Padecimientos Oncológicos usando Terapia Hiperbarica

CONDICIONES ONCOLÓGICAS CON LAS QUE LA TERAPIA EN CÁMARA HIPERBÁRICA PUEDE AYUDAR

  • Cistitis Rádica
  • Radionecrosis y Osteoradionecrosis
  • Dermatitis por Radioterapia
  • Proctitis y enteritis rádica
  • Cancer de próstata con metastasis ósea (etapa avanzada).
  • Preparación pre quirúrgica de tejidos irradiados a la quimioterapia
  • Necrosis de la pared torácica
  • Mejora síntomas secundarios de quimioterapia
  • Acorta tiempo de recuperación de una cirugía después de algún tratamiento oncológico así como apoya el tejido afectado.
  • Preventivo en el tratamiento de las quimioterapias y radioterapia 

Beneficios de Oxigeno al 100%

La oxigenoterapia hiperbárica para pacientes con cáncer puede ser útil para mejorar otros tratamientos y curar el daño causado por la radioterapia.

Durante la terapia, un paciente respira oxígeno puro en una habitación presurizada, un proceso diseñado para promover la curación.

¿En que me puede ayudar?

  • Ayuda a sanar la lesión por radiación 
  • Aumenta la liberación de células madre de la médula ósea
  • Acelera la curación después de la cirugía de cáncer
  • Incrementa la Quimio sensibilización de tumores sólidos
  • Aumenta la sensibilización a la radiación de tumores sólidos
  • No hay efecto pro-crecimiento en las células cancerosas (en varios estudios)
  • Previene y Sana tejido comprometidos por radiacion
  • Mitiga los efectos de «chemo brain»

¿EN QUE ME AYUDA?

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REDUCE INFLAMACION

PRODUCE UNA VASOCONSTRICION HIPEROXIGENADA DESPUES DE 1.8ATA DE PRESION

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INCREMENTA LA QUIMIOSENSIBILIZACION

AL DESINFLAMAR AYUDA A QUE EL MEDICAMNETO LLEGUE A DONDE TIENE QUE LLEGAR

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REDUCE CHEMO BRAIN

AL OXIGENAR CEREBRO Y CUERPO 

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MEJORA SISTEMA INMUNOLOGICO

TIENE FUNCION BACTEROSTATICO Y BACTERICIDA.

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ACELERA CICATRIZACION

ESTIMULA PRODUCCIÓN DE COLÁGENO Y FIBROBLASTOS. AL IGUAL AYUDA CON LA FIBROSIS

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FORMA NUEVOS VASOS SANGUINEOS

TIENE EFECTO ANGIOGENESIS

«Puede acortar tiempo de convalecencia hasta un 50%, recuperarte en días en lugar de semanas tomándolas Pre- y Pos tu cirugia.»

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¿COMO PUEDE AYUDAR LA TERAPIA HIPERBARICA EN CON JUNTO CON MI TRATAMIENTO CONVENCIONAL?

El oxígeno hiperbárico puede aumentar la cantidad de oxígeno en las células cancerosas, lo que puede facilitar su destrucción con radioterapia y quimioterapia.
​Es un tipo de agente radiosensibilizante y al igual un tipo de agente quimiosensibilizador.

¿COMO AYUDA A PREVENIR EN LA RADIOTERAPIA?

Con la radioterapia, se atacan tanto las células cancerosas como las células sanas, lo que daña los tejidos sanos. Se ha demostrado que la terapia con oxígeno hiperbárico ayuda a proporcionar oxígeno y nutrientes a estos tejidos dañados, lo que ayuda a que estas áreas crezcan nuevos vasos sanguíneos (que pueden haber sido dañados durante la radiación) y tejidos para sanar. Multiples estudios avalan su uso por Radio necrosis

¿COMO AYUDA EN UNA LESIÓN POR RADIACIÓN EN TEJIDO DURO Y BLANDO?

Aunque hay múltiples estudios demostrando diferentes funciones, en resumen, la terapia en cámara hiperbarica para lesiones en tejido radiado ayuda a

  • Prevenir y Deshacer fibrosis
  • Regenerar tejido (hueso, piel, venas)
  • Aumenta circulación sanguínea en la zona afectada
  • Moviliza células madre propias para sanar el área

¿CUANDO DEBERIA EMPEZAR MIS SESIONES?

