OpenLB
Open Library of Bioscience
Advanced Search
Cancer medicine
04, 2021;10 (8): 2723-2731.

The gray zone of thyroid nodules: Using a nomogram to provide malignancy risk assessment and guide patient management.

Elham Yousefi, Gloria H Sura, Jonathan Somma
Author Information
  1. Elham Yousefi: Department of Pathology, SUNY Downstate Medical Center, Brooklyn, NY, USA.
  2. Gloria H Sura: Department of Pathology, LSU Health Sciences Center, New Orleans, LA, USA. ORCID
  3. Jonathan Somma: Department of Pathology, LSU Health Sciences Center, New Orleans, LA, USA. ORCID
PMID: 33763983 DOI: 10.1002/cam4.3866

Abstract

BACKGROUND: Thyroid nodules have a low prevalence of malignancy and most proven cancers do not behave aggressively. Thus, risk-stratification of nodules is a critical step to avoid surgical overtreatment. We hypothesized that a risk management system superior to those currently in use could be created to reduce the number of clinically indeterminate nodules (i.e., the "gray zone") by concurrently considering the malignancy risks conferred by clinical, ultrasonographic, and cytologic variables.
METHODS: Thyroidectomy cases were reviewed from three institutions. Their benign versus malignant outcome was used to evaluate the variables for correlation. A binary logistic regression model was trained and, using indeterminate nodules with Bethesda III and IV results, validated. A scoring nomogram was designed to demonstrate the application of the model in clinical practice.
RESULTS: One hundred thirty thyroidectomies (28% malignant) met inclusion criteria. The final logistic regression model included difficulty in swallowing, hypothyroidism, echogenicity, hypervascularity, margins, calcification, and cytology diagnosis as input parameters. The model was highly successful in determining the outcome (p value: 0.001) with a R (Nagelkerke) score of 0.93. The area under the curve as determined by receiver operating characteristics was 0.91. The accuracy of the model on the training dataset was 93% (sensitivity and specificity 92% and 96%, respectively) and, on the validation dataset, 80% (sensitivity and specificity 91% and 67%, respectively).
CONCLUSIONS: We report a model for risk assessment of thyroid nodules that has the potential to significantly reduce indeterminates and surgical overtreatment. We illustrate its application via a straightforward nomogram, which integrates clinical, ultrasonographic, and cytologic data, and can be used to create clear, evidence-based management plans for patients.

Keywords

fine-needle biopsy risk assessment thyroid neoplasms thyroid nodules thyroidectomy ultrasonography

References

  1. Ultrason Imaging. 2016 Mar;38(2):148-58 [PMID: 25933616]
  2. Pathologica. 2010 Oct;102(5):405-8 [PMID: 21361121]
  3. Thyroid. 2017 Jul;27(7):953-959 [PMID: 28463597]
  4. Acta Cytol. 2010 Mar-Apr;54(2):123-31 [PMID: 20391966]
  5. Eur J Endocrinol. 2014 Apr 10;170(5):R203-11 [PMID: 24536085]
  6. Arch Pathol Lab Med. 2016 Dec;140(12):1338-1344 [PMID: 27557410]
  7. Surgery. 2010 Dec;148(6):1120-7; discussion 1127-8 [PMID: 21134542]
  8. J Ultrasound. 2019 Sep;22(3):315-321 [PMID: 30972642]
  9. J Clin Endocrinol Metab. 2019 Nov 1;104(11):5665-5672 [PMID: 31310316]
  10. Endocrine. 2016 May;52(2):313-21 [PMID: 26518189]
  11. Surg Pathol Clin. 2018 Sep;11(3):467-487 [PMID: 30190135]
  12. Best Pract Res Clin Endocrinol Metab. 2008 Dec;22(6):901-11 [PMID: 19041821]
  13. J Clin Endocrinol Metab. 2019 Jan 1;104(1):95-102 [PMID: 30299457]
  14. JAMA Surg. 2018 Sep 1;153(9):817-824 [PMID: 29799911]
  15. Eur Thyroid J. 2019 Apr;8(2):83-89 [PMID: 31192147]
  16. Thyroid. 2010 Feb;20(2):167-72 [PMID: 19725777]
  17. JAMA Oncol. 2016 Aug 1;2(8):1023-9 [PMID: 27078145]
  18. J Clin Endocrinol Metab. 2006 Sep;91(9):3411-7 [PMID: 16835280]
  19. Thyroid. 2009 Nov;19(11):1159-65 [PMID: 19888858]
  20. J Clin Endocrinol Metab. 2009 May;94(5):1748-51 [PMID: 19276237]
  21. J Clin Endocrinol Metab. 2013 Apr;98(4):1450-7 [PMID: 23436916]
  22. Am J Clin Pathol. 2018 Oct 1;150(5):451-460 [PMID: 30052723]
  23. Thyroid. 2015 May;25(5):538-50 [PMID: 25747526]
  24. Endocr Pract. 2017 Sep;23(9):1150-1155 [PMID: 28920749]
  25. J Clin Endocrinol Metab. 2010 Mar;95(3):1365-9 [PMID: 20130073]
  26. Thyroid. 2016 Jan;26(1):1-133 [PMID: 26462967]
  27. J Clin Endocrinol Metab. 2011 Nov;96(11):3390-7 [PMID: 21880806]
  28. Surgery. 2014 Jun;155(6):1006-13 [PMID: 24630147]

MeSH Term

Diagnosis, Differential
Disease Management
Female
Follow-Up Studies
Humans
Male
Margins of Excision
Middle Aged
Nomograms
Prognosis
Retrospective Studies
Risk Assessment
Thyroid Neoplasms
Thyroid Nodule
Thyroidectomy
Journal Article

Word Cloud

Created with Highcharts 10.0.0nodulesmodelriskthyroidmalignancymanagementclinicalnomogram0assessmentsurgicalovertreatmentreduceindeterminateultrasonographiccytologicvariablesmalignantoutcomeusedlogisticregressionapplicationdatasetsensitivityspecificityrespectivelyBACKGROUND:ThyroidlowprevalenceprovencancersbehaveaggressivelyThusrisk-stratificationcriticalstepavoidhypothesizedsystemsuperiorcurrentlyusecreatednumberclinicallyie"grayzone"concurrentlyconsideringrisksconferredMETHODS:ThyroidectomycasesreviewedthreeinstitutionsbenignversusevaluatecorrelationbinarytrainedusingBethesdaIIIIVresultsvalidatedscoringdesigneddemonstratepracticeRESULTS:Onehundredthirtythyroidectomies28%metinclusioncriteriafinalincludeddifficultyswallowinghypothyroidismechogenicityhypervascularitymarginscalcificationcytologydiagnosisinputparametershighlysuccessfuldeterminingpvalue:001RNagelkerkescore93areacurvedeterminedreceiveroperatingcharacteristics91accuracytraining93%92%96%validation80%91%67%CONCLUSIONS:reportpotentialsignificantlyindeterminatesillustrateviastraightforwardintegratesdatacancreateclearevidence-basedplanspatientsgrayzonenodules:Usingprovideguidepatientfine-needlebiopsyneoplasmsthyroidectomyultrasonography

Similar Articles

Cited By