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Радиочастотная денервация почечных артерий: в ожидании ответов
Радиочастотная денервация почечных артерий: в ожидании ответов
Григин В.А., Данилов Н.М., Матчин Ю.Г. и др. Радиочастотная денервация почечных артерий: в ожидании ответов. Системные гипертензии. 2015; 1: 8–9.
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Список литературы
1. Keith NM, Wagener HP, Kemohan JW. Arch Int Med 1928; 41: 141.
2. Bradford C. The effects of progressive sympathectomy on blood pressure. Am J Physiol 1931; 592–6.
3. Peet MM, Woods WW, Braden S. The surgical treatment of hypertension. JAMA 1940; 115: 1875.
4. Smithwick RH. Technique for splanchnic resection for hypertension; preliminary report, Surgery 1940; 7: 10 (Jani.).
5. Krum H, Schlaich M, Whitbourn R et al. Catheter-based renal sympathetic denervation for resistant hypertension: a multicentre safety and proof-of-principle cohort study. Lancet 2009; 373 (9671): 1275–81.
6. Symplicity HTN-1 Investigators. Hypertension 2011; 57: 911–7.
7. Esler MD, Krum H, Sobotka PA et al. Symplicity HTN-2 Investigators. Lancet 2010; 376: 1903–09.
8. Bhatt D, Kandzari D, O׳Neill W et al. A controlled trial of renal denervation for resistant hypertension. New Engl J Med 2014; 370: 1393–401.
9. Persu A, Jin Y, Fadlelmula FE et al. Renal denervation in treatment-resistant hypertension: a reappraisal. Curr Opin Pharmacol 2015; 21C: 48–52.
10. Shaw JA, Warren JL. Resistant hypertension and renal denervation where to now? Cardiovasc Ther 2015; 33 (1): 9–14.
11. Oldham JB. Denervation of the kidney. Hunterian Lecture of the Royal College of Surgeons, England. 9th March, 1950. Ann R Coll Surg Engl 1950; 7: 222–45.
12. Sakakura K, Ladich E, Cheng Q et al. Anatomical distribution of human renal sympathetic nerves: pathological study. J Am Coll Cardiol 2014; 63.
13. Kandzari D. Lecture on behalf of the Symplicity HTN-3 Investigators. Symplicity HTN-3 Trial: analysis of potentially confounding factors. Paris; EuroPCR, 2014.
14. Sievert H, Schofer J, Ormiston J et al. Renal denervation with a percutaneous bipolar radiofrequency balloon catheter in patients with resistant hypertension: 6-month results from the REDUCE-HTN clinical study. EuroIntervention 2014; 10-online publish-ahead-of-print. December 2014.
15. Booth LC, Nishi EE, Yao ST et al. Reinnervation of renal afferent and efferent nerves at 5.5 and 11 months after catheter-based radiofrequency renal denervation in sheep. Hypertension 2015; 65 (2): 393–400.
16. Mulder J, Hökfelt T, Knuepfer MM, Kopp UC. Renal sensory and sympathetic nerves reinnervate the kidney in a similar time-dependent fashion after renal denervation in rats. Am J Physiol Regul Integr Comp Physiol 2013; 304 (8): R675–82.
17. Rousselle S, Hart R, Hemming K et al. Evaluation of the Acute and Long Term Renal Artery Re-Innervation Attempt Response Following Radiofrequency Catheter-Based Renal Nerve Ablation in a Swine Model: An Immunohistochemical Characterization. Vashington; TCT, 2014.
18. Girerd X, Rosenbaum D, Montalescot G et al. Efficacy of ultrasound renal denervation procedure in a patient with elevated blood pressure levels one year after initial radiofrequency renal denervation. Milan; ESH, 2013.
19. Casteleijn NF, de Jager RL, Neeleman MP et al. Chronic kidney pain in autosomal dominant polycystic kidney disease: a case report of successful treatment by catheter-based renal denervation.Am J Kidney Dis 2014; 63 (6): 1019–21.
