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01.10.2012 | Computed Tomography

Ventilation imaging of the paranasal sinuses using xenon-enhanced dynamic single-energy CT and dual-energy CT: a feasibility study in a nasal cast

verfasst von: Sven F. Thieme, Winfried Möller, Sven Becker, Uwe Schuschnig, Oliver Eickelberg, Andreas D. Helck, Maximilian F. Reiser, Thorsten R. C. Johnson

Erschienen in: European Radiology | Ausgabe 10/2012

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Abstract

Objective

To show the feasibility of dual-energy CT (DECT) and dynamic CT for ventilation imaging of the paranasal sinuses in a nasal cast.

Methods

In a first trial, xenon gas was administered to a nasal cast with a laminar flow of 7 L/min. Dynamic CT acquisitions of the nasal cavity and the sinuses were performed. This procedure was repeated with pulsating xenon flow. Local xenon concentrations in the different compartments of the model were determined on the basis of the enhancement levels. In a second trial, DECT measurements were performed both during laminar and pulsating xenon administration and the xenon concentrations were quantified directly.

Results

Neither with dynamic CT nor DECT could xenon-related enhancement be detected in the sinuses during laminar airflow. Using pulsating flow, dynamic imaging showed a xenon wash-in and wash-out in the sinuses that followed a mono-exponential function with time constants of a few seconds. Accordingly, DECT revealed xenon enhancement in the sinuses only after pulsating xenon administration.

Conclusion

The feasibility of xenon-enhanced DECT for ventilation imaging was proven in a nasal cast. The superiority of pulsating gas flow for the administration of gas or aerosolised drugs to the paranasal sinuses was demonstrated.

Key Points

• Ventilation of the paranasal sinuses is poorly understood.

• Dual-energy CT ventilation imaging has been explored using phantom simulation.

• Xenon can be seen in the paranasal sinuses using pulsating xenon flow.

• Dual-energy CT uses a lower radiation dose compared with dynamic ventilation CT.

Harvey RJ, Psaltis A, Schlosser RJ, Witterick IJ (2010) Current concepts in topical therapy for chronic sinonasal disease. J Otolaryngol Head Neck Surg 39:217–231PubMed

Hood CM, Schroter RC, Doorly DJ, Blenke EJ, Tolley NS (2009) Computational modeling of flow and gas exchange in models of the human maxillary sinus. J Appl Physiol 107:1195–1203PubMedCrossRef

Hyo N, Takano H, Hyo Y (1989) Particle deposition efficiency of therapeutic aerosols in the human maxillary sinus. Rhinology 27:17–26PubMed

Johnson TR, Krauss B, Sedlmair M et al (2007) Material differentiation by dual energy CT: initial experience. Eur Radiol 17:1510–1517PubMedCrossRef

Kalender WA, Rettinger G, Suess C (1985) Measurement of paranasal sinus ventilation by xenon-enhanced dynamic computed tomography. J Comput Assist Tomogr 9:524–529PubMedCrossRef

Kruger RA, Riederer SJ, Mistretta CA (1977) Relative properties of tomography, K-edge imaging, and K-edge tomography. Med Phys 4:244–249PubMedCrossRef

Mafee MF, Tran BH, Chapa AR (2006) Imaging of rhinosinusitis and its complications: plain film, CT, and MRI. Clin Rev Allergy Immunol 30:165–186PubMedCrossRef

Mainz JG, Schiller I, Ritschel C et al (2011) Sinonasal inhalation of dornase alfa in CF: a double-blind placebo-controlled cross-over pilot trial. Auris Nasus Larynx 38:220–227PubMedCrossRef

Marcucci C, Leopold DA, Cullen M, Zinreich SJ, Simon BA (2001) Dynamic assessment of paranasal sinus ventilation using xenon-enhanced computed tomography. Ann Otol Rhinol Laryngol 110:968–975PubMed

10.

Moeller W, Schuschnig U, Meyer G et al (2009) Ventilation and aerosolized drug delivery to the paranasal sinuses using pulsating airflow - a preliminary study. Rhinology 47:405–412PubMed

11.

Moller W, Lubbers C, Munzing W, Canis M (2011) Pulsating airflow and drug delivery to paranasal sinuses. Curr Opin Otolaryngol Head Neck Surg 19:48–53PubMedCrossRef

12.

Moller W, Schuschnig U, Khadem Saba G et al (2010) Pulsating aerosols for drug delivery to the sinuses in healthy volunteers. Otolaryngol Head Neck Surg 142:382–388PubMedCrossRef

13.

Moller W, Schuschnig U, Meyer G, Mentzel H, Keller M (2008) Ventilation and drug delivery to the paranasal sinuses: studies in a nasal cast using pulsating airflow. Rhinology 46:213–220PubMed

14.

Murphy DM, Nicewicz JT, Zabbatino SM, Moore RA (1989) Local pulmonary ventilation using nonradioactive xenon-enhanced ultrafast computed tomography. Chest 96:799–804PubMedCrossRef

15.

Rettinger G, Suss C, Kalender WA (1986) Studies of paranasal sinus ventilation by xenon-enhanced dynamic CT. Rhinology 24:103–112PubMed

16.

Rossaint R, Reyle-Hahn M, Schulte Am Esch J et al (2003) Multicenter randomized comparison of the efficacy and safety of xenon and isoflurane in patients undergoing elective surgery. Anesthesiology 98:6–13PubMedCrossRef

17.

Sanders RD, Franks NP, Maze M (2003) Xenon: no stranger to anaesthesia. Br J Anaesth 91:709–717PubMedCrossRef

Titel: Ventilation imaging of the paranasal sinuses using xenon-enhanced dynamic single-energy CT and dual-energy CT: a feasibility study in a nasal cast
verfasst von: Sven F. Thieme
Winfried Möller
Sven Becker
Uwe Schuschnig
Oliver Eickelberg
Andreas D. Helck
Maximilian F. Reiser
Thorsten R. C. Johnson
Publikationsdatum: 01.10.2012
Verlag: Springer-Verlag
Erschienen in: European Radiology / Ausgabe 10/2012
Print ISSN: 0938-7994
Elektronische ISSN: 1432-1084
DOI: https://doi.org/10.1007/s00330-012-2483-5

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Ventilation imaging of the paranasal sinuses using xenon-enhanced dynamic single-energy CT and dual-energy CT: a feasibility study in a nasal cast