Marcelo Martinez-Ferro

Last updated
Image of MartinezFerro MartinezFerro2.jpg
Image of MartinezFerro

Marcelo Martinez-Ferro is an argentinian pediatric surgeon specializing in fetal, neonatal, and thoracic surgery. He also developed a non-surgical treatment for pectus carinatum, which has been adopted in several countries, treating over 20,000 patients. Additionally, he is a board member of the Chest Wall International Group. [1]

Contents

Biography

Marcelo Martinez-Ferro was born in Buenos Aires and graduated from the Buenos Aires University School of Medicine in 1983. He completed his residency in pediatric surgery at the Ricardo Gutierrez Children´s Hospital [2] and in 1988, joined the staff of Garrahan national Children`s Hospital. [3] In 1992 he completed a fellowship at the Fetal Treatment Center of the UCSF [4] where he confirmed his interest in fetal treatment and video surgery.

In 2001, Martinez-Ferro, along with the Surgical and Obstetrical Team of CEMIC (a medical center in Buenos Aires), performed the first fetal surgery in Argentina [5] [6] on a patient with myelomeningocele to prevent the consequences of amniotic fluid contact with the spinal cord in the maternal uterus; this was the first such intervention to be performed outside of the United States. [7]

Furthermore, he is the inventor of a non-surgical dynamic compression treatment to correct pectus carinatum (keel chest), which has been used by more than 20,000 patients worldwide. Another precedent for an orthotic treatment for this condition was developed by Brazilian physician Sydney Haje and his team. These treatments are currently preferred over the surgical procedure of Mark Ravitch due to their less invasive nature. [8]

He is a member of the editorial board of the Journal of Pediatric Surgery . He also serves on the editorial boards of other journals indexed in Index Medicus, such as Fetal Diagnosis and Therapy and the Journal of Laparoendoscopic and Advanced Surgical Techniques. [9] [10]

He is a past-president of the International Pediatric Endosurgery Group. [11]

Work on fetal, neonatal, and thoracic surgery

Martinez-Ferro with Drs. Santiago Lippold and Aldo Vizcaino, and under the coordination of Dr. Michael Harrison, established the Fetal Surgery Program at CEMIC, the first of its kind in Latin America. The program's purpose was to optimize the chain of diagnosis, evaluation, and medical treatments during gestation, as well as the referral of newborn patients, to reduce the morbidity and mortality rates from congenital defects such as pulmonary malformations, urinary tract obstructions, and diaphragmatic hernias.

In this regard, in May 2001, [12] they performed the first in utero surgery outside of the United States. The objective of the 'open' fetal surgical intervention was to correct a spinal cord malformation known as myelomeningocele, to prevent the future consequences of amniotic fluid contact with the spinal cord in the maternal uterus. [13]

A pioneer in the implementation of laparoscopic and thoracoscopic procedures in newborns and children, [14] Dr. Martinez-Ferro has contributed to improving surgical outcomes and reducing the invasiveness of surgical procedures. [15]

He is a co-author of three specialty books. The first, Neonatología Quirúrgica (Surgical Neonatology), was published in 2004 with its second edition released a year later. In 2018, he published Fetoneonatología Quirúrgica (Feto-Neonatal Surgery) [16] with Editorial Journal, a two-volume specialized work: "Clinical Aspects" and "Technical Aspects." He introduced the term "Feto-neonatology" to address the medical and surgical care of the fetus and the newborn with an emphasis on establishing a continuous process, that is, not separated by the moment of birth.

Furthermore, he has specialized in the surgical and non-surgical treatment of thoracic malformations [17] such as pectus carinatum, pectus excavatum, and Poland syndrome, with a focus on reducing invasiveness and correcting the cardiac and pulmonary function of patients, [18] [19] in addition to the impact on patients' self-esteem.

In relation to this, together with Dr. Carlos Fraire, he introduced the Nuss procedure [20] in Latin America for the correction of pectus excavatum (the sinking of the sternum towards the spine).

Over the years, he and his team incorporated various updates to the procedure, such as 3D surgical planning [21] and the personalization of implant systems; the creation of specific cardiopectus indices and studies; and the application of cryoanalgesia [22] for postoperative pain reduction.

Martinez-Ferro founded the Grupo de Cirugía Pediátrica (Pediatric Surgery Group), an association of surgeons from various pediatric specialties dedicated to the reception and collaboration on complex cases. As part of this initiative, Clínica Mi Pectus (My Pectus Clinic) [23] was established, specializing in the research and treatment of chest wall malformations, with a multidisciplinary and comprehensive approach. He currently continues to contribute to both organizations as a consultant and scientific researcher.

