Ross procedure explained

The Ross procedure, also known as pulmonary autograft, is a heart valve replacement operation to treat severe aortic valve disease, such as in children and young adults with a bicuspid aortic valve.^[1] It involves removing the diseased aortic valve, situated at the exit of the left side of the heart (where the aorta begins), and replacing it with the person's own healthy pulmonary valve (autograft), removed from the exit of the heart's right side (where the pulmonary artery begins).^[2] To reconstruct the right sided exit, a pulmonary valve from a cadaver (homograft), or a stentless xenograft, is used to replace the removed pulmonary valve.^[1] Compared to a mechanical valve replacement, it avoids the requirement for thinning the blood, has favourable blood flow dynamics, allows growth of the valve with growth of the child and has less risk of endocarditis.^[1]

It is not performed if Marfan syndrome, pulmonary valve disease, or immune problems like lupus are present.^[3] Other contraindications include severe coronary artery disease and severe mitral valve disease.^[3] Due to a higher chance of dysfunction of the autograft, it may not always be safe to perform in rheumatic valve disease, or if a dysplastic dilated aortic root.^[4] Complications include endocarditis, degeneration of the valves, aortic dissection, haemorrhage and venous thromboembolism, among others.^{[1] [5]} It risks having a disease of two valves instead of one.^[6]

The procedure requires technical expertise.^[2] It can be performed using the traditional subcoronary method or more commonly the root replacement technique, which requires re-implanting the coronary arteries.^{[7] [8]}

After the operation, good blood pressure control prevents early dilatation of the new aortic root and allows the pulmonary autograft, now in the aortic position, to settle in its new environment. It may need reoperating on at a later date.^[6] Complications occur in 3 to 5% of cases, with early death rate almost negligible in very experienced centres.^[3] 80% to 90% of cases survive 10 years.^[3] As of 2014, the Ross procedure comprises less than 1% of all aortic valve replacements in North America.^[1]

The procedure was first performed using the subcoronary method in 1967 by Donald Ross, for who the procedure is named for.^{[7] [9]} The root replacement method was introduced in the early 1970s.^[7] It was continued and modified by others such as Magdi Yacoub, who used fresh valves from the explanted hearts of transplant recipients.^[9]

Uses

Several adaptations of the Ross procedure have evolved, but the principle is essentially the same; to replace a diseased aortic valve with the person's own pulmonary valve (autograft), and replace the person's own pulmonary valve with a pulmonary valve from a cadaver (homograft) or a stentless xenograft.^{[1] [2]} It is an alternative to a mechanical valve replacement, particularly in children and young adults.^[6] It avoids the need for thinning the blood, has favourable blood flow dynamics and the valve grows as the person grows.^[6]

The most common reason for performing the Ross procedure in children and young adults is for bicuspid aortic valve.^[1]

Contra-indications

It is not performed in Marfan syndrome, if pulmonary valve disease, or if immune problems like lupus.^[3] Other contraindications include severe coronary artery disease and severe mitral valve disease.^[3] Due to a higher chance of dysfunction of the autograft, it may not always be safe to perform in rheumatic valve disease, or if a dysplastic dilated aortic root.^[4]

Risks/complications

The procedure requires technical expertise, and risks converting a single-valve disease into double-valve disease.^[2] It may need re-operating on at a later date.^[6] Complications include endocarditis, degeneration of the valves, aortic dissection, haemorrhage and venous thromboembolism, among others.^{[1] [5]}

Technique

Before the operation, preparations include transthoracic echocardiography and measurements of the ascending aorta and the pulmonary valve.^[10] Under general anaesthesia, the chest is cut open in the midline.^[3] The heart and aorta are exposed before the heart is temporarily stopped and its function taken over cardiopulmonary bypass.^[3] Subsequent steps include removing the diseased aortic valve and mobilizing the coronary arteries, followed by harvesting and preparing the person's own healthy pulmonary valve, before implanting it within the left ventricular outflow tract, the exit of the left side of the heart (where the aorta begins).^{[1] [10]} Then the coronary arteries are reimplanted, before the pulmonary homograft is implanted in the right ventricular outflow tract, the exit of the heart's right side (where the pulmonary artery begins).^{[1] [10]} The pulmonary autograft is joined to the ascending aorta.^{[1] [10]}

Pulmonary valve replacement

Cryopreserved pulmonary homografts were most often used for a long time until the introduction of decellularized homografts.^[5]

Variations

If the left sided outflow root needs to be enlarged to fit the pulmonary autograft, the procedure is called Ross-Konno.^[3] An alternative to a pulmonary homograft is the stentless xenograft roots such as the Freestyle Porcine Aortic Root by Medtronic.^{[5] [11]} An external Dacron graft can be used to reinforce the pulmonary autograft.^[5]

