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3. Association between maternal thyroid function and risk of gestational hypertension and pre-eclampsia: a systematic review and individual-participant data meta-analysis

Author

Toloza, Freddy J K, Derakhshan, Arash, Männistö, Tuija, Bliddal, Sofie, Popova, Polina V, Carty, David M, Chen, Liangmiao, Taylor, Peter, Mosso, Lorena, Oken, Emily, Suvanto, Eila, Itoh, Sachiko, Kishi, Reiko, Bassols, Judit, Auvinen, Juha, López-Bermejo, Abel, Brown, Suzanne J, Boucai, Laura, Hisada, Aya, Yoshinaga, Jun, Shilova, Ekaterina, Grineva, Elena N, Vrijkotte, Tanja G M, Sunyer, Jordi, Jiménez-Zabala, Ana, Riaño-Galan, Isolina, Lopez-Espinosa, Maria-Jose, Prokop, Larry J, Singh Ospina, Naykky, Brito, Juan P, Rodriguez-Gutierrez, Rene, Alexander, Erik K, Chaker, Layal, Pearce, Elizabeth N, Peeters, Robin P, Feldt-Rasmussen, Ulla, Guxens, Mònica, Chatzi, Leda, Delles, Christian, Roeters van Lennep, Jeanine E, Pop, Victor J M, Lu, Xuemian, Walsh, John P, Nelson, Scott M, Korevaar, Tim I M, and Maraka, Spyridoula

Published
2022
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4. Defining Gestational Thyroid Dysfunction Through Modified Nonpregnancy Reference Intervals: An Individual Participant Meta-analysis.

Author

Osinga, Joris A J, Nelson, Scott M, Walsh, John P, Ashoor, Ghalia, Palomaki, Glenn E, López-Bermejo, Abel, Bassols, Judit, Aminorroaya, Ashraf, Broeren, Maarten A C, Chen, Liangmiao, Lu, Xuemian, Brown, Suzanne J, Veltri, Flora, Huang, Kun, Männistö, Tuija, Vafeiadi, Marina, Taylor, Peter N, Tao, Fang-Biao, Chatzi, Lida, and Kianpour, Maryam

Subjects
THYROID gland function tests, THYROID diseases, REFERENCE values, THYROTROPIN, HYPOTHYROIDISM, PLACENTAL growth factor
Abstract

Background Establishing local trimester-specific reference intervals for gestational TSH and free T4 (FT4) is often not feasible, necessitating alternative strategies. We aimed to systematically quantify the diagnostic performance of standardized modifications of center-specific nonpregnancy reference intervals as compared to trimester-specific reference intervals. Methods We included prospective cohorts participating in the Consortium on Thyroid and Pregnancy. After relevant exclusions, reference intervals were calculated per cohort in thyroperoxidase antibody-negative women. Modifications to the nonpregnancy reference intervals included an absolute modification (per.1 mU/L TSH or 1 pmol/L free T4), relative modification (in steps of 5%) and fixed limits (upper TSH limit between 3.0 and 4.5 mU/L and lower FT4 limit 5-15 pmol/L). We compared (sub)clinical hypothyroidism prevalence, sensitivity, and positive predictive value (PPV) of these methodologies with population-based trimester-specific reference intervals. Results The final study population comprised 52 496 participants in 18 cohorts. Optimal modifications of standard reference intervals to diagnose gestational overt hypothyroidism were −5% for the upper limit of TSH and +5% for the lower limit of FT4 (sensitivity,.70, CI, 0.47-0.86; PPV, 0.64, CI, 0.54-0.74). For subclinical hypothyroidism, these were −20% for the upper limit of TSH and −15% for the lower limit of FT4 (sensitivity, 0.91; CI, 0.67-0.98; PPV, 0.71, CI, 0.58-0.80). Absolute and fixed modifications yielded similar results. CIs were wide, limiting generalizability. Conclusion We could not identify modifications of nonpregnancy TSH and FT4 reference intervals that would enable centers to adequately approximate trimester-specific reference intervals. Future efforts should be turned toward studying the meaningfulness of trimester-specific reference intervals and risk-based decision limits. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Association of Gestational Free and Total Triiodothyronine With Gestational Hypertension, Preeclampsia, Preterm Birth, and Birth Weight:An Individual Participant Data Meta-analysis

