BACKGROUND: The management of low-risk micropapillary thyroid cancer <1 cm in size has come into question, because recent data have shown that nonoperative active surveillance of micropapillary thyroid cancer is a viable alternative to hemithyroidectomy. We conducted a cost-effectiveness analysis to help decide between observation versus operation. METHODS: We constructed Markov models for active surveillance and hemithyroidectomy. The reference case was a 40-year-old patient with recently diagnosed, low-risk micropapillary thyroid cancer. Costs and health utilities were determined using extensive literature review. The willingness-to-pay threshold was set at $100,000/quality-adjusted life year gained. Deterministic and probabilistic sensitivity analyses were performed to account for uncertainty in the model's variables. RESULTS: Active surveillance is dominant (less expensive and more quality-adjusted life years) for a health utility <0.01 below that for disease-free, posthemithyroidectomy state, or for a remaining life expectancy of <2 years. For a utility difference ≥0.02, the incremental cost-effectiveness ratio (the ratio of the difference in costs between active surveillance and hemithyroidectomy divided by the difference in quality-adjusted life years) for hemithyroidectomy is <$100,000/QALY gained and thus cost-effective. For a utility difference of 0.11-the reference case scenario-the incremental cost-effectiveness ratio for hemithyroidectomy is $4,437/quality-adjusted life year gained. CONCLUSION: The cost-effectiveness of hemithyroidectomy is highly dependent on patient disutility associated with active surveillance. In patients who would associate nonoperative management with at least a modest decrement in quality of life, hemithyroidectomy is cost-effective. Published by Elsevier Inc.
BACKGROUND: The management of low-risk micropapillary thyroid cancer <1 cm in size has come into question, because recent data have shown that nonoperative active surveillance of micropapillary thyroid cancer is a viable alternative to hemithyroidectomy. We conducted a cost-effectiveness analysis to help decide between observation versus operation. METHODS: We constructed Markov models for active surveillance and hemithyroidectomy. The reference case was a 40-year-old patient with recently diagnosed, low-risk micropapillary thyroid cancer. Costs and health utilities were determined using extensive literature review. The willingness-to-pay threshold was set at $100,000/quality-adjusted life year gained. Deterministic and probabilistic sensitivity analyses were performed to account for uncertainty in the model's variables. RESULTS: Active surveillance is dominant (less expensive and more quality-adjusted life years) for a health utility <0.01 below that for disease-free, posthemithyroidectomy state, or for a remaining life expectancy of <2 years. For a utility difference ≥0.02, the incremental cost-effectiveness ratio (the ratio of the difference in costs between active surveillance and hemithyroidectomy divided by the difference in quality-adjusted life years) for hemithyroidectomy is <$100,000/QALY gained and thus cost-effective. For a utility difference of 0.11-the reference case scenario-the incremental cost-effectiveness ratio for hemithyroidectomy is $4,437/quality-adjusted life year gained. CONCLUSION: The cost-effectiveness of hemithyroidectomy is highly dependent on patient disutility associated with active surveillance. In patients who would associate nonoperative management with at least a modest decrement in quality of life, hemithyroidectomy is cost-effective. Published by Elsevier Inc.
Authors: Lisa M Lowenstein; Spyridon P Basourakos; Michelle D Williams; Patricia Troncoso; Justin R Gregg; Timothy C Thompson; Jeri Kim Journal: Nat Rev Clin Oncol Date: 2019-03 Impact factor: 66.675
Authors: Jae Hoon Moon; Ji Hoon Kim; Eun Kyung Lee; Kyu Eun Lee; Sung Hye Kong; Yeo Koon Kim; Woo Jin Jung; Chang Yoon Lee; Roh Eul Yoo; Yul Hwangbo; Young Shin Song; Min Joo Kim; Sun Wook Cho; Su Jin Kim; Eun Jae Jung; June Young Choi; Chang Hwan Ryu; You Jin Lee; Jeong Hun Hah; Yuh Seog Jung; Junsun Ryu; Yunji Hwang; Sue K Park; Ho Kyung Sung; Ka Hee Yi; Do Joon Park; Young Joo Park Journal: Endocrinol Metab (Seoul) Date: 2018-06