Pulmonary artery banding for congenitalheart disease with pulmonary hypertensionand pulmonary vascular obstructive disease

Company: ¹Bakoulev National Medical Research Center for Cardiovascular Surgery of Ministry of Health of the Russian Federation, Rublevskoe shosse, 135, Moscow, 121552, Russian Federation;
²Russian State Medical Postgraduate Academy, of Ministry of Health of the Russian Federation, Barrikadnaya ulitsa, 2/1, Moscow, 123995, Russian Federation

Cite as: Shmalts A.A. Pulmonary artery banding for congenital heart disease with pulmonary hypertension and pulmonary vascular obstructive disease. Children’s Heart and Vascular Diseases. 2019; 16 (3): 149–61 (in Russ.). DOI: 10.24022/1810-0686- 2019-16-3-149-161

Received / Accepted: 18.06.201/05.07.2019

Keywords: congenital heart disease pulmonary hypertension pulmonary vascular obstructive disease pulmonary artery banding

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Abstract

If there are several indications that are not directly related to pulmonary hypertension (PH) to the pulmonary artery banding (PAB), this procedure takes about 2% of all operations performed in the clinic of congenital heart disease (CHD) in our time. The “historical” indication for a PAB as the first stage in the treatment of CHD with massive left-right shunt and PH has been relegated to the background due to the good results of early radical correction. However, simultaneous radical correction of CHD still poses difficulties in premature babies with critically low body mass, in newborns with contraindications to cardiopulmonary bypass, in newborns with some complex CHD, in which the results of radical correction are better with larger sizes of the heart, as well as in severe pulmonary vascular disease in case of late admission to surgical treatment. In addition PAB remains the main method of the first stage of hemodynamic correction of a functional single ventricle with PH. The review describes the site of PAB in modern surgery of the CHD with baseline PH and pulmonary vascular obstructive disease.

