Juvenile Nasopharyngeal Angiofibroma - UTMB.edu

Juvenile Nasopharyngeal. Angiofibroma. Garrett Hauptman, MD. Faculty Advisor: Seckin Ulualp, MD. Grand Rounds Presentation. The University of Texas Me...

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Juvenile Nasopharyngeal Angiofibroma Garrett Hauptman, MD Faculty Advisor: Seckin Ulualp, MD Grand Rounds Presentation The University of Texas Medical Branch Department of Otolaryngology January 3, 2007

JNA      

Overview Anatomy Diagnosis Radiology Staging Treatment

Overview

JNA 

Benign highly vascular tumor



Locally invasive, submucosal spread



Vascular supply most commonly from internal maxillary artery 

Also: internal carotid, external carotid, common carotid, ascending pharyngeal

JNA Facts and Statistics 

Up to 0.5% of head and neck tumors



Occurring almost exclusively in males



Average age of onset = 15 years old



Intracranial Extension between 10-20%



Recurrence Rates as high as 50%

Anatomy

Origin 

Considered to be posterolateral nasal wall at sphenopalatine foramen



Blood supply 

Primarily internal maxillary artery off of external carotid

Origin 

Posterolateral nasal wall near sphenopalatine foramen

Routes of Spread 

Medial growth Nasal cavity  Nasopharynx 



Lateral growth 

Pterygopalatine fossa 



Vertical expansion through inferior orbital fissure to orbit possible

Infratemporal fossa 

Superior expansion through pterygoid process may involve middle cranial fossa  Lateral and posterior walls of sphenoid sinus can be eroded  Cavernous sinus may be involved  Pituitary may be involved

Sphenopalatine Foramen 

Sphenopalatine vessels



Nerves Nasopalatine  Posterior superior nasal 

Histology  

 

Myofibroblast is cell of origin Fibrous connective tissue with abundant endotheliumlined vascular spaces Pseudocapsule of fibrous tissue Blood vessels lack a complete muscular layer

Diagnosis

Midface and Anterior Skull Base Tumors        

Juvenile Nasopharyngeal Angiofibroma Osteoma Craniopharyngioma Olfactory Neuroblastoma Chordoma Chondrosarcoma Rhabdomyosarcoma Nasopharyngeal Carcinoma

Diagnosis   

History Physical Exam Radiological study CT Scan  MRI  Angiogram 

Characteristic Presentation 

Teenage or young adult male



Recurrent epistaxis



Nasal obstruction

Additional Findings at Presentation       

Conductive hearing loss Rhinolalia Hyposmia/Anosmia Swelling of cheek Dacrocystits Deformity of hard and/or soft palate Orbital proptosis

Appearance 

Smooth lobulated mass in the nasopharynx or lateral nasal wall



Pale, purplish, red-gray, or beefy red



Compressible

Radiology

Radiological Studies 

CT Scan  



MRI 



Excellent for bone detail Lesion enhances with contrast on CT

Differentiate tumor from other soft tissue structures

Angiogram 

Evaluation of feeding blood vessels

Holman-Miller Sign Characteristic anterior bowing of posterior maxillary wall

Coronal CT: Bone Window 

Widening of left sphenopalatine foramen



Lesion fills left choanae



Extends into sphenoid sinus

Axial CT: Soft Tissue Window with Contrast 

Homogenous enhancement



Widening of left sphenopalatine foramen



Extension into  

Nasopharynx Pterygopalatine fossa

Axial CT: Soft Tissue Window with Contrast 

Homogenous enhancement



Widening of right sphenopalatine foramen



Extension into  

Nasopharynx Pterygopalatine fossa

Axial MRI: T1 

Heterogeneous intermediate signal



Flow voids represent enlarged vessels



Extension into  

Nasopharynx Masticator space

Coronal MRI: T1 with Contrast 

Diffuse intense enhancement



Multiple flow voids within hypervascular mass



Extension into  

Nasopharynx Pterygopalatine fossa

Axial MRI: T2 

Heterogeneous intermediate to high signal enhancement



Multiple flow voids within hypervascular mass



Extension into  

Nasopharynx Pterygopalatine fossa

External Carotid Arteriogram

Feeding vessel = Internal Maxillary Artery

Staging

Radkowski Nasopharyngeal Angiofibroma Staging System

Radkowski et al. Arch. Otolaryngology, 1996.