Author

Derakhshan, Arash, Männistö, Tuija, Chen, Liangmiao, Osinga, Joris A.J., Ashoor, Ghalia, Lu, Xuemian, Bliddal, Sofie, Tao, Fang Biao, Brown, Suzanne J., Vaidya, Bijay, Hattersley, Andrew T., Itoh, Sachiko, Popova, Polina V., Aminorroaya, Ashraf, Kishi, Reiko, Kianpour, Maryam, Vasukova, Elena A., López-Bermejo, Abel, Oken, Emily, Chatzi, Leda, Vafeiadi, Marina, Bramer, Wichor M., Bassols, Judit, Lertxundi, Aitana, Fernández-Somoano, Ana, Carrasco, Paula, Auvinen, Juha, Huang, Kun, Feldt-Rasmussen, Ulla, Grineva, Elena N., Alexander, Erik K., Pearce, Elizabeth N., Chaker, Layal, Walsh, John P., Peeters, Robin P., Guxens, Mònica, Suvanto, Eila, Nicolaides, Kypros H., Korevaar, Tim I.M., Derakhshan, Arash, Männistö, Tuija, Chen, Liangmiao, Osinga, Joris A.J., Ashoor, Ghalia, Lu, Xuemian, Bliddal, Sofie, Tao, Fang Biao, Brown, Suzanne J., Vaidya, Bijay, Hattersley, Andrew T., Itoh, Sachiko, Popova, Polina V., Aminorroaya, Ashraf, Kishi, Reiko, Kianpour, Maryam, Vasukova, Elena A., López-Bermejo, Abel, Oken, Emily, Chatzi, Leda, Vafeiadi, Marina, Bramer, Wichor M., Bassols, Judit, Lertxundi, Aitana, Fernández-Somoano, Ana, Carrasco, Paula, Auvinen, Juha, Huang, Kun, Feldt-Rasmussen, Ulla, Grineva, Elena N., Alexander, Erik K., Pearce, Elizabeth N., Chaker, Layal, Walsh, John P., Peeters, Robin P., Guxens, Mònica, Suvanto, Eila, Nicolaides, Kypros H., and Korevaar, Tim I.M.

Abstract

Context: Triiodothyronine (T3) is the bioactive form of thyroid hormone. In contrast to thyroid-stimulating hormone and free thyroxine, we lack knowledge on the association of gestational T3 with adverse obstetric outcomes. Objective: To investigate the associaiton of gestational free or total T3 (FT3 or TT3) with adverse obstetric outcomes. Methods: We collected individual participant data from prospective cohort studies on gestational FT3 or TT3, adverse obstetric outcomes (preeclampsia, gestational hypertension, preterm birth and very preterm birth, small for gestational age [SGA], and large for gestational age [LGA]), and potential confounders. We used mixed-effects regression models adjusting for potential confounders. Results: The final study population comprised 33 118 mother–child pairs of which 27 331 had data on FT3 and 16 164 on TT3. There was a U-shaped association of FT3 with preeclampsia (P = .0069) and a J-shaped association with the risk of gestational hypertension (P = .029). Higher TT3 was associated with a higher risk of gestational hypertension (OR per SD of TT3 1.20, 95% CI 1.08 to 1.33; P = .0007). A lower TT3 but not FT3 was associated with a higher risk of very preterm birth (OR 0.72, 95% CI 0.55 to 0.94; P = .018). TT3 but not FT3 was positively associated with birth weight (mean difference per 1 SD increase in TT3 12.8, 95% CI 6.5 to 19.1 g, P < .0001) but there was no association with SGA or LGA. Conclusion: This study provides new insights on the association of gestational FT3 and TT3 with major adverse pregnancy outcomes that form the basis for future studies required to elucidate the effects of thyroid function on pregnancy outcomes. Based on the current study, routine FT3 or TT3 measurements for the assessment of thyroid function during pregnancy do not seem to be of added value in the risk assessment for adverse outcomes.

Published
2024

6. TSH and FT4 Reference Interval Recommendations and Prevalence of Gestational Thyroid Dysfunction: Quantification of Current Diagnostic Approaches

Author

Osinga, Joris J.A.J., Derakhshan, Arash, Feldt-Rasmussen, Ulla, Huang, Kun, Vrijkotte, Tanja T.G.M., Männistö, Tuija, Bassols, Judit, López-Bermejo, Abel, Aminorroaya, Ashraf, Vafeiadi, Marina, Broeren, Maarten M.A.C., Palomaki, Glenn G.E., Ashoor, Ghalia, Chen, Liangmiao, Lu, Xuemian, Taylor, Peter Nicholas, Tao, Fang Biao, Brown, Suzanne S.J., Sitoris, Georgiana, Chatzi, Lida, Vaidya, Bijay, Popova, Polina P.V., Vasukova, Elena E.A., Kianpour, Maryam, Suvanto, Eila, Grineva, Elena Nikolaevna, Hattersley, Andrew A.T., Pop, Victor V.J.M., Nelson, Scott S.M., Walsh, John J.P., Nicolaides, Kypros, D'Alton, Mary M.E., Poppe, Kris, Chaker, Layal, Bliddal, Sofie, Korevaar, Tim T.I.M., Osinga, Joris J.A.J., Derakhshan, Arash, Feldt-Rasmussen, Ulla, Huang, Kun, Vrijkotte, Tanja T.G.M., Männistö, Tuija, Bassols, Judit, López-Bermejo, Abel, Aminorroaya, Ashraf, Vafeiadi, Marina, Broeren, Maarten M.A.C., Palomaki, Glenn G.E., Ashoor, Ghalia, Chen, Liangmiao, Lu, Xuemian, Taylor, Peter Nicholas, Tao, Fang Biao, Brown, Suzanne S.J., Sitoris, Georgiana, Chatzi, Lida, Vaidya, Bijay, Popova, Polina P.V., Vasukova, Elena E.A., Kianpour, Maryam, Suvanto, Eila, Grineva, Elena Nikolaevna, Hattersley, Andrew A.T., Pop, Victor V.J.M., Nelson, Scott S.M., Walsh, John J.P., Nicolaides, Kypros, D'Alton, Mary M.E., Poppe, Kris, Chaker, Layal, Bliddal, Sofie, and Korevaar, Tim T.I.M.