References

Angeli E., Pace Napoleone C., Turci S., Oppido G., Gargiulo G. Pulmonary artery banding. Multimed. Man. Cardiothorac. Surg. 2012; 2012: mms010. DOI: 10.1093/mmcts/mms010
Sharma R. Pulmonary artery banding: Rationale and possible indications in the current era. Ann. Pediatr. Cardiol. 2012; 5 (1): 40–3.
Valente A.S., Mesquita F., Mejia J.A., Maia I.C., Maior M.S., Branco K.C. et al. Pulmonary artery banding: a simple procedure? A critical analysis at a tertiary center. Rev. Bras. Cir. Cardiovasc. 2009; 24 (3): 327–33.
Kouchoukos N., Blackstone E., Hanley F., Kirklin J. Kirklin/Barratt-Boyes cardiac surgery. 4th ed. Philadelphia: Elsevier Saunders; 2013.
Lin M.T., Chen Y.S., Huang S.C., Chiu H.H., Chiu S.N., Chen C.A. et al. Alternative approach for selected severe pulmonary hypertension of congenital heart defect without initial correction-palliative surgical treatment. Int. J. Cardiol. 2011; 151 (3): 313–7. DOI: 10.1016/j.ijcard. 2010.05.067
Brooks A., Geldenhuys A., Zuhlke L., Human P., Zilla P. Pulmonary artery banding: still a valuable option in developing countries? Eur. J. Cardiothorac. Surg. 2012; 41 (2): 272–6. DOI: 10.1016/j.ejcts.2011.05.053
Dehaki M.G., Tabaee A.S., Ahmadabadi C.A., Ghavidel A.A., Omra G. Pulmonary artery banding in the current era: Is it still useful? Ann. Pediatr. Cardiol. 2012; 5 (1): 36–9. DOI: 10.4103/0974-2069.93708
Alsoufi B., Manlhiot C., Ehrlich A., Oster M., Kogon B., Mahle W.T. et al. Results of palliation with an initial pulmonary artery band in patients with single ventricle associated with unrestricted pulmonary blood flow. J. Thorac. Cardiovasc. Surg. 2015; 149 (1): 213–20. DOI: 10.1016/j.jtcvs.2014.08.007
Kajihara N., Asou T., Takeda Y., Kosaka Y., Onakatomi Y., Nagafuchi H. et al. Pulmonary artery banding for functionally single ventricles: impact of tighter banding in staged Fontan era. Ann. Thorac. Surg. 2010; 89 (1): 174–9. DOI: 10.1016/j.athoracsur.2009.09.027.
Sasikumar N., Ramanan S., Rema K.M., Subramanyan R., Kumar R.S., Cherian K.M. Pulmonary artery banding for univentricular heart beyond the neonatal period. Asian Cardiovasc. Thorac. Ann. 2014; 22 (6): 660–6. DOI: 10.1177/0218492313503640
Rodefeld M.D., Ruzmetov M., Schamberger M.S., Girod D.A., Turrentine M.W., Brown J.W. Staged surgical repair of functional single ventricle in infants with unobstructed pulmonary blood flow. Eur. J. Cardiothorac. Surg. 2005; 27 (6): 949–55. DOI: 10.1016/j.ejcts.2005.01.066
Бокерия Л.А., Горбачевский С.В., Шмальц А.А., Горчакова А.И., Пурсанов М.Г., Ткачева А.В. и др. Гемодинамическая коррекция функционально единственного желудочка сердца после ранее выполненного суживания легочной артерии. Грудная и сердечно-сосудистая хирургия. 2008; 5: 27–34.
Бокерия Л.А., Горбачевский С.В., Ильин В.Н., Шмальц А.А., Харькин А.В., Косенко А.И. и др. Результаты суживания легочной артерии у больных с функционально единственным желудочком сердца и легочной гипертензией. Детские болезни сердца и сосудов. 2006; 2: 27–37.
Шмальц А.А., Мальцев С.Г., Горбачевский С.В. Суживание легочной артерии у больных с функционально единственным желудочком сердца и легочной гипертензией. Детские болезни сердца и сосудов. 2005; 5: 14–20.
Muller W.H., Jr., Danimann J.F., Jr. The treatment of certain congenital malformations of the heart by the creation of pulmonic stenosis to reducepulmonary hypertension and excessive pulmonary blood flow; a preliminary report. Surg. Gynecol. Obstet. 1952; 95: 213–9.
Civin W.H., Edvards J.E. Pathology of the pulmonary vascular tree. I. A comparison of the intrapulmonary arteries in the Eisenmenger complex and in stenosis of ostium infundibuli associated with biventricular origin of the aorta. Circulation. 1950; 2 (4): 545–52. DOI: 10.1161/01.cir.2.4.545
Hufnagel C.A., Roe B.B., Barger A.C. A technique for producing pulmonary artery stenosis. Surgery. 1951; 29 (1): 77–81.
Albert H.M., Atik M., Fowler R. Production and release of pulmonary stenosis in dogs. Surgery. 1958; 44 (5): 904–9.
Мешалкин Е.Н., Францев В.И. Операция суживания легочной артерии как метод лечения при комплексе Эйзенменгера. Вестник хирургии. 1958; 81: 29–34.