​Recomendamos empezar su tratamiento hiperbarico en cuanto empiece con su tratamiento oncológico. Se puede tomar durante las radiaciones para mitigar sus efectos dañinos a las células buenas. Con las terapias de quimio se recomienda tomar sesiones antes y después de la aplicación del tratamiento para mitigar efectos secundarios de la terapia convencional.

Preguntas Frecuentes
sobre la terapia Hiperbarica y el tratamiento Oncológico

Que presiones se usan?

Por protocolo usamos presiones de 2.0 ATA. para ayudar con síntomas relacionados con la quimioterapia y radioterapia

Cuando se ve la mejoria?

Desde la primer sesión, sin embargo hay casos que se necesitan hacer varias sesiones para sentir el efecto.

Tengo que hacer todo el protocolo?

Es importante apegarse al protocolo para ver una mejoría palpable.

Cuantas Sesiones de necesitan para una Lesión por Radiación en tejido duro y blando?

En estos casos puede variar mucho sin embargo normalmente son varias sesiones. Si hay alguna lesión o ulcera se hacen sets de 10 en 10 sesiones viendo el avance, en muchos casos se puede pensar en 30 sesiones. Si hubo tejido radiado y se va a hacer un procedimiento, se toman 15 sesiones antes del tratamiento al igual 15-30 después depende del avance. Cada caso se valora individualmente.

Cuántas Sesiones Necesito Junto Al Tratamiento Convencional?​

Normalmente se recomiendan 5 sesiones, antes de empezar algún tratamiento convencional. Al empezar el tratamiento convencional, tomar 2 sesiones antes y 2 sesiones después de la quimioterapia o radiación, si hay necesidad se pueden tomar mas sesiones posteriormente. Así sucesivamente hasta terminar el tratamiento convencional. Al finalizar tu protocolo, tomar 10 sesiones para ayudar a desintoxicar.

Cuanto dura la terapia?

Cómo usamos cámaras hiperbáricas individuales, podemos hacer sesiones de 1 hora, pero puede variar el tiempo depende de cada caso.​

Que pasa si no se tomaron las sesiones durante el tratamiento convencional?

Si no hubo oportunidad de tomar la terapia durante la fase del tratamiento convencional. Se recomienda tomar de 10-15 sesiones posteriores para ayudar a desintoxicar​

CÓMO SIRVE LA OXIGENACIÓN HIPERBÁRICA EN CASOS DE CÁNCER

Investigaciones con Mas detalle

Tissue Injury and Chemotherapy – Lesiones a Tejido y la Quimioterapia 
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study with long term follow up of hyperbaric oxygen pretreatment in patients with locally advanced breast cancer
undergoing neo-adjuvant chemotherapy. Undersea and Hyperbaric Medicine. 2006;33(1):33-43

Enhancement of Radiotherapy – Potencializador de la Radioterapia
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response and tissue damage. Am J Roentgenology. 1968;102:8-26.
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83. Henk JM. Hyperbaric oxygen in radiotherapy of head and neck carcinoma. Clin Radiol. 1970;21:223-231.
84. Tobin DA, Vermund H. A randomised study of hyperbaric oxygen as an adjunct to regularly fractionated
radiation therapy for clinical treatment of advanced neoplastic disease. Am J Roentgenol Radium Ther Nucl Med.
1971;3:613-621.
85. Plenk HP. Hyperbaric radiation therapy. Preliminary results of a randomized study of cancer of the urinary bladder and
review of the “oxygen experience.” Am J Roentgenol Radium Ther Nucl Med. 1972;114(1):152-157.
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89. Chang CH, Conley JJ, Herbert C. Radiotherapy of advanced carcinoma of the oropharyngeal region under
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first controlled clinical trial. Lancet. 1977;8029(2):101-103.
93. Perrins D, Wiernik G. The medical research council’s working party on radiotherapy and hyperbaric oxygen.
Controlled trials in carcinoma of the bladder. Br J Radiol. 1978;51(611):876-878.
94. Watson ER, Halnan KE. Hyperbaric oxygen and radiotherapy: A medical research council trial in carcinoma of the
cervix. Br J Radiol. 1978;51:879-887.
95. Cade IS, Dische S, Watson ER, Wiernik G, Sutherland I. Hyperbaric oxygen and radiotherapy: a medical research
council trial in carcinoma of the bladder. Br J Radiol. 1978; 51:876-878.
96. Cade IS, McEwen JB, Dische S, Saunders MI, Watson ER, Halnan KE, Wiernik G, Perrins DJD, Sutherland I.
Hyperbaric oxygen and radiotherapy: A medical research council trial in carcinoma of the bladder. Br J Radiol.
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cervix – stages IIB, IIIB and IVA: Results of a randomized study by the radiation therapy oncology group. Int J
Radiation Oncology Biol Phys 1981;7(8):991-998.
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102. Henk JM. Late results of a trial of hyperbaric oxygen and radiotherapy in head and neck cancer: A rationale for
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7. Vamvakas EC. Transfusion associated cancer recurrence and post-operative infection: meta-analysis of randomized controlled clinical trials. Transfusion. 1996;36:175-186

