months. The treatment differences between the two groups at 3 months in favour of RDN were 3.9 mmHg for 24-hour SBP and 6.5 mmHg for office SBP. Both differences were statistically significant. Again, no procedural or other adverse events were reported. Thus, after more than a decade, RDN comes of age. The sponsors of these trials are to be commended for mounting two well-designed and appropriately controlled investigations. Along with Symplicity HTN 3,7 we now have a clear idea of the efficacy of this procedure in several subgroups of patients with hypertension. As I predicted in my earlier commentary, following the hype of the early unrealistic claims of substantial reductions in BP with RDN, we are seeing in most hypertensive patients that the procedure lowers 24-hour ambulatory SBP on average by about 5–7 mmHg and office SBP in some studies a little more. There is, like any intervention to lower BP, a considerable range in individual patient response, which is best explained by the marked heterogeneity of hypertension accounted for by the multiplicity of pathophysiological mechanisms involved in BP elevation in individual patients. In accordance with drug responses, with few exceptions such as age, race and renin status, there is no way that an individual response can be predicted. In earlier trials of RDN, catheter type, positioning and number of ablations might have accounted for some variation in response. Operator experience is also likely to have been an issue. Nevertheless, these recent studies now provide a clear picture of the overall effectiveness of RDN, and we now have to decide what role, if any, the procedure has in future practice. To put the BP lowering following RDN into perspective, the magnitude of the fall in SBP is equivalent to that following individual lifestyle measures and might be expected with a few kilograms of weight loss, regular physical exercise, salt restriction or reduction in alcohol intake.12 Combinations of lifestyle measures would be expected to produce additive effects on BP lowering. Placebo-controlled trials of drug monotherapy in hypertension result, on average, in about 10 mmHg reductions in SBP.13 Thus, RDN is about half as Renal denervation: An uncertain future","PeriodicalId":17330,"journal":{"name":"Journal of the Renin-Angiotensin-Aldosterone System","volume":"21 2","pages":"1470320320936094"},"PeriodicalIF":2.1000,"publicationDate":"2020-04-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://sci-hub-pdf.com/10.1177/1470320320936094","citationCount":"0","resultStr":"{\"title\":\"Renal denervation: An uncertain future.\",\"authors\":\"Peter Sever\",\"doi\":\"10.1177/1470320320936094\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Creative Commons Non Commercial CC BY-NC: This article is distributed under the terms of the Creative Commons Attribution-NonCommercial 4.0 License (https://creativecommons.org/licenses/by-nc/4.0/) which permits non-commercial use, reproduction and distribution of the work without further permission provided the original work is attributed as specified on the SAGE and Open Access pages (https://us.sagepub.com/en-us/nam/open-access-at-sage). 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SPYRAL HTN-ON MED10 was a proof-of-concept randomised trial of BP lowering with the Symplicity Spyral multielectrode renal denervation catheter and the Symplicity G3 renal denervation RF generator (Medtronic), used to provide circumferential radiofrequency ablation treatments in a spiral pattern in the four quadrants of the renal artery and branch vessels. The control group received a sham procedure. A total of 467 patients were recruited into this trial, and subsequently 80 with uncontrolled BP (office SBP 150–180 mmHg, a 24-hour ambulatory SBP between 140 and 170 mmHg) and receiving one to three antihypertensive drugs were randomised to RDN or sham procedure. The primary efficacy end point was change from baseline ambulatory BP at 6 months. After 6 months, baseline-adjusted treatment differences between the RDN and sham control groups were −7.0/−4.3 mmHg for 24-hour ambulatory BP and −6.6/−4.2 mmHg for office BP in favour of RDN. Both results were statistically significant. No procedural or other adverse events were reported. In SPYRAL HTN-OFF MED,11 331 patients with an office SBP between 150 and 180 mmHg were randomly assigned RDN using the same procedure as for the ontreatment trial or sham control. The primary efficacy end point was baseline-adjusted change in 24-hour SBP at 3 months. The treatment differences between the two groups at 3 months in favour of RDN were 3.9 mmHg for 24-hour SBP and 6.5 mmHg for office SBP. Both differences were statistically significant. Again, no procedural or other adverse events were reported. Thus, after more than a decade, RDN comes of age. The sponsors of these trials are to be commended for mounting two well-designed and appropriately controlled investigations. Along with Symplicity HTN 3,7 we now have a clear idea of the efficacy of this procedure in several subgroups of patients with hypertension. As I predicted in my earlier commentary, following the hype of the early unrealistic claims of substantial reductions in BP with RDN, we are seeing in most hypertensive patients that the procedure lowers 24-hour ambulatory SBP on average by about 5–7 mmHg and office SBP in some studies a little more. There is, like any intervention to lower BP, a considerable range in individual patient response, which is best explained by the marked heterogeneity of hypertension accounted for by the multiplicity of pathophysiological mechanisms involved in BP elevation in individual patients. In accordance with drug responses, with few exceptions such as age, race and renin status, there is no way that an individual response can be predicted. In earlier trials of RDN, catheter type, positioning and number of ablations might have accounted for some variation in response. Operator experience is also likely to have been an issue. 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本文章由计算机程序翻译,如有差异,请以英文原文为准。
Renal denervation: An uncertain future.