Abstract

Context: Guidelines recommend use of population- and trimester-specific thyroid-stimulating hormone (TSH) and free thyroxine (FT4) reference intervals (RIs) in pregnancy. Since these are often unavailable, clinicians frequently rely on alternative diagnostic strategies. We sought to quantify the diagnostic consequences of current recommendations. Methods: We included cohorts participating in the Consortium on Thyroid and Pregnancy. Different approaches were used to define RIs: a TSH fixed upper limit of 4.0 mU/L (fixed limit approach), a fixed subtraction from the upper limit for TSH of 0.5 mU/L (subtraction approach) and using nonpregnancy RIs. Outcome measures were sensitivity and false discovery rate (FDR) of women for whom levothyroxine treatment was indicated and those for whom treatment would be considered according to international guidelines. Results: The study population comprised 52 496 participants from 18 cohorts. Compared with the use of trimester-specific RIs, alternative approaches had a low sensitivity (0.63-0.82) and high FDR (0.11-0.35) to detect women with a treatment indication or consideration. Sensitivity and FDR to detect a treatment indication in the first trimester were similar between the fixed limit, subtraction, and nonpregnancy approach (0.77-0.11 vs 0.74-0.16 vs 0.60-0.11). The diagnostic performance to detect overt hypothyroidism, isolated hypothyroxinemia, and (sub)clinical hyperthyroidism mainly varied between FT4 RI approaches, while the diagnostic performance to detect subclinical hypothyroidism varied between the applied TSH RI approaches. Conclusion: Alternative approaches to define RIs for TSH and FT4 in pregnancy result in considerable overdiagnosis and underdiagnosis compared with population- and trimester-specific RIs. Additional strategies need to be explored to optimize identification of thyroid dysfunction during pregnancy., SCOPUS: re.j, info:eu-repo/semantics/published

Published
2024

7. Defining Gestational Thyroid Dysfunction Through Modified Nonpregnancy Reference Intervals:An Individual Participant Meta-analysis

Author

Osinga, Joris A. J., Nelson, Scott M., Walsh, John P., Ashoor, Ghalia, Palomaki, Glenn E., Lopez-Bermejo, Abel, Bassols, Judit, Aminorroaya, Ashraf, Broeren, Maarten A. C., Chen, Liangmiao, Lu, Xuemian, Brown, Suzanne J., Veltri, Flora, Huang, Kun, Maennistoe, Tuija, Vafeiadi, Marina, Taylor, Peter N., Tao, Fang-Biao, Chatzi, Lida, Kianpour, Maryam, Suvanto, Eila, Grineva, Elena N., Nicolaides, Kypros H., D'Alton, Mary E., Poppe, Kris G., Alexander, Erik, Feldt-Rasmussen, Ulla, Bliddal, Sofie, Popova, Polina, Chaker, Layal, Visser, W. Edward, Peeters, Robin P., Derakhshan, Arash, Vrijkotte, Tanja G. M., Pop, Victor J. M., Korevaar, Tim I. M., Osinga, Joris A. J., Nelson, Scott M., Walsh, John P., Ashoor, Ghalia, Palomaki, Glenn E., Lopez-Bermejo, Abel, Bassols, Judit, Aminorroaya, Ashraf, Broeren, Maarten A. C., Chen, Liangmiao, Lu, Xuemian, Brown, Suzanne J., Veltri, Flora, Huang, Kun, Maennistoe, Tuija, Vafeiadi, Marina, Taylor, Peter N., Tao, Fang-Biao, Chatzi, Lida, Kianpour, Maryam, Suvanto, Eila, Grineva, Elena N., Nicolaides, Kypros H., D'Alton, Mary E., Poppe, Kris G., Alexander, Erik, Feldt-Rasmussen, Ulla, Bliddal, Sofie, Popova, Polina, Chaker, Layal, Visser, W. Edward, Peeters, Robin P., Derakhshan, Arash, Vrijkotte, Tanja G. M., Pop, Victor J. M., and Korevaar, Tim I. M.