Treatment

Treatment Options 

Surgery 



Radiation therapy 



Reserved for unresectable, life-threatening tumors

Chemotherapy 



Gold standard

Recurrent tumors with previous surgery and radiation

Hormone therapy 

Estrogens and antiandrogens used to decrease tumor size and vascularity

Surgical Approaches      

Endoscopic transnasal Transpalatal Denker approach Facial translocation Medial maxillectomy Infratemporal fossa with or without craniotomy

Preoperative Embolization  

24 to 72 hours preoperatively Gelfoam or polyvinyl alcohol foam  



Efficacy 



Gelfoam: resorbed in approximately 2 weeks Polyvinyl alcohol: more permanent Stage I patients reduced from 840cc to 275cc blood loss

Complications   

Brain and ophthalmic artery embolization Facial nerve palsy Skin and soft tissue necrosis

Liu L et al. Analysis of intra-operative bleeding and recurrence of juvenile nasopharyngeal angiofibromas. Clin Otolaryngol. 2002

Embolization

Embolization

Surgical Approaches      

Endoscopic transnasal Transpalatal Denker approach Facial translocation Medial maxillectomy Infratemporal fossa with or without craniotomy

Endoscopic Transnasal



Middle turbinectomy may be performed for improved exposure

Endoscopic Transnasal

 

Middle meatus antrostomy Resection of posterior maxillary wall

Endoscopic Transnasal

 

Sphenopalatine artery ligation Tumor resection from pterygopalatine fossa

Surgical Approaches      

Endoscopic transnasal Transpalatal Denker approach Facial translocation Medial maxillectomy Infratemporal fossa with or without craniotomy

Transpalatal



Soft palate is split and retracted

Transpalatal



Hard palate resection for enhanced exposure

Transpalatal



Palatine bone and inferior aspect of pterygoid plate resected

Surgical Approaches      

Endoscopic transnasal Transpalatal Denker approach Facial translocation Medial maxillectomy Infratemporal fossa with or without craniotomy

Denker Approach

  

Wide anterior antrostomy Removal of ascending process of maxilla Removal of inferior half of lateral nasal wall

Surgical Approaches      

Endoscopic transnasal Transpalatal Denker approach Facial translocation Medial maxillectomy Infratemporal fossa with or without craniotomy

Midface Degloving with Maxillary Osteotomies

 

Gingivobuccal incision Nasal intercartilaginous incisions with transfixion incision

Midface Degloving with Maxillary Osteotomies



Soft tissue elevation

Midface Degloving with Maxillary Osteotomies



Le Fort I osteotemies

Surgical Approaches      

Endoscopic transnasal Transpalatal Denker approach Facial translocation Medial maxillectomy Infratemporal fossa with or without craniotomy

Maxillectomy

 

Maxillary osteotomies Sagittal osteotomy

Maxillectomy

Alternative Approaches to Nasal Cavities and Paranasal Sinuses     

Lateral Rhinotomy Weber-Ferguson incision Weber-Ferguson with Lynch extension Weber-Ferguson with lateral subciliary extension Weber-Ferguson with subciliary extension and supraciliary extension

Surgical Approaches      

Endoscopic transnasal Transpalatal Denker approach Facial translocation Medial maxillectomy Infratemporal fossa with or without craniotomy

Infratemporal Fossa with or without Craniotomy

Choosing the Surgical Approach 

 



Retrospective chart review of surgical intervention- 37 patients Staged using CT scan and/or MRI Follow-up CT scan or MRI: 3 months, 6 months x 3 years, yearly Recurrence rate = 27%

Hosseini et al. Eur Arch Otorhinolaryngol. 2005.

Surgical Planning 

Smaller tumors (IA, IB, IIA, IIB, IIC)   



Trans-nasal endoscopic Transpalatal Transantral: lesions extending laterally up to pterygopalatine fossa

Larger tumors (IIIA, IIIB) 

Lateral rhinotomy Midfacial degloving



Extensive resection with higher morbidity



Limited resection with higher recurrence



Hosseini et al. Eur Arch Otorhinolaryngol, 2005.