Mann F.C., Herrick J.F., Essex H.E. The effect on the blood flow of decreasing the lumen of a blood vessel. Surgery. 1938; 4: 429.
Laks H., Odim J.N., Sadeghi A.M., Allada V. The incisional pulmonary artery band. Ann. Thorac. Surg. 1999; 67 (6): 1813–4. DOI: 10.1016/s0003-4975(99)00349-5
Myers P.O., Tissot C., Beghetti M. Assessment of operability of patients with pulmonary arterial hypertension associated with congenital heart disease. Circ. J. 2014; 78 (1): 4–11. DOI: 10.1253/circj.cj-66-0095
Горбачевский С.В., Шмальц А.А., Плотникова Л.Р. Легочная гипертензия у детей с врожденными пороками сердца. М.; 2018.
Kozlik-Feldmann R., Hansmann G., Bonnet D., Schranz D., Apitz C., Michel-Behnke I. Pulmonary hypertension in children with congenital heart disease (PAH-CHD., PPHVD-CHD). Expert consensus statement on the diagnosis and treatment of paediatric pulmonary hypertension. The European Paediatric Pulmonary Vascular Disease Network, endorsed by ISHLT and DGPK. Heart. 2016; 102 (Suppl. 2): II42–8. DOI: 10.1136/heartjnl-2015-308378
Мальцев С.Г., Горчакова А.И., Шмальц А.А., Марасулов Ш.И., Кудышев А.Д., Харькин А.В. и др. Изменения сосудов легких при сложных врожденных пороках сердца с высокой легочной гипертензией. Архив патологии. 2005; 67 (4): 45–51.
Kulik T.J., McSweeney J.E., Tella J., Mullen M.P. Pulmonary artery banding in post-tricuspid congenital cardiac shunting defects with high pulmonary vascular resistance. Pediatr. Cardiol. 2019; 40 (4): 719–25. DOI: 10.1007/s00246-019-02054-x
Горбачевский С.В., Мукимов Ф.Х., Шмальц А.А., Гренадеров М.А., Кольцов Ю.А., Хальвани М.Ю. Эффективность двухэтапной хирургической коррекции дефекта межжелудочковой перегородки, осложненного синдромом Эйзенменгера. Детские болезни сердца и сосудов. 2014; 2: 33–9.
Горбачевский С.В., Мажидов У.А., Горчакова А.И. Эффективность двухэтапной хирургической коррекции открытого атриовентрикулярного канала., осложненного синдромом Эйзенменгера. Грудная и сердечно-сосудистая хирургия. 2018; 60 (4): 294–301. DOI: 10.24022/0236-2791-2018-60-4-294-300
Wagenvoort C.A., Wagenvoort N., Draulans-Noё Y. Reversibility of plexogenic pulmonary arteriopathy following banding of the pulmonary artery. J. Thorac. Cardiovasc. Surg. 1984; 87 (6): 876–86.
Masaki N., Saiki Y., Endo M., Maeda K., Adachi O., Akiyama M. et al. Evidence of pulmonary vascular reverse remodeling after pulmonary artery banding performed in early infancy in patients with congenital heart defects. Circ. J. 2018; 82 (3): 684–90. DOI: 10.1253/circj.CJ-17-0379
Ohashi N., Matsushima M., Maeda M., Yamaki S. Two-stage procedure for pulmonary vascular obstructive disease in Down syndrome with congenital heart disease. Circ. J. 2006; 70 (11): 1446–50. DOI: 10.1253/circj.70.1446
Liu C., Cheng P., Liu A., Li B., Yang Y., Wang Z et al. Reverse remodeling of pulmonary arterioles after pulmonary artery banding in patients ≥2 years old with severe pulmonary arterial hypertension and congenital heart disease. Pediatr. Cardiol. 2019; 40 (5): 958–64. DOI: 10.1007/s00246-019-02097-0
Бокерия Л.А., Горбачевский С.В., Шмальц А.А., Тлепов Н.С., Татевосян К.Ю. Результаты расширения дефекта межжелудочковой перегородки при функционально единственном желудочке сердца с подаортальной обструкцией. Грудная и сердечно-сосудистая хирургия. 2008; 6: 13–7.
Fowler R.L., Albert H.M., Novick R. Response of infants with large ventricular septal defects to banding of the pulmonary artery. Circulation. 1958; 18: 720.
Corno A.F., Sekarski N., Bernath M.A., Payot M., Tozzi P., von Segesser L.K. Pulmonary artery banding: long-term telemetric adjustment. Eur. J. Cardiothorac. Surg. 2003; 23 (3): 317–22. DOI: 10.1016/s1010-7940(02)00832-1
Saito S., Imai Y., Takanashi Y., Aoki M., Hoshino S., Nakata S. et al. Fontan procedure after pulmonary artery banding-surgical results and new anatomical repair for tricuspid atresia. Nihon Kyobu Geka Gakkai Zasshi. 1995; 43 (9): 1631–8.
Mocellin R., Bühlmeyer K. Late banding operation in children with ventricular septal defect and pulmonary arterial hypertension. Eur. J. Cardiol. 1975; 3 (3): 205–11.