Abstract

Background Establishing local trimester-specific reference intervals for gestational TSH and free T4 (FT4) is often not feasible, necessitating alternative strategies. We aimed to systematically quantify the diagnostic performance of standardized modifications of center-specific nonpregnancy reference intervals as compared to trimester-specific reference intervals.Methods We included prospective cohorts participating in the Consortium on Thyroid and Pregnancy. After relevant exclusions, reference intervals were calculated per cohort in thyroperoxidase antibody-negative women. Modifications to the nonpregnancy reference intervals included an absolute modification (per .1 mU/L TSH or 1 pmol/L free T4), relative modification (in steps of 5%) and fixed limits (upper TSH limit between 3.0 and 4.5 mU/L and lower FT4 limit 5-15 pmol/L). We compared (sub)clinical hypothyroidism prevalence, sensitivity, and positive predictive value (PPV) of these methodologies with population-based trimester-specific reference intervals.Results The final study population comprised 52 496 participants in 18 cohorts. Optimal modifications of standard reference intervals to diagnose gestational overt hypothyroidism were -5% for the upper limit of TSH and +5% for the lower limit of FT4 (sensitivity, .70, CI, 0.47-0.86; PPV, 0.64, CI, 0.54-0.74). For subclinical hypothyroidism, these were -20% for the upper limit of TSH and -15% for the lower limit of FT4 (sensitivity, 0.91; CI, 0.67-0.98; PPV, 0.71, CI, 0.58-0.80). Absolute and fixed modifications yielded similar results. CIs were wide, limiting generalizability.Conclusion We could not identify modifications of nonpregnancy TSH and FT4 reference intervals that would enable centers to adequately approximate trimester-specific reference intervals. Future efforts should be turned toward studying the meaningfulness of trimester-specific reference intervals and risk-based decision limits.

Published
2024

8. TSH and FT4 reference interval recommendations and prevalence of gestational thyroid dysfunction:quantification of current diagnostic approaches

Author

Osinga, Joris A J, Derakhshan, Arash, Feldt-Rasmussen, Ulla, Huang, Kun, Vrijkotte, Tanja G M, Männistö, Tuija, Bassols, Judit, López-Bermejo, Abel, Aminorroaya, Ashraf, Vafeiadi, Marina, Broeren, Maarten A C, Palomaki, Glenn E, Ashoor, Ghalia, Chen, Liangmiao, Lu, Xuemian, Taylor, Peter N, Tao, Fang-Biao, Brown, Suzanne J, Sitoris, Georgiana, Chatzi, Lida, Vaidya, Bijay, Popova, Polina V, Vasukova, Elena A, Kianpour, Maryam, Suvanto, Eila, Grineva, Elena N, Hattersley, Andrew, Pop, Victor J M, Nelson, Scott M, Walsh, John P, Nicolaides, Kypros H, D'Alton, Mary E, Poppe, Kris G, Chaker, Layal, Bliddal, Sofie, Korevaar, Tim I M, Osinga, Joris A J, Derakhshan, Arash, Feldt-Rasmussen, Ulla, Huang, Kun, Vrijkotte, Tanja G M, Männistö, Tuija, Bassols, Judit, López-Bermejo, Abel, Aminorroaya, Ashraf, Vafeiadi, Marina, Broeren, Maarten A C, Palomaki, Glenn E, Ashoor, Ghalia, Chen, Liangmiao, Lu, Xuemian, Taylor, Peter N, Tao, Fang-Biao, Brown, Suzanne J, Sitoris, Georgiana, Chatzi, Lida, Vaidya, Bijay, Popova, Polina V, Vasukova, Elena A, Kianpour, Maryam, Suvanto, Eila, Grineva, Elena N, Hattersley, Andrew, Pop, Victor J M, Nelson, Scott M, Walsh, John P, Nicolaides, Kypros H, D'Alton, Mary E, Poppe, Kris G, Chaker, Layal, Bliddal, Sofie, and Korevaar, Tim I M

Abstract

Context: Guidelines recommend use of population- and trimester-specific thyroid-stimulating hormone (TSH) and free thyroxine (FT4) reference intervals (RIs) in pregnancy. Since these are often unavailable, clinicians frequently rely on alternative diagnostic strategies. We sought to quantify the diagnostic consequences of current recommendations. Methods: We included cohorts participating in the Consortium on Thyroid and Pregnancy. Different approaches were used to define RIs: a TSH fixed upper limit of 4.0 mU/L (fixed limit approach), a fixed subtraction from the upper limit for TSH of 0.5 mU/L (subtraction approach) and using nonpregnancy RIs. Outcome measures were sensitivity and false discovery rate (FDR) of women for whom levothyroxine treatment was indicated and those for whom treatment would be considered according to international guidelines. Results: The study population comprised 52 496 participants from 18 cohorts. Compared with the use of trimester-specific RIs, alternative approaches had a low sensitivity (0.63-0.82) and high FDR (0.11-0.35) to detect women with a treatment indication or consideration. Sensitivity and FDR to detect a treatment indication in the first trimester were similar between the fixed limit, subtraction, and nonpregnancy approach (0.77-0.11 vs 0.74-0.16 vs 0.60-0.11). The diagnostic performance to detect overt hypothyroidism, isolated hypothyroxinemia, and (sub)clinical hyperthyroidism mainly varied between FT4 RI approaches, while the diagnostic performance to detect subclinical hypothyroidism varied between the applied TSH RI approaches. Conclusion: Alternative approaches to define RIs for TSH and FT4 in pregnancy result in considerable overdiagnosis and underdiagnosis compared with population- and trimester-specific RIs. Additional strategies need to be explored to optimize identification of thyroid dysfunction during pregnancy.