2. Bradford C. The effects of progressive sympathectomy on blood pressure. Am J Physiol 1931; 592–6.
3. Peet MM, Woods WW, Braden S. The surgical treatment of hypertension. JAMA 1940; 115: 1875.
4. Smithwick RH. Technique for splanchnic resection for hypertension; preliminary report, Surgery 1940; 7: 10 (Jani.).
5. Krum H, Schlaich M, Whitbourn R et al. Catheter-based renal sympathetic denervation for resistant hypertension: a multicentre safety and proof-of-principle cohort study. Lancet 2009; 373 (9671): 1275–81.
6. Symplicity HTN-1 Investigators. Hypertension 2011; 57: 911–7.
7. Esler MD, Krum H, Sobotka PA et al. Symplicity HTN-2 Investigators. Lancet 2010; 376: 1903–09.
8. Bhatt D, Kandzari D, O׳Neill W et al. A controlled trial of renal denervation for resistant hypertension. New Engl J Med 2014; 370: 1393–401.
9. Persu A, Jin Y, Fadlelmula FE et al. Renal denervation in treatment-resistant hypertension: a reappraisal. Curr Opin Pharmacol 2015; 21C: 48–52.
10. Shaw JA, Warren JL. Resistant hypertension and renal denervation where to now? Cardiovasc Ther 2015; 33 (1): 9–14.
11. Oldham JB. Denervation of the kidney. Hunterian Lecture of the Royal College of Surgeons, England. 9th March, 1950. Ann R Coll Surg Engl 1950; 7: 222–45.
12. Sakakura K, Ladich E, Cheng Q et al. Anatomical distribution of human renal sympathetic nerves: pathological study. J Am Coll Cardiol 2014; 63.
13. Kandzari D. Lecture on behalf of the Symplicity HTN-3 Investigators. Symplicity HTN-3 Trial: analysis of potentially confounding factors. Paris; EuroPCR, 2014.
14. Sievert H, Schofer J, Ormiston J et al. Renal denervation with a percutaneous bipolar radiofrequency balloon catheter in patients with resistant hypertension: 6-month results from the REDUCE-HTN clinical study. EuroIntervention 2014; 10-online publish-ahead-of-print. December 2014.
15. Booth LC, Nishi EE, Yao ST et al. Reinnervation of renal afferent and efferent nerves at 5.5 and 11 months after catheter-based radiofrequency renal denervation in sheep. Hypertension 2015; 65 (2): 393–400.
16. Mulder J, Hökfelt T, Knuepfer MM, Kopp UC. Renal sensory and sympathetic nerves reinnervate the kidney in a similar time-dependent fashion after renal denervation in rats. Am J Physiol Regul Integr Comp Physiol 2013; 304 (8): R675–82.
17. Rousselle S, Hart R, Hemming K et al. Evaluation of the Acute and Long Term Renal Artery Re-Innervation Attempt Response Following Radiofrequency Catheter-Based Renal Nerve Ablation in a Swine Model: An Immunohistochemical Characterization. Vashington; TCT, 2014.
18. Girerd X, Rosenbaum D, Montalescot G et al. Efficacy of ultrasound renal denervation procedure in a patient with elevated blood pressure levels one year after initial radiofrequency renal denervation. Milan; ESH, 2013.
19. Casteleijn NF, de Jager RL, Neeleman MP et al. Chronic kidney pain in autosomal dominant polycystic kidney disease: a case report of successful treatment by catheter-based renal denervation.Am J Kidney Dis 2014; 63 (6): 1019–21.