Dynamic Compressor FMF System for Pectus Carinatum Correction

Martinez-Ferro invented the Dynamic Compressor FMF System as a non-invasive alternative for correcting pectus carinatum. The "FMF System" operates on the principle that the chest wall, particularly in children and adolescents, is malleable and can be reshaped by applying external pressure. [24] [25]

This orthopedic system, manufactured by Pampamed, is made from ultralight aluminum and custom-made to each patient. It works by applying gradual and controlled pressure, correcting the deformity over several months. [26] [27] [28]

Between 2001 and 2007, Martinez-Ferro's team used this dynamic compression system, which includes a correction pressure gauge, to treat 208 patients with pectus carinatum non-invasively. The effectiveness rate was 90%. [29] A key differentiator of this system is its ability to measure the patient's chest elasticity and adjust the correction pressure accordingly. This improves accuracy, optimizes treatment duration, and helps prevent skin lesions.

The Children's Hospital of The King's Daughters in the United States was the first international center to adopt this system, positioning it as the preferred global treatment over surgical intervention for this condition. [30] Treatment alternatives for chest wall malformations have evolved from open resections to minimally invasive strategies, and now, to reshaping the chest using both surgical and non-surgical methods.

References

  1. "Executive Board". CWIG. Retrieved 2025-04-12.
  2. "Hospital de Niños Dr. Ricardo Gutiérrez-Buenos Aires-Argentina". Guti.gov.ar. Archived from the original on 2011-08-21. Retrieved 2011-06-07.
  3. Hospital de Pediatría Garrahan. "Hospital de Pediatría Garrahan". Garrahan.gov.ar. Retrieved 2011-06-07.
  4. "Our Fellows | UCSF Fetal Treatment Center". Fetus.ucsfmedicalcenter.org. 2009-11-24. Archived from the original on 2012-07-08. Retrieved 2011-06-07.
  5. "Página/12". www.pagina12.com.ar. Retrieved 2025-04-12.
  6. "Página/12 :: futuro". www.pagina12.com.ar (in Spanish). Retrieved 2025-04-12.
  7. "Operaron a un bebe dentro del útero". LA NACION (in Spanish). 2001-07-26. Retrieved 2025-04-12.
  8. Martinez-Ferro M, Fraire C, Bernard S (2008). "Dynamic compression system for the correction of pectus carinatum". Seminars in Pediatric Surgery. 17 (3): 194–200. doi:10.1053/j.sempedsurg.2008.03.008. PMID   18582825. The Nuss procedure for pectus excavatum introduced a paradigm shift by demonstrating that the thoracic wall is a very elastic and malleable structure in children. Following this idea, early in the year 2000, we started a protocol with the objective of treating PC patients using the same concept but with the advantage that, in these patients, there was no need for an implant as the protrusion could be compressed externally. At this time, except for the pioneer papers of Haje and coworkers, no other authors supported a non-operative approach for the treatment of these patients., page 198.
  9. "Fetal Diagnosis and Therapy" . Retrieved 2011-06-07.
  10. "Journal of Laparoendoscopic and Advanced Surgical Techniques". Archived from the original on 2016-06-28. Retrieved 2011-06-07.
  11. "International Pediatric Endosurgery Group". IPEG. Retrieved 2011-06-07.
  12. "Página/12 :: futuro". www.pagina12.com.ar (in Spanish). Retrieved 2025-04-12.
  13. "Operaron a un bebe dentro del útero". LA NACION (in Spanish). 2001-07-26. Retrieved 2025-04-12.
  14. "Fetal Surgery Pioneer Martinez Commends BJU". BJUtoday. 2019-08-16. Retrieved 2025-04-12.
  15. "Marcelo Martinez-Ferro | Boston Children's Hospital | 57 Publications | 370 Citations | Related Authors". SciSpace - Author. Retrieved 2025-04-12.
  16. "Fetoneonatología Quirúrgica (Obra completa: 2 volúmenes) por Marcelo Martínez Ferro - 9789873954870 - Journal". Ediciones Journal - libros profesionales para la salud (in Spanish). Retrieved 2025-04-12.
  17. Martínez-Ferro, M.; Toselli, L.; Bellía-Munzón, G. (2021-10-01). "Chest wall malformations: new perspectives in diagnosis and treatment". Cirugia Pediatrica: Organo Oficial de la Sociedad Espanola de Cirugia Pediatrica. 34 (4): 171–179. ISSN   2445-2807. PMID   34606696.