Published
2024

9. Risk Factors for Thyroid Dysfunction in Pregnancy:An Individual Participant Data Meta-Analysis

Author

Osinga, Joris A. J., Liu, Yindi, Männistö, Tuija, Vafeiadi, Marina, Tao, Fang-Biao, Vaidya, Bijay, Vrijkotte, Tanja G. M., Mosso, Lorena, Bassols, Judit, López-Bermejo, Abel, Boucai, Laura, Aminorroaya, Ashraf, Feldt-Rasmussen, Ulla, Hisada, Aya, Yoshinaga, Jun, Broeren, Maarten A. C., Itoh, Sachiko, Kishi, Reiko, Ashoor, Ghalia, Chen, Liangmiao, Veltri, Flora, Lu, Xuemian, Taylor, Peter N., Brown, Suzanne J., Chatzi, Leda, Popova, Polina V., Grineva, Elena N., Ghafoor, Farkhanda, Pirzada, Amna, Kianpour, Maryam, Oken, Emily, Suvanto, Eila, Hattersley, Andrew, Rebagliato, Marisa, Riaño-Galán, Isolina, Irizar, Amaia, Vrijheid, Martine, Delgado-Saborit, Juana Maria, Fernández-Somoano, Ana, Santa-Marina, Loreto, Boelaert, Kristien, Brenta, Gabriela, Dhillon-Smith, Rima, Dosiou, Chrysoula, Eaton, Jennifer L., Guan, Haixia, Lee, Sun Y., Maraka, Spyridoula, Morris-Wiseman, Lilah F., Nguyen, Caroline T., Shan, Zhongyan, Guxens, Mònica, Pop, Victor J. M., Walsh, John P., Nicolaides, Kypros H., D'Alton, Mary E., Visser, W. Edward, Carty, David M., Delles, Christian, Nelson, Scott M., Alexander, Erik K., Chaker, Layal, Palomaki, Glenn E., Peeters, Robin P., Bliddal, Sofie, Huang, Kun, Poppe, Kris G., Pearce, Elizabeth N., Derakhshan, Arash, Korevaar, Tim I. M., Osinga, Joris A. J., Liu, Yindi, Männistö, Tuija, Vafeiadi, Marina, Tao, Fang-Biao, Vaidya, Bijay, Vrijkotte, Tanja G. M., Mosso, Lorena, Bassols, Judit, López-Bermejo, Abel, Boucai, Laura, Aminorroaya, Ashraf, Feldt-Rasmussen, Ulla, Hisada, Aya, Yoshinaga, Jun, Broeren, Maarten A. C., Itoh, Sachiko, Kishi, Reiko, Ashoor, Ghalia, Chen, Liangmiao, Veltri, Flora, Lu, Xuemian, Taylor, Peter N., Brown, Suzanne J., Chatzi, Leda, Popova, Polina V., Grineva, Elena N., Ghafoor, Farkhanda, Pirzada, Amna, Kianpour, Maryam, Oken, Emily, Suvanto, Eila, Hattersley, Andrew, Rebagliato, Marisa, Riaño-Galán, Isolina, Irizar, Amaia, Vrijheid, Martine, Delgado-Saborit, Juana Maria, Fernández-Somoano, Ana, Santa-Marina, Loreto, Boelaert, Kristien, Brenta, Gabriela, Dhillon-Smith, Rima, Dosiou, Chrysoula, Eaton, Jennifer L., Guan, Haixia, Lee, Sun Y., Maraka, Spyridoula, Morris-Wiseman, Lilah F., Nguyen, Caroline T., Shan, Zhongyan, Guxens, Mònica, Pop, Victor J. M., Walsh, John P., Nicolaides, Kypros H., D'Alton, Mary E., Visser, W. Edward, Carty, David M., Delles, Christian, Nelson, Scott M., Alexander, Erik K., Chaker, Layal, Palomaki, Glenn E., Peeters, Robin P., Bliddal, Sofie, Huang, Kun, Poppe, Kris G., Pearce, Elizabeth N., Derakhshan, Arash, and Korevaar, Tim I. M.