Creative Commons Non Commercial CC BY-NC: This article is distributed under the terms of the Creative Commons Attribution-NonCommercial 4.0 License (https://creativecommons.org/licenses/by-nc/4.0/) which permits non-commercial use, reproduction and distribution of the work without further permission provided the original work is attributed as specified on the SAGE and Open Access pages (https://us.sagepub.com/en-us/nam/open-access-at-sage). It is now more than 5 years since I wrote my first commentary on renal denervation (RDN).1 At the time, I was prompted by the contrast between the enormous enthusiasm for the technique, inspired by dramatic claims of >30 mmHg reductions in systolic blood pressure (SBP) observed in patients with resistant hypertension who had undergone RDN,2–4 and the minimal falls in blood pressure (BP) when RDN was studied in well-controlled trials, particularly those involving sham-control procedures.5–7 National bodies and international guidelines followed,8,9 which recommended a moratorium on the widespread clinical uptake of RDN until such time as the true benefits or otherwise of RDN had been evaluated in well-controlled studies, in a variety of patient subgroups with hypertension and possibly other cardiovascular conditions, including heart failure. Two important studies now deserve further commentary. SPYRAL HTN-ON MED10 was a proof-of-concept randomised trial of BP lowering with the Symplicity Spyral multielectrode renal denervation catheter and the Symplicity G3 renal denervation RF generator (Medtronic), used to provide circumferential radiofrequency ablation treatments in a spiral pattern in the four quadrants of the renal artery and branch vessels. The control group received a sham procedure. A total of 467 patients were recruited into this trial, and subsequently 80 with uncontrolled BP (office SBP 150–180 mmHg, a 24-hour ambulatory SBP between 140 and 170 mmHg) and receiving one to three antihypertensive drugs were randomised to RDN or sham procedure. The primary efficacy end point was change from baseline ambulatory BP at 6 months. After 6 months, baseline-adjusted treatment differences between the RDN and sham control groups were −7.0/−4.3 mmHg for 24-hour ambulatory BP and −6.6/−4.2 mmHg for office BP in favour of RDN. Both results were statistically significant. No procedural or other adverse events were reported. In SPYRAL HTN-OFF MED,11 331 patients with an office SBP between 150 and 180 mmHg were randomly assigned RDN using the same procedure as for the ontreatment trial or sham control. The primary efficacy end point was baseline-adjusted change in 24-hour SBP at 3 months. The treatment differences between the two groups at 3 months in favour of RDN were 3.9 mmHg for 24-hour SBP and 6.5 mmHg for office SBP. Both differences were statistically significant. Again, no procedural or other adverse events were reported. Thus, after more than a decade, RDN comes of age. The sponsors of these trials are to be commended for mounting two well-designed and appropriately controlled investigations. Along with Symplicity HTN 3,7 we now have a clear idea of the efficacy of this procedure in several subgroups of patients with hypertension. As I predicted in my earlier commentary, following the hype of the early unrealistic claims of substantial reductions in BP with RDN, we are seeing in most hypertensive patients that the procedure lowers 24-hour ambulatory SBP on average by about 5–7 mmHg and office SBP in some studies a little more. There is, like any intervention to lower BP, a considerable range in individual patient response, which is best explained by the marked heterogeneity of hypertension accounted for by the multiplicity of pathophysiological mechanisms involved in BP elevation in individual patients. In accordance with drug responses, with few exceptions such as age, race and renin status, there is no way that an individual response can be predicted. In earlier trials of RDN, catheter type, positioning and number of ablations might have accounted for some variation in response. Operator experience is also likely to have been an issue. Nevertheless, these recent studies now provide a clear picture of the overall effectiveness of RDN, and we now have to decide what role, if any, the procedure has in future practice. To put the BP lowering following RDN into perspective, the magnitude of the fall in SBP is equivalent to that following individual lifestyle measures and might be expected with a few kilograms of weight loss, regular physical exercise, salt restriction or reduction in alcohol intake.12 Combinations of lifestyle measures would be expected to produce additive effects on BP lowering. Placebo-controlled trials of drug monotherapy in hypertension result, on average, in about 10 mmHg reductions in SBP.13 Thus, RDN is about half as Renal denervation: An uncertain future
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来源期刊
CiteScore
6.20
自引率
0.00%
发文量
16
审稿时长
6-12 weeks
期刊介绍: JRAAS is a peer-reviewed, open access journal, serving as a resource for biomedical professionals, primarily with an active interest in the renin-angiotensin-aldosterone system in humans and other mammals. It publishes original research and reviews on the normal and abnormal function of this system and its pharmacology and therapeutics, mostly in a cardiovascular context but including research in all areas where this system is present, including the brain, lungs and gastro-intestinal tract.
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