2. Bradford C. The effects of progressive sympathectomy on blood pressure. Am J Physiol 1931; 592–6.
3. Peet MM, Woods WW, Braden S. The surgical treatment of hypertension. JAMA 1940; 115: 1875.
4. Smithwick RH. Technique for splanchnic resection for hypertension; preliminary report, Surgery 1940; 7: 10 (Jani.).
5. Krum H, Schlaich M, Whitbourn R et al. Catheter-based renal sympathetic denervation for resistant hypertension: a multicentre safety and proof-of-principle cohort study. Lancet 2009; 373 (9671): 1275–81.
6. Symplicity HTN-1 Investigators. Hypertension 2011; 57: 911–7.
7. Esler MD, Krum H, Sobotka PA et al. Symplicity HTN-2 Investigators. Lancet 2010; 376: 1903–09.
8. Bhatt D, Kandzari D, O׳Neill W et al. A controlled trial of renal denervation for resistant hypertension. New Engl J Med 2014; 370: 1393–401.
9. Persu A, Jin Y, Fadlelmula FE et al. Renal denervation in treatment-resistant hypertension: a reappraisal. Curr Opin Pharmacol 2015; 21C: 48–52.
10. Shaw JA, Warren JL. Resistant hypertension and renal denervation where to now? Cardiovasc Ther 2015; 33 (1): 9–14.
11. Oldham JB. Denervation of the kidney. Hunterian Lecture of the Royal College of Surgeons, England. 9th March, 1950. Ann R Coll Surg Engl 1950; 7: 222–45.
12. Sakakura K, Ladich E, Cheng Q et al. Anatomical distribution of human renal sympathetic nerves: pathological study. J Am Coll Cardiol 2014; 63.
13. Kandzari D. Lecture on behalf of the Symplicity HTN-3 Investigators. Symplicity HTN-3 Trial: analysis of potentially confounding factors. Paris; EuroPCR, 2014.
14. Sievert H, Schofer J, Ormiston J et al. Renal denervation with a percutaneous bipolar radiofrequency balloon catheter in patients with resistant hypertension: 6-month results from the REDUCE-HTN clinical study. EuroIntervention 2014; 10-online publish-ahead-of-print. December 2014.
15. Booth LC, Nishi EE, Yao ST et al. Reinnervation of renal afferent and efferent nerves at 5.5 and 11 months after catheter-based radiofrequency renal denervation in sheep. Hypertension 2015; 65 (2): 393–400.
16. Mulder J, Hökfelt T, Knuepfer MM, Kopp UC. Renal sensory and sympathetic nerves reinnervate the kidney in a similar time-dependent fashion after renal denervation in rats. Am J Physiol Regul Integr Comp Physiol 2013; 304 (8): R675–82.
17. Rousselle S, Hart R, Hemming K et al. Evaluation of the Acute and Long Term Renal Artery Re-Innervation Attempt Response Following Radiofrequency Catheter-Based Renal Nerve Ablation in a Swine Model: An Immunohistochemical Characterization. Vashington; TCT, 2014.
18. Girerd X, Rosenbaum D, Montalescot G et al. Efficacy of ultrasound renal denervation procedure in a patient with elevated blood pressure levels one year after initial radiofrequency renal denervation. Milan; ESH, 2013.
19. Casteleijn NF, de Jager RL, Neeleman MP et al. Chronic kidney pain in autosomal dominant polycystic kidney disease: a case report of successful treatment by catheter-based renal denervation.Am J Kidney Dis 2014; 63 (6): 1019–21.
________________________________________________
2. Bradford C. The effects of progressive sympathectomy on blood pressure. Am J Physiol 1931; 592–6.
3. Peet MM, Woods WW, Braden S. The surgical treatment of hypertension. JAMA 1940; 115: 1875.
4. Smithwick RH. Technique for splanchnic resection for hypertension; preliminary report, Surgery 1940; 7: 10 (Jani.).
5. Krum H, Schlaich M, Whitbourn R et al. Catheter-based renal sympathetic denervation for resistant hypertension: a multicentre safety and proof-of-principle cohort study. Lancet 2009; 373 (9671): 1275–81.