Abstract

Background: International guidelines recommend targeted screening to identify gestational thyroid dysfunction. However, currently used risk factors have questionable discriminative ability. We quantified the risk for thyroid function test abnormalities for a subset of risk factors currently used in international guidelines. Methods: We included prospective cohort studies with data on gestational maternal thyroid function and potential risk factors (maternal age, body mass index [BMI], parity, smoking status, pregnancy through in vitro fertilization, twin pregnancy, gestational age, maternal education, and thyroid peroxidase antibody [TPOAb] or thyroglobulin antibody [TgAb] positivity). Exclusion criteria were pre-existing thyroid disease and use of thyroid interfering medication. We analyzed individual participant data using mixed-effects regression models. Primary outcomes were overt and subclinical hypothyroidism and a treatment indication (defined as overt hypothyroidism, subclinical hypothyroidism with thyrotropin >10 mU/L, or subclinical hypothyroidism with TPOAb positivity). Results: The study population comprised 65,559 participants in 25 cohorts. The screening rate in cohorts using risk factors currently recommended (age >30 years, parity ≥2, BMI ≥40) was 58%, with a detection rate for overt and subclinical hypothyroidism of 59%. The absolute risk for overt or subclinical hypothyroidism varied <2% over the full range of age and BMI and for any parity. Receiver operating characteristic curves, fitted using maternal age, BMI, smoking status, parity, and gestational age at blood sampling as explanatory variables, yielded areas under the curve ranging from 0.58 to 0.63 for the primary outcomes. TPOAbs/TgAbs positivity was associated with overt hypothyroidism (approximate risk for antibody negativity 0.1%, isolated TgAb positivity 2.4%, isolated TPOAb positivity 3.8%, combined antibody positivity 7.0%; p < 0.001), subclinical hypothyroidism (r, Background: International guidelines recommend targeted screening to identify gestational thyroid dysfunction. However, currently used risk factors have questionable discriminative ability. We quantified the risk for thyroid function test abnormalities for a subset of risk factors currently used in international guidelines. Methods: We included prospective cohort studies with data on gestational maternal thyroid function and potential risk factors (maternal age, body mass index [BMI], parity, smoking status, pregnancy through in vitro fertilization, twin pregnancy, gestational age, maternal education, and thyroid peroxidase antibody [TPOAb] or thyroglobulin antibody [TgAb] positivity). Exclusion criteria were pre-existing thyroid disease and use of thyroid interfering medication. We analyzed individual participant data using mixed-effects regression models. Primary outcomes were overt and subclinical hypothyroidism and a treatment indication (defined as overt hypothyroidism, subclinical hypothyroidism with thyrotropin >10 mU/L, or subclinical hypothyroidism with TPOAb positivity). Results: The study population comprised 65,559 participants in 25 cohorts. The screening rate in cohorts using risk factors currently recommended (age >30 years, parity ≥2, BMI ≥40) was 58%, with a detection rate for overt and subclinical hypothyroidism of 59%. The absolute risk for overt or subclinical hypothyroidism varied <2% over the full range of age and BMI and for any parity. Receiver operating characteristic curves, fitted using maternal age, BMI, smoking status, parity, and gestational age at blood sampling as explanatory variables, yielded areas under the curve ranging from 0.58 to 0.63 for the primary outcomes. TPOAbs/TgAbs positivity was associated with overt hypothyroidism (approximate risk for antibody negativity 0.1%, isolated TgAb positivity 2.4%, isolated TPOAb positivity 3.8%, combined antibody positivity 7.0%; p < 0.001), subclinical hypothyroidism (risk f

Published
2024

10. TSH and FT4 Reference Interval Recommendations and Prevalence of Gestational Thyroid Dysfunction:Quantification of Current Diagnostic Approaches

Author

Osinga, Joris A. J., Derakhshan, Arash, Feldt-Rasmussen, Ulla, Huang, Kun, Vrijkotte, Tanja G. M., Männistö, Tuija, Bassols, Judit, López-Bermejo, Abel, Aminorroaya, Ashraf, Vafeiadi, Marina, Broeren, Maarten A. C., Palomaki, Glenn E., Ashoor, Ghalia, Chen, Liangmiao, Lu, Xuemian, Taylor, Peter N., Tao, Fang-Biao, Brown, Suzanne J., Sitoris, Georgiana, Chatzi, Lida, Vaidya, Bijay, Popova, Polina V., Vasukova, Elena A., Kianpour, Maryam, Suvanto, Eila, Grineva, Elena N., Hattersley, Andrew, Pop, Victor J. M., Nelson, Scott M., Walsh, John P., Nicolaides, Kypros H., D'Alton, Mary E., Poppe, Kris G., Chaker, Layal, Bliddal, Sofie, Korevaar, Tim I. M., Osinga, Joris A. J., Derakhshan, Arash, Feldt-Rasmussen, Ulla, Huang, Kun, Vrijkotte, Tanja G. M., Männistö, Tuija, Bassols, Judit, López-Bermejo, Abel, Aminorroaya, Ashraf, Vafeiadi, Marina, Broeren, Maarten A. C., Palomaki, Glenn E., Ashoor, Ghalia, Chen, Liangmiao, Lu, Xuemian, Taylor, Peter N., Tao, Fang-Biao, Brown, Suzanne J., Sitoris, Georgiana, Chatzi, Lida, Vaidya, Bijay, Popova, Polina V., Vasukova, Elena A., Kianpour, Maryam, Suvanto, Eila, Grineva, Elena N., Hattersley, Andrew, Pop, Victor J. M., Nelson, Scott M., Walsh, John P., Nicolaides, Kypros H., D'Alton, Mary E., Poppe, Kris G., Chaker, Layal, Bliddal, Sofie, and Korevaar, Tim I. M.