Changing Technique 





Retrospective chart review of surgical intervention- 30 patients Marked shift towards endonasal procedures while tumor stages remained the same Endonasal approach contraindicated in Stage IV and some Stage III cases 

May be used in conjunction with other approach in these cases Mann et al. Laryngoscope. 2004.

Surgical Approach

Mann et al. Laryngoscope. 2004.

Surgical Technique Approach (65 pts)

Endoscopic

Open

225 ml

1250 ml

Complications

1

30

Length of Stay

2 days

5 days

0%

24 %

EBL

Recurrence Rate

Pryor et al. Laryngoscope. 2005.

Surgical Technique  

Retrospective study of 24 patients using Radkowski staging scale 10 patients IA through IIA had transpalatal approach 



9 patients IA through IIIA had transnasal endoscopic approach 

 

Before 1999

After 1999

5 patients IIA through IIIA had lateral rhinotomy or degloving approach Recurrence in 1 case with 12-56 month follow-up range 

Transpalatal approach Tosun et al. J Craniofac Surg. 2006.

Surgical Technique 

Transnasal endoscopic approach can replace transpalatal approach 





Less morbidity

Patients with IIA through IIIA previously treated with lateral rhinotomy may be treated with transnasal endoscopic approach Tumors extending to infratemporal fossa require lateral rhinotomy and degloving for optimal exposure 

Greater morbidity

Tosun et al. J Craniofac Surg. 2006.

Surgical Technique 



 

Surgical limitations of endoscopic resection evaluated in literature review Extremely limited IIIA and IIIB may be approached endoscopically Preoperative embolization recommended Unlikely that limits on endoscopic resection of JNA have been reached

Douglas et al. Curr Opin Otolaryngol Head Neck Surg. 2006.

Gamma Knife Surgery 

2 case reports used as booster treatment for residual tumor after surgery 

No change in tumor size of one patient, regression in other patient Dare et al. Neurosurgery. 2003.



1 case report used as primary treatment modality successfully Park et al. J Korean Med Sci. 2006.

External Beam Radiation 

  

Retrospective review of efficacy of radiation as primary treatment modality for JNA 15 patients received 3000-3500 cGy Recurrence rate of 15% External beam radiation is effective mode of treatment of advanced JNA

Reddy et al. Am J Otolaryngol. 2001.

External Beam Radiation 

  

Retrospective review of efficacy of radiation as primary treatment modality for JNA 27 patients received 3000-5500 cGy Recurrence rate of 15% 2-5 years post-treatment External beam radiation is effective mode of treatment of advanced JNA

Lee JT et al. Laryngoscope. 2002.

External Beam Radiation 

Long-term sequelae of concern 



Growth retardation, panhypopituitarism, temporal lobe necrosis, cataracts, radiation keratopathy

Retrospective review reported 2 cases out of 55 patients developing secondary malignancies Thyroid carcinoma 13 years after receiving 3500cGy  Basal cell carcinoma of skin 14 years after receiving 3500cGy initially, then 3000cGy for recurrence 

Cummings et al. Laryngoscope 1984.

Chemotherapy  

Chemotherapy alternative therapy 1 unresectable tumor had chemotherapy for palliation Adriamycin and decarbazine  Extensive regression of tumor  Possible alternative to radiation? 

Shick et al. HNO. 1996.

Hormonal Therapy 

Estrogen, progesterone, and androgen receptors have been identified with varying frequencies in JNAs 



Some JNAs lack these receptors

Limited utility Delays surgery  Feminizing side effects  Cardiovascular complications 

Hormonal Therapy 



Efficacy of treatment with flutamide evaluated in 7 patients Before and after measurement comparison made using CT scan No statistically significant difference in size  No difference in blood loss 



No advantage with treatment Labra A et al. Otolaryngol Head Neck Surg. 2004.

Surveillance 

Frequent physical examinations



CT Scan / MRI

Recurrence Rates 

Post-operative Stage I and II = 7%  Stage III = 39.5% 

Herman F et al. Laryngoscope 1999.



