Computational fluid dynamic analysis of aggressive turbinate reductions: is it a culprit of empty nose syndrome?

Malik, Jennifer; Li, Chengyu; Maza, Guillermo; Farag, Alexander A.; Krebs, Jillian P.; McGhee, Sam; Zappitelli, Gabriela; Deshpande, Bhakthi; Otto, Bradley A.; Zhao, Kai

doi:10.1002/alr.22350

Cited by 26 publications

(79 citation statements)

References 25 publications

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“…This suggests that the relationship between airflow distribution, regional airflow rate, and regional resistance may be exceedingly complex, and are important factors to consider when designing, implementing, or selecting implants for patients with ENS symptoms. This distribution of airflow in the presence of cotton placement is comparable with previous CFD results from healthy controls, and cotton parameters, such as volume and position, should be further explored to characterize its impact on optimizing the distribution of nasal airflow.…”

Section: Discussionsupporting

confidence: 81%

“…Figure B and C represents cross‐sectional slices taken at about 60% of the length of the nasal passage, just posterior to the cotton plug pre‐ and post‐cotton insertion. Figure B shows that the effects of cotton placement and initial increase of airflow velocity actually bring the nasal airflow into a more balanced flow distribution, similar to what is seen in healthy controls . Overall flow rate decreases with cotton insertion, however patients are reporting improved airflow.…”

Section: Discussionmentioning

confidence: 59%

“…Given these observations and indications, our goal was to further understand the physiologic mechanisms that explain the changes in upper airway breathing after placement of a cotton plug in symptomatic ENS patients. We hypothesized that insertion of a cotton plug would alter nasal airflow from the characteristic ENS flow patterns to a more dispersed, normal pattern.…”

mentioning

confidence: 99%

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The cotton test redistributes nasal airflow in patients with empty nose syndrome

Malik

Thamboo

Dholakia

et al. 2020

Int Forum Allergy Rhinol

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Background: Empty nose syndrome (ENS) remains a controversial disease primarily associated with inferior turbinate tissue loss. Co on placement into the inferior meatus o en alleviates ENS symptoms within minutes, but the physiologic explanation for this phenomenon is unknown. Computational fluid dynamics (CFD) was employed to evaluate the mechanisms of altered nasal airflow conferred by co on testing. Methods:Six ENS patients (12 sides) with pre-existing sinus computed tomography (CT) imaging were enrolled a er marked symptomatic improvement (decrease in score on the Empty Nose Syndrome 6-Item Questionnaire [ENS6Q] of >7 points) with office-based co on testing. The fashioned co on plug was labeled in situ with iohexol contrast spray, and sinus CT was immediately obtained to detect co on contouring in the inferior meatus. CT imaging from pre-and post-co on placement was analyzed using comparative CFD techniques. Results:A er co on placement, significant symptomatic improvement and reduced ENS6Q scores (16.8 ± 4.1 to 3.1 ± 2.4; p < 0.001) were recorded. Using CFD, co on placement produced an expected 21% increase in upper airway resistance (p < 0.05). However, a significant shi in the nasal airflow distribution was also detected, with a transition of airflow vectors away from a middle meatus jetstream (−41%; p < 0.002). Conclusion:Objective CFD assessment confirmed that the co on test not only increases nasal resistance, but also restores airflow distribution to the inferior meatus in symptomatic ENS patients. These results highlight the potential efficacy of co on test in ENS patients and further bolster the utility of this tool in identifying appropriate candidates for the inferior meatus augmentation procedure. C 2020 ARS-AAOA, LLC.

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Section: Discussionsupporting

confidence: 81%

Section: Discussionmentioning

confidence: 59%

mentioning

confidence: 99%

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The cotton test redistributes nasal airflow in patients with empty nose syndrome

Malik

Thamboo

Dholakia

et al. 2020

Int Forum Allergy Rhinol

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“…13 Thus, the goal of this study was to use a similar approach to characterize changes in the profile of nasal airflow in ENS patients 6 months after IMAP surgery so that we may further understand the physiologic mechanisms driving the symptomatic improvement with tissue replacement surgery. We hypothesized that the restoration of inferior turbinate tissue bulk via IMAP would alter the characteristic ENS airflow pattern to the middle meatus, 11,12 and result in increased perception of airflow.…”

mentioning

confidence: 99%

Inferior meatus augmentation procedure (IMAP) normalizes nasal airflow patterns in empty nose syndrome patients via computational fluid dynamics (CFD) modeling

Malik

Dholakia

Spector

et al. 2020

Int Forum Allergy Rhinol

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Background Empty nose syndrome ENS is a controversial upper airway disorder most commonly associated with tissue loss from the inferior turbinates The inferior meatus augmentation procedure IMAP has been shown to effectively reduce ENS symptoms in a durable manner but the precise mechanisms that may govern this symptomatic improvement remain unknown Methods Five patients with ENS who underwent bilateral IMAP via submucosal costal cartilage implant were assessed Pre-implant and months post-implant computed tomography CT imaging for each ENS patient was analyzed in a blinded fashion using computational fluid dynamics CFD modeling to investigate intrapatient changes in airflow parameters Results Following surgery ENS patients have significantly improved symptoms as indexed by Empty Nose Syndrome -Item Questionnaire ENS Q scoring pre-implant ± mean ± standard deviation confidence interval CI to post-implant ± CI to Cohen's d = p = Using CFD a significant shi in nasal airflow patterns was observed where airflow deviates away from the middle meatus upon hitting the implant pre-implant ± CI to post-implant ± CI to d = p < toward the inferior meatus pre-implant ± CI to post-implant ± CI to d = p < No significant changes were found in nasal resistance pre-implant ± CI to Pa*s/mL post-implant ± CI toPa*s/mL In addition the improvement of ENS Q scoring significantly correlated with percent reduction in aberrant airflow through the middle meatus R = p = Conclusion This study supports our prior working hypothesis that disordered vectors of nasal airflow congregate in the middle meatus contribute to ENS symptoms not nasal resistance Moreover these data illuminate a paradoxical but consistent restoration of nasal airflow to the inferior meatus following the replacement of turbinate tissue volume in the inferior meatus via IMAP surgery potentially due to the Coandȃ effect © 2020 ARS-AAOA, LLC.

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“…The study using a computational fluid dynamic analysis of empty nose syndrome patients by Malik et al . had thought‐provoking results.…”

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confidence: 99%

Answers to some common rhinologic questions

Han¹

2019

Int Forum Allergy Rhinol

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Computational fluid dynamic analysis of aggressive turbinate reductions: is it a culprit of empty nose syndrome?

Cited by 26 publications

References 25 publications

The cotton test redistributes nasal airflow in patients with empty nose syndrome

The cotton test redistributes nasal airflow in patients with empty nose syndrome

Inferior meatus augmentation procedure (IMAP) normalizes nasal airflow patterns in empty nose syndrome patients via computational fluid dynamics (CFD) modeling

Answers to some common rhinologic questions

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