Recovery

After the operation, good blood pressure control prevents early dilatation of the new aortic root and allows the pulmonary autograft, now in the aortic position, to settle in its new environment.^[10] Aftercare includes regular echocardiography and lifelong endocarditis prophylaxis.^[1]

Epidemiology

Complications occur in 3% to 5% of cases with one to 3% chance of early death. The death rate is almost negligible in very experienced centres. 80% to 90% of cases survive 10 years, and 70% to 80% may live up to 20 years.^[3] As of 2014, the Ross procedure comprises less than 1% of all aortic valve replacements in North America.^[1]

History

Replacing a diseased aortic valve with an aortic valve from a cadaver was first performed by Donald Ross in England in June 1962, and shortly after in July 1962 by Brian Barratt-Boyes in Auckland, New Zealand.^{[9] [12]} In 1967 Ross took the normal pulmonary valve of a person with severe aortic valve disease, and placed it in the aortic position where the diseased aortic valve was removed.^[9] To reconstruct the missing pulmonary outflow tract, a homograft stored and sterilised from a cadaver was used to replace the removed pulmonary valve.^[9] In 1972, Ross introduced the technique using the root replacement method.^[12] For 30 years he was almost the only surgeon performing the procedure, until it gained popularity.^[9] Marian Ionescu in Leeds, in an attempt to seek other materials, unsuccessfully tried fascia lata from the person's own thigh to create a living valve.^[9] He then tried successfully with cattle pericardium fixed with glutaraldehyde, and the procedure became widespread before then falling out of favour as they failed.^[9] Then came pig valves (xenograft) before the 1980s trend for mechanical valves.^[9] The Ross procedure was continued and modified by Magdi Yacoub, who used fresh valves from the explanted hearts of transplant recipients.^[9]

Etymology

It has also been called the double-switch Ross procedure.^[13]

Society

In 1997, to replace a bicuspid aortic valve, the Ross procedure was performed on Arnold Schwarzenegger.^[14]

The procedure was more popular in the 1990s and then declined in use over the subsequent 20 years.^[15] Data relating to the procedure is held in the Ross registry.^[16]

Other animals

The procedure has been carried out in pigs and sheep for the purpose of research.^[17]

Further reading

• Ross . D. N. . Replacement of aortic and mitral valves with a pulmonary autograft . Lancet . 4 November 1967 . 2 . 7523 . 956–958 . 10.1016/s0140-6736(67)90794-5 . 4167516 . 0140-6736.
• Ross . Donald . Replacement of the aortic valve with a pulmonary autograft: The "Switch" operation . The Annals of Thoracic Surgery . 1 December 1991 . 52 . 6 . 1346–1350 . 10.1016/0003-4975(91)90032-L . 1755695 . English . 0003-4975.