 

Moen, I. and Stuhr, L.E.B. (2012, December). Hyperbaric Oxygen Therapy and Cancer – A Review. Target Oncol. 7(4), 233-42.
Retrieved from: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3510426/

Heyboer M 3rd, Milovanova TN, Wojcik S, et al. CD34+/CD45-dim stem cell mobilization by hyperbaric oxygen – changes with oxygen dosage. Stem Cell Res. 2014;12(3):638-645. doi:10.1016/j.scr.2014.02.005

Poff AM, Ward N, Seyfried TN, Arnold P, D’Agostino DP (2015) Non-Toxic Metabolic Management of Metastatic Cancer in VM Mice: Novel Combination of Ketogenic Diet, Ketone Supplementation, and Hyperbaric Oxygen Therapy. PLoS ONE 10(6): e0127407. https://doi.org/10.1371/journal.pone.0127407

Hyperbaric oxygen as a chemotherapy adjuvant in the treatment of metastatic lung tumors in a rat model,Paul M. Petre, MDa. Frank A. Baciewicz Jr, MDb. Stefan Tigan, PhDd. J.Richard Spears, MDc, DOI:https://doi.org/10.1067/mtc.2003.90

Feldmeier J, Carl U, Hartmann K, Sminia P. Hyperbaric oxygen: does it promote growth or recurrence of malignancy?. Undersea Hyperb Med. 2003;30(1):1-18.

Daruwalla J, Christophi C. Hyperbaric oxygen therapy for malignancy: a review. World J Surg. 2006;30(12):2112-2131. doi:10.1007/s00268-006-0190-6

Haroon AT, Patel M, Al-Mehdi AB. Lung metastatic load limitation with hyperbaric oxygen. Undersea Hyperb Med. 2007;34(2):83-90.

Kawasoe Y, Yokouchi M, Ueno Y, Iwaya H, Yoshida H, Komiya S. Hyperbaric oxygen as a chemotherapy adjuvant in the treatment of osteosarcoma. Oncol Rep. 2009;22(5):1045-1050. doi:10.3892/or_00000534

Selvendiran K, Kuppusamy ML, Ahmed S, et al. Oxygenation inhibits ovarian tumor growth by downregulating STAT3 and cyclin-D1 expressions. Cancer Biol Ther. 2010;10(4):386-390. doi:10.4161/cbt.10.4.12448

Schellart NA, Reits D, van der Kleij AJ, Stalpers LJ. Hyperbaric oxygen treatment improved neurophysiologic performance in brain tumor patients after neurosurgery and radiotherapy: a preliminary report. Cancer. 2011;117(15):3434-3444. doi:10.1002/cncr.25874

Mayo Clinic. (2018, January 12). Hyperbaric Oxygen Therapy.
Retrieved from: http://www.mayoclinic.org/tests-procedures/hyperbaric-oxygen-therapy/basics/definition/prc-20019167

Bennett, M.H., Feldmeier, J., Smee, R., and Milross, C. (2018). Hyperbaric Oxygenation for Tumour Sensitisation to Radiotherapy. Cochrane Database of Systematic Reviews. DOI: 10.1002/14651858.CD005007.pub4.
Retrieved from: https://www.cochranelibrary.com/cdsr/doi/10.1002/14651858.CD005007.pub4/full

Delayed Radiation Injuries (Soft Tissue and Bony Necrosis) and Potential – Lesiones retardadas por radiación (necrosis ósea y tejidos blandos) y su potencial
for Future Research
John J. Feldmeier DO, FACRO, FUHM, Laurie B. Gesell MD, FACEP, FUHM
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