. Khan S.A., Gelb B.D., Nguyen K.H. Evaluation of pulmonary artery banding in the setting of ventricular septal defects and severely elevated pulmonary vascular resistance. Congenit. Heart Dis. 2006; 1 (5): 244–50. DOI: 10.1111/j.1747-0803.2006.00043.x
Trusler G.A., Mustard W.T. A method of banding the pulmonary artery for large isolated ventricular septal defect with and without transposition of the great arteries. Ann. Thorac. Surg. 1972; 13: 351–5. DOI: 10.1016/s0003-4975(10)64866-7
Albus R.A., Trusler G.A., Izakawa T., Williams W. Pulmonary artery banding. J. Thorac. Cardiovasc. Surg. 1984; 88: 645–53.
Sandrio S., Purbojo A., Arndt F., Toka O., Glöckler M., Dittrich S. et al. Feasibility and related outcome of intraluminal pulmonary artery banding. Eur. J. Cardiothorac. Surg. 2015; 48 (3): 470–80. DOI: 10.1093/ejcts/ezu464.
Nahas R., Mundth E.D., Ross B., Austen W.G. Adjustable instruments for pulmonary artery banding. Description of instruments and technique of application. J. Thorac. Cardiovasc. Surg. 1972; 63: 732–4.
Talwar S., Kumar M.V., Choudhary S.K., Airan B. Conventional versus adjustable pulmonary artery banding: which is preferable? Interact Cardiovasc. Thorac. Surg. 2014; 18 (6): 838–41. DOI: 10.1093/icvts/ivu027
Brown S., Boshoff D., Rega F., Eyskens B., Meyns B., Gewilling M. Dilatable pulmonary artery banding in infants with low birth weight or complex congenital heart disease allows avoidance or postponement of subsequent surgery. Eur. J. Cardiothor. Surg. 2010; 37: 296–301. DOI: 10.1016/j.ejcts.2009.06.056
Daley M., Brizard C.P., Konstantinov I.E., Brink J., Jones B., d'Udekem Y. Absorbable pulmonary artery banding: a strategy for reducing reoperations. Eur. J. Cardiothorac. Surg. 2017; 51 (4): 735–9. DOI: 10.1093/ejcts/ezw409
Sakamoto T., Harada Y., Takeuchi T., Morishima K., Satomi G., Yasukochi S. et al. Banding of the pulmonary trunk in preparation for a Fontan operation. Cardiol. Young. 1999; 9 (1): 49–54. DOI: 10.1017/s104795110000737x
Serraf A., Taghavi I., Zurakowski D., Lacour-Gayet F., Bruniaux J., Roussin R. et al. Pulmonary artery banding in the treatment of univentricular heart. Results and therapeutic implications for cavopulmonary derivations. Arch. Mal. Coeur. Vaiss. 1995; 88 (5): 717–24.
Miura T., Kishimoto H., Kawata H., Hata M., Hoashi T., Nakajima T. Management of univentricular heart with systemic ventricular outflow obstruction by pulmonary artery banding and Damus–Kaye–Stansel operation. Ann. Thorac. Surg. 2004; 77 (1): 23–8. DOI: 10.1016/s0003-4975(03)01248-7
Baslaim G. Pulmonary artery banding: the tighter the better. Ann. Thorac. Surg. 2010; 90 (5): 1745–6. DOI: 10.1016/j.athoracsur.2010.04.074
Dammann J.F., Jr., Mc E.J., Thompson W.M., Jr., Smith R., Muller W.H., Jr. The regression of pulmonary vascular disease after the creation of pulmonary stenosis. J. Thorac. Cardiovasc. Surg. 1961: 42: 722–34.
Batista R.J., Santos J.L., Takeshita N., Eocchino L., Lima P.N., Goehr M. et al. Successful reversal of pulmonary hypertension in Eisenmenger complex. Arq. Bras. Cardiol. 1997; 68: 279–80.
Zeltner T.B., Burri P.H. The postnatal development and growth of the human lung. II. Morphology. Respir. Physiol. 1987; 67 (3): 269–82. DOI: 10.1016/0034-5687(87)90058-2
Herring M.J., Putney L.F., Wyatt G., Finkbeiner W.E., Hyde D.M. Growth of alveoli during postnatal development in humans based on stereological estimation. Am. J. Physiol. Lung. Cell. Mol. Physiol. 2014; 307 (4): L338–44. DOI: 10.1152/ajplung.00094.2014
Chowdhury U.K., Airan B., Kothari S.S., Sharma R., Subramaniam G.K., Bhan A. et al. Surgical outcome of staged univentricular-type repairs for patients with univentricular physiology and pulmonary hypertension. Indian Heart J. 2004; 56 (4): 320–7.
Huang J.B., Liang J., Zhou L.Y. Eisenmenger syndrome: not always inoperable. Respir. Care. 2012; 57 (9): 1488–95. DOI: 10.4187/respcare.01418

About the authors

Anton A. Shmalts, Dr. Med. Sc., Leading Researcher, Associate Professor, orcid.org/0000-0001-8937-1796

Chief Editor

Konstantin V. Shatalov
MD, PhD, DSc, Professor
Bakoulev National Medical Research Center for Cardiovascular Surgery

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