Notes and References

1. Book: Bouhout . Ismail . Cardiac Surgery: A Complete Guide . Hammamsy . Ismail . 2020 . Springer . 978-3-030-24176-6 . Raja . Shahzad G. . Switzerland . 351–358 . en . 38. The Ross procedure . https://books.google.com/books?id=kcPPDwAAQBAJ&pg=PA351.
2. Moroi . Morgan K. . Bacha . Emile A. . Kalfa . David M. . The Ross procedure in children: a systematic review . Annals of Cardiothoracic Surgery . 2021 . 10 . 4 . 420–432 . 10.21037/acs-2020-rp-23 . 34422554 . 8339620 . 2225-319X . free .
3. Brown . Kristen N. . Kanmanthareddy . Arun . Aortic Valve Ross Operation . StatPearls . 2022 . 30725934 . StatPearls Publishing.
4. Morita . K. . Kurosawa . H. . [Indications for and clinical outcome of the Ross procedure: a review] ]. Nihon Geka Gakkai Zasshi . April 2001 . 102 . 4 . 330–336 . 0301-4894. 11344686.
5. Nappi . Francesco . Singh . Sanjeet Singh Avtaar . Bellomo . Francesca . Nappi . Pierluigi . Iervolino . Adelaide . Acar . Christophe . The Choice of Pulmonary Autograft in Aortic Valve Surgery: A State-of-the-Art Primer . BioMed Research International . 2021 . 2021 . 5547342 . 10.1155/2021/5547342 . 33937396 . 8060091 . 2314-6141. free .
6. Etnel . Jonathan R.G. . Grashuis . Pepijn . Huygens . Simone A. . Pekbay . Begüm . Papageorgiou . Grigorios . Helbing . Willem A. . Roos-Hesselink . Jolien W. . Bogers . Ad J.J.C. . Mokhles . M. Mostafa . Takkenberg . Johanna J.M. . The Ross Procedure: A Systematic Review, Meta-Analysis, and Microsimulation . Circulation: Cardiovascular Quality and Outcomes . 1 December 2018 . 11 . 12 . e004748 . 10.1161/CIRCOUTCOMES.118.004748 . 30562065 . 56477833 . free .
7. Van Hoof . Lucas . Verbrugghe . Peter . Jones . Elizabeth A. V. . Humphrey . Jay D. . Janssens . Stefan . Famaey . Nele . Rega . Filip . Understanding Pulmonary Autograft Remodeling After the Ross Procedure: Stick to the Facts. Frontiers in Cardiovascular Medicine . 9 February 2022 . 9 . 829120 . 10.3389/fcvm.2022.829120 . 35224059 . 8865563 . 2297-055X. free .
8. Tweddell . James S. . The root replacement remains the gold standard for the Ross procedure . European Journal of Cardio-Thoracic Surgery. 4 January 2021 . 59 . 1 . 234–235 . 10.1093/ejcts/ezaa366 . 33188684 . 1873-734X. free .
9. Book: Treasure . Tom . Silverman . Mark E. . Fleming . Peter R. . Hollman . Arthur . Julian . Desmond G. . Krikler . Dennis M. . British Cardiology in the 20th Century . 2000 . Springer . 978-1-4471-1199-3 . 206. https://books.google.com/books?id=eNrRBgAAQBAJ&pg=PT206 . en . 16. Cardiac surgery.
10. Mazine . Amine . Ghoneim . Aly . El-Hamamsy . Ismail . The Ross Procedure: How I Teach It . The Annals of Thoracic Surgery . 1 May 2018 . 105 . 5 . 1294–1298 . 10.1016/j.athoracsur.2018.01.048 . 29481789 . English . 0003-4975. free .
11. Book: Kırali . Kaan . Gunay . Deniz . Kırali . Kaan . Aortic Aneurysm . 2017 . BoD – Books on Demand . 978-953-51-2933-2 . 29 . https://books.google.com/books?id=h_iODwAAQBAJ&dq=ross&pg=PA29 . en . 2. Isolated aortic root aneurysms.
12. Yankah . A Charles . Forty Years of Homograft Surgery . Asian Cardiovascular and Thoracic Annals . June 2002 . 10 . 2 . 97–100 . 10.1177/021849230201000201 . 12079928 . 33689209 . 0218-4923. free .
13. Chang . Jen-Ping . Kao . Chiung-Lun . Hsieh . Ming-Jang . Double-switch Ross procedure . The Annals of Thoracic Surgery . 1 June 2002 . 73 . 6 . 1988–1989 . 10.1016/S0003-4975(02)03460-4 . 12078818 . English . 0003-4975.
14. Web site: Arnold Schwarzenegger's Heart Valve Surgeries (2020 Update) . www.heart-valve-surgery.com . 8 February 2022 . en.
15. Mazine . Amine . Rocha . Rodolfo V. . El-Hamamsy . Ismail . Ouzounian . Maral . Yanagawa . Bobby . Bhatt . Deepak L. . Verma . Subodh . Friedrich . Jan O. . Ross Procedure vs Mechanical Aortic Valve Replacement in Adults . JAMA Cardiology . October 2018 . 3 . 10 . 978–987 . 10.1001/jamacardio.2018.2946 . 30326489 . 6233830 . 2380-6583.
16. Aboud . Anas . Charitos . Efstratios I. . Fujita . Buntaro . Stierle . Ulrich . Reil . Jan-Christian . Voth . Vladimir . Liebrich . Markus . Andreas . Martin . Holubec . Tomas . Bening . Constanze . Albert . Marc . Fila . Petr . Ondrasek . Jiri . Murin . Peter . Lange . Rüdiger . Reichenspurner . Hermann . Franke . Ulrich . Gorski . Armin . Moritz . Anton . Laufer . Günther . Hemmer . Wolfgang . Sievers . Hans-Hinrich . Ensminger . Stephan . Long-Term Outcomes of Patients Undergoing the Ross Procedure . Journal of the American College of Cardiology . 23 March 2021 . 77 . 11 . 1412–1422 . 10.1016/j.jacc.2021.01.034 . 33736823 . 232297352 . free .
17. Van Hoof . Lucas . Claus . Piet . Jones . Elizabeth A. V. . Meuris . Bart . Famaey . Nele . Verbrugghe . Peter . Rega . Filip . Back to the root: a large animal model of the Ross procedure . Annals of Cardiothoracic Surgery . July 2021 . 10 . 4 . 444–453 . 10.21037/acs-2020-rp-21 . 34422556 . 8339627 . 2225-319X . free .