6. Symplicity HTN-1 Investigators. Hypertension 2011; 57: 911–7.
7. Esler MD, Krum H, Sobotka PA et al. Symplicity HTN-2 Investigators. Lancet 2010; 376: 1903–09.
8. Bhatt D, Kandzari D, O׳Neill W et al. A controlled trial of renal denervation for resistant hypertension. New Engl J Med 2014; 370: 1393–401.
9. Persu A, Jin Y, Fadlelmula FE et al. Renal denervation in treatment-resistant hypertension: a reappraisal. Curr Opin Pharmacol 2015; 21C: 48–52.
10. Shaw JA, Warren JL. Resistant hypertension and renal denervation where to now? Cardiovasc Ther 2015; 33 (1): 9–14.
11. Oldham JB. Denervation of the kidney. Hunterian Lecture of the Royal College of Surgeons, England. 9th March, 1950. Ann R Coll Surg Engl 1950; 7: 222–45.
12. Sakakura K, Ladich E, Cheng Q et al. Anatomical distribution of human renal sympathetic nerves: pathological study. J Am Coll Cardiol 2014; 63.
13. Kandzari D. Lecture on behalf of the Symplicity HTN-3 Investigators. Symplicity HTN-3 Trial: analysis of potentially confounding factors. Paris; EuroPCR, 2014.
14. Sievert H, Schofer J, Ormiston J et al. Renal denervation with a percutaneous bipolar radiofrequency balloon catheter in patients with resistant hypertension: 6-month results from the REDUCE-HTN clinical study. EuroIntervention 2014; 10-online publish-ahead-of-print. December 2014.
15. Booth LC, Nishi EE, Yao ST et al. Reinnervation of renal afferent and efferent nerves at 5.5 and 11 months after catheter-based radiofrequency renal denervation in sheep. Hypertension 2015; 65 (2): 393–400.
16. Mulder J, Hökfelt T, Knuepfer MM, Kopp UC. Renal sensory and sympathetic nerves reinnervate the kidney in a similar time-dependent fashion after renal denervation in rats. Am J Physiol Regul Integr Comp Physiol 2013; 304 (8): R675–82.
17. Rousselle S, Hart R, Hemming K et al. Evaluation of the Acute and Long Term Renal Artery Re-Innervation Attempt Response Following Radiofrequency Catheter-Based Renal Nerve Ablation in a Swine Model: An Immunohistochemical Characterization. Vashington; TCT, 2014.
18. Girerd X, Rosenbaum D, Montalescot G et al. Efficacy of ultrasound renal denervation procedure in a patient with elevated blood pressure levels one year after initial radiofrequency renal denervation. Milan; ESH, 2013.
19. Casteleijn NF, de Jager RL, Neeleman MP et al. Chronic kidney pain in autosomal dominant polycystic kidney disease: a case report of successful treatment by catheter-based renal denervation.Am J Kidney Dis 2014; 63 (6): 1019–21.
Авторы
В.А.Григин, Н.М.Данилов*, Ю.Г.Матчин, Г.В.Щелкова, И.Е.Чазова
ФГБУ Российский кардиологический научно-производственный комплекс Минздрава России. 121552, Россия, Москва, ул. 3-я Черепковская, д. 15а
*ndanilov1@gmail.com
Russian Cardiological Scientific-Industrial Complex of the Ministry of Health of the Russian Federation. 121552, Russian Federation, Moscow, ul. 3-ia Cherepkovskaia, d. 15a
*ndanilov1@gmail.com
ФГБУ Российский кардиологический научно-производственный комплекс Минздрава России. 121552, Россия, Москва, ул. 3-я Черепковская, д. 15а
*ndanilov1@gmail.com
________________________________________________
Russian Cardiological Scientific-Industrial Complex of the Ministry of Health of the Russian Federation. 121552, Russian Federation, Moscow, ul. 3-ia Cherepkovskaia, d. 15a
*ndanilov1@gmail.com
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