Tumor stage – extracranial vs. intracranial tumor Extracranial = 5%  Intracranial = 50% 

Bremer JW et al. Laryngoscope 1986.

Conclusions 

Rare, benign, vascular tumor found almost exclusively in young males



Surgery is the gold standard with a trend towards endoscopic approaches



Frequent follow-up after treatment is necessary

Questions

Bibliography                  

Bremer JW, Neel HB III, De Santo LW, et al. Angiofibroma: Treatment trends in 150 patients during 40 years. Laryngoscope 1986; 96: 1321-1329. Cansiz H, Guvenc MG, Sekecioglu N. Surgical approaches to juvenile nasopharyngeal angiofibroma. J Craniomaxillofac Surg. 2006 Jan;34(1):3-8. Epub 2005 Dec 15. Cummings BJ, Blend R, Keane T, et al. Primary radiation therapy for juvenile nasopharyngeal angiofibroma. Laryngoscope 1984; 94: 1599-1605. Douglas R, Wormald PJ. Endoscopic surgery for juvenile nasopharyngeal angiofibroma: where are the limits? Curr Opin Otolaryngol Head Neck Surg. 2006 Feb;14(1):1-5. Enepekides DJ. Recent advances in the treatment of juvenile angiofibroma. Curr Opin Otolaryngol Head Neck Surg. 2004 Dec;12(6):495-499. Hardillo JA, Vander Velden LA, Knegt PP. Denker operation is an effective surgical approach in managing juvenile nasopharyngeal angiofibroma. Ann Otol Rhinol Laryngol. 2004 Dec;113(12):946-950. Herman F, Lot G, Chapot R, et al. Long term follow up of juvenile nasopharyngeal angiofibromas: Analysis of recurrences. Laryngoscope 1999; 109: 140147. Hosseini SM, Borghei P, Borghei SH, Ashtiani MT, Shirkhoda A. Angiofibroma: an outcome review of conventional surgical approaches. Eur Arch Otorhinolaryngol. 2005 Oct;262(10):807-812. Epub 2005 Mar 1. Labra A, Chavolla-Magana R, Lopez-Ugalde A, Alanis-Calderon J, Huerta-Delgado A. Flutamide as a preoperative treatment in juvenile angiofibroma (JA) with intracranial invasion: report of 7 cases. Otolaryngol Head Neck Surg. 2004 Apr;130(4):466-469. Lee JT, Chen P, Safa A, Juliard G, Calcaterra TC. The role of radiation in the treatment of advanced juvenile angiofibroma. Laryngoscope. 2002 Jul;112(7 Pt 1):1213-1220. Liu L, Wang R, Huang D, Han D, Ferguson EJ, Shi H, Yang W. Analysis of intra-operative bleeding and recurrence of juvenile nasopharyngeal angiofibromas. Clin Otolaryngol. 2002; 27:536-540. Mann WJ, Jecker P, Amedee RG. Juvenile angiofibromas: changing surgical concept over the last 20 years. Laryngoscope. 2004 Feb;114(2):291-293. Pryor SG, Moore EJ, Kasperbauer JL. Endoscopic versus traditional approaches for excision of juvenile nasopharyngeal angiofibroma. Laryngoscope. 2005 Jul;115(7):1201-1207. Radkowski D, McGill T, Healy GB, et al. Angiofibroma. Archives of Otolaryngology. Volume 122(2), February 1996, pp 122-129 Reddy KA, Mendenhall WM, Amdur RJ, Stringer SP, Cassisi NJ. Long-term results of radiation therapy for juvenile nasopharyngeal angiofibroma. Am J Otolaryngol. 2001 May-Jun;22(3):172-175. Schick B, Kahle G, Hassler R, Draf W. Chemotherapy of juvenile angiofibroma--an alternative? HNO. 1996 Mar;44(3):148-152. German. Tosun F, Ozer C, Gerek M, Yetiser S. Surgical approaches for nasopharyngeal angiofibroma: comparative analysis and current trends. J Craniofac Surg. 2006 Jan;17(1):15-20.