  18. Rodriguez Granillo, Gaston Alfredo; Raggio, Ignacio M.; Deviggiano, Alejandro; Bellia Munzon, Gastón; Capunay, Carlos; Nazar, Maximiliano; Martinez, Jorge Luis; Carrascosa, Patricia; Martínez Ferro, Marcelo (January 2020). "Impact of pectus excavatum on cardiac morphology and function according to the site of maximum compression: effect of physical exertion and respiratory cycle" . European Heart Journal - Cardiovascular Imaging. 21: 77–84. doi:10.1093/ehjci/jez061. ISSN   2047-2412. PMID   30938414.
  19. Deviggiano, Alejandro; Carrascosa, Patricia; Vallejos, Javier; Bellia Munzon, Gaston; Vina, Natalia; Rodriguez Granillo, Gaston Alfredo; Martínez Ferro, Marcelo (November 2018). "Relationship between cardiac MR compression classification and CT chest wall indexes in patients with pectus excavatum". Journal of Pediatric Surgery. 53 (11): 2294–2298. doi:10.1016/j.jpedsurg.2018.05.015. hdl: 11336/160746 . ISSN   0022-3468. PMID   29907314.
  20. "Procedimiento de Nuss". Mayo Clinic (in Spanish). Retrieved 2025-04-12.
  21. Martinez-Ferro, Marcelo; Bellia-Munzon, Gaston; Toselli, Luzia; Sanjurjo, Daniela (2024-06-30). "The role of 3D printing in chest wall reconstruction". Journal of Thoracic Disease. 16 (6): 4053–4063. doi: 10.21037/jtd-23-881 . ISSN   2077-6624. PMC   11228731 . PMID   38983181.
  22. Cadaval Gallardo, C.; Martínez, J.; Bellía-Munzon, G.; Nazar, M.; Sanjurjo, D.; Toselli, L.; Martínez-Ferro, M. (2020-01-20). "Thoracoscopic cryoanalgesia: A new strategy for postoperative pain control in minimally invasive pectus excavatum repair". Cirugia Pediatrica: Organo Oficial de la Sociedad Espanola de Cirugia Pediatrica. 33 (1): 11–15. ISSN   2445-2807. PMID   32166917.
  23. "Clinica Mi Pectus – Pectus – Cirugía Torácica" (in Spanish). Retrieved 2025-04-12.
  24. Sargent, Brandon; Varela, Katie; Eggett, Dennis; McKenna, Emily; Bates, Christina; Brown, Rebeccah; Garcia, Victor; Howell, Larry (2023). "Modeling of the chest wall response to prolonged bracing in pectus carinatum". PLOS ONE. 18 (8): e0288941. Bibcode:2023PLoSO..1888941S. doi: 10.1371/journal.pone.0288941 . ISSN   1932-6203. PMC   10424870 . PMID   37578962.
  25. Shang, Ziyin; Hong, Chun; Duan, Xianlun; Li, Xiangyong; Si, Yuan (2021). "Orthotic Bracing or Minimally Invasive Surgery? A Summary of 767 Pectus Carinatum Cases for 9 Years". BioMed Research International. 2021: 6942329. doi: 10.1155/2021/6942329 . ISSN   2314-6141. PMC   7910044 . PMID   33681377.
  26. Harrison, Brittany; Stern, Lily; Chung, Philip; Etemadi, Mozziyar; Kwiat, Dillon; Roy, Shuvo; Harrison, Michael R.; Martinez-Ferro, Marcelo (April 2016). "MyPectus: First-in-human pilot study of remote compliance monitoring of teens using dynamic compression bracing to correct pectus carinatum". Journal of Pediatric Surgery. 51 (4): 608–611. doi:10.1016/j.jpedsurg.2015.11.007. ISSN   1531-5037. PMID   26700692.
  27. Rosière, N. I.; Gutiérrez, R.; Madrid, C.; Mendoza, M.; Martínez, A.; Bellia-Munzón, G. (2018-08-03). "[Result of 12 years of non-surgical treatment of pectus carinatum]". Cirugia Pediatrica: Organo Oficial de la Sociedad Espanola de Cirugia Pediatrica. 31 (3): 115–120. ISSN   0214-1221. PMID   30260102.
  28. Orrick, Beth A.; Pierce, Amy L.; McElroy, Susan F. (August 2022). "Changes in self-image after pectus carinatum brace treatment". Journal of Pediatric Surgery. 57 (8): 1579–1583. doi:10.1016/j.jpedsurg.2021.12.002. ISSN   1531-5037. PMID   34996608.
  29. Martinez-Ferro, Marcelo; Fraire, Carlos; Bernard, Silvia (2008-08-01). "Dynamic compression system for the correction of pectus carinatum" . Seminars in Pediatric Surgery. Chest Wall Deformities. 17 (3): 194–200. doi:10.1053/j.sempedsurg.2008.03.008. ISSN   1055-8586.
  30. Thaker, Shefali; Anderson, Matthew; Fezio, James; Rader, Christine; Misra, Meghna V. (April 2017). "Pectus Carinatum: Factors That Contribute to Success and Failure of Nonoperative Treatment". Connecticut Medicine. 81 (4): 203–208. ISSN   0010-6178. PMID   29714404.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.