Abstract

CONTEXT: Guidelines recommend use of population- and trimester-specific thyroid-stimulating hormone (TSH) and free thyroxine (FT4) reference intervals (RIs) in pregnancy. Since these are often unavailable, clinicians frequently rely on alternative diagnostic strategies. We sought to quantify the diagnostic consequences of current recommendations.METHODS: We included cohorts participating in the Consortium on Thyroid and Pregnancy. Different approaches were used to define RIs: a TSH fixed upper limit of 4.0 mU/L (fixed limit approach), a fixed subtraction from the upper limit for TSH of 0.5 mU/L (subtraction approach) and using nonpregnancy RIs. Outcome measures were sensitivity and false discovery rate (FDR) of women for whom levothyroxine treatment was indicated and those for whom treatment would be considered according to international guidelines.RESULTS: The study population comprised 52 496 participants from 18 cohorts. Compared with the use of trimester-specific RIs, alternative approaches had a low sensitivity (0.63-0.82) and high FDR (0.11-0.35) to detect women with a treatment indication or consideration. Sensitivity and FDR to detect a treatment indication in the first trimester were similar between the fixed limit, subtraction, and nonpregnancy approach (0.77-0.11 vs 0.74-0.16 vs 0.60-0.11). The diagnostic performance to detect overt hypothyroidism, isolated hypothyroxinemia, and (sub)clinical hyperthyroidism mainly varied between FT4 RI approaches, while the diagnostic performance to detect subclinical hypothyroidism varied between the applied TSH RI approaches.CONCLUSION: Alternative approaches to define RIs for TSH and FT4 in pregnancy result in considerable overdiagnosis and underdiagnosis compared with population- and trimester-specific RIs. Additional strategies need to be explored to optimize identification of thyroid dysfunction during pregnancy.

Published
2024

11. Association of maternal thyroid function with birthweight: a systematic review and individual-participant data meta-analysis

Author

Derakhshan, Arash, Peeters, Robin P, Taylor, Peter N, Bliddal, Sofie, Carty, David M, Meems, Margreet, Vaidya, Bijay, Chen, Liangmiao, Knight, Bridget A, Ghafoor, Farkhanda, Popova, Polina V, Mosso, Lorena, Oken, Emily, Suvanto, Eila, Hisada, Aya, Yoshinaga, Jun, Brown, Suzanne J, Bassols, Judit, Auvinen, Juha, Bramer, Wichor M, López-Bermejo, Abel, Dayan, Colin M, French, Robert, Boucai, Laura, Vafeiadi, Marina, Grineva, Elena N, Pop, Victor J M, Vrijkotte, Tanja G, Chatzi, Leda, Sunyer, Jordi, Jiménez-Zabala, Ana, Riaño, Isolina, Rebagliato, Marisa, Lu, Xuemian, Pirzada, Amna, Männistö, Tuija, Delles, Christian, Feldt-Rasmussen, Ulla, Alexander, Erik K, Nelson, Scott M, Chaker, Layal, Pearce, Elizabeth N, Guxens, Mònica, Steegers, Eric A P, Walsh, John P, and Korevaar, Tim I M

Published
2020
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12. Risk Factors for Thyroid Dysfunction in Pregnancy: An Individual Participant Data Meta-Analysis

Author

Osinga, Joris A.J., primary, Liu, Yindi, additional, Männistö, Tuija, additional, Vafeiadi, Marina, additional, Tao, Fang-Biao, additional, Vaidya, Bijay, additional, Vrijkotte, Tanja G.M., additional, Mosso, Lorena, additional, Bassols, Judit, additional, López-Bermejo, Abel, additional, Boucai, Laura, additional, Aminorroaya, Ashraf, additional, Feldt-Rasmussen, Ulla, additional, Hisada, Aya, additional, Yoshinaga, Jun, additional, Broeren, Maarten A.C., additional, Itoh, Sachiko, additional, Kishi, Reiko, additional, Ashoor, Ghalia, additional, Chen, Liangmiao, additional, Veltri, Flora, additional, Lu, Xuemian, additional, Taylor, Peter N., additional, Brown, Suzanne J., additional, Chatzi, Leda, additional, Popova, Polina V., additional, Grineva, Elena N., additional, Ghafoor, Farkhanda, additional, Pirzada, Amna, additional, Kianpour, Maryam, additional, Oken, Emily, additional, Suvanto, Eila, additional, Hattersley, Andrew, additional, Rebagliato, Marisa, additional, Riaño-Galán, Isolina, additional, Irizar, Amaia, additional, Vrijheid, Martine, additional, Delgado-Saborit, Juana Maria, additional, Fernández-Somoano, Ana, additional, Santa-Marina, Loreto, additional, Boelaert, Kristien, additional, Brenta, Gabriela, additional, Dhillon-Smith, Rima, additional, Dosiou, Chrysoula, additional, Eaton, Jennifer L., additional, Guan, Haixia, additional, Lee, Sun Y., additional, Maraka, Spyridoula, additional, Morris-Wiseman, Lilah F., additional, Nguyen, Caroline T., additional, Shan, Zhongyan, additional, Guxens, Mònica, additional, Pop, Victor J.M., additional, Walsh, John P., additional, Nicolaides, Kypros H., additional, D'Alton, Mary E., additional, Visser, W. Edward, additional, Carty, David M., additional, Delles, Christian, additional, Nelson, Scott M., additional, Alexander, Erik K., additional, Chaker, Layal, additional, Palomaki, Glenn E., additional, Peeters, Robin P., additional, Bliddal, Sofie, additional, Huang, Kun, additional, Poppe, Kris G., additional, Pearce, Elizabeth N., additional, Derakhshan, Arash, additional, and Korevaar, Tim I.M., additional

Published
2024
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14. Association of gestational free and total triiodothyronine with gestational hypertension, preeclampsia, preterm birth and birth weight: an individual-participant data meta-analysis

Author

Derakhshan, Arash, primary, Männistö, Tuija, additional, Chen, Liangmiao, additional, Osinga, Joris A J, additional, Ashoor, Ghalia, additional, Lu, Xuemian, additional, Bliddal, Sofie, additional, Tao, Fang-Biao, additional, Brown, Suzanne J, additional, Vaidya, Bijay, additional, Hattersley, Andrew T, additional, Itoh, Sachiko, additional, Popova, Polina V, additional, Aminorroaya, Ashraf, additional, Kishi, Reiko, additional, Kianpour, Maryam, additional, Vasukova, Elena A, additional, López-Bermejo, Abel, additional, Oken, Emily, additional, Chatzi, Leda, additional, Vafeiadi, Marina, additional, Bramer, Wichor M, additional, Bassols, Judit, additional, Lertxundi, Aitana, additional, Fernández-Somoano, Ana, additional, Carrasco, Paula, additional, Auvinen, Juha, additional, Huang, Kun, additional, Feldt-Rasmussen, Ulla, additional, Grineva, Elena N, additional, Alexander, Erik K, additional, Pearce, Elizabeth N, additional, Chaker, Layal, additional, Walsh, John P, additional, Peeters, Robin P, additional, Guxens, Mònica, additional, Suvanto, Eila, additional, Nicolaides, Kypros H, additional, and Korevaar, Tim I M, additional

Published
2023
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15. TSH and FT4 Reference Interval Recommendations and Prevalence of Gestational Thyroid Dysfunction: Quantification of Current Diagnostic Approaches

Author

Osinga, Joris A J, primary, Derakhshan, Arash, additional, Feldt-Rasmussen, Ulla, additional, Huang, Kun, additional, Vrijkotte, Tanja G M, additional, Männistö, Tuija, additional, Bassols, Judit, additional, López-Bermejo, Abel, additional, Aminorroaya, Ashraf, additional, Vafeiadi, Marina, additional, Broeren, Maarten A C, additional, Palomaki, Glenn E, additional, Ashoor, Ghalia, additional, Chen, Liangmiao, additional, Lu, Xuemian, additional, Taylor, Peter N, additional, Tao, Fang-Biao, additional, Brown, Suzanne J, additional, Sitoris, Georgiana, additional, Chatzi, Lida, additional, Vaidya, Bijay, additional, Popova, Polina V, additional, Vasukova, Elena A, additional, Kianpour, Maryam, additional, Suvanto, Eila, additional, Grineva, Elena N, additional, Hattersley, Andrew, additional, Pop, Victor J M, additional, Nelson, Scott M, additional, Walsh, John P, additional, Nicolaides, Kypros H, additional, D’Alton, Mary E, additional, Poppe, Kris G, additional, Chaker, Layal, additional, Bliddal, Sofie, additional, and Korevaar, Tim I M, additional

Published
2023
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16. TSH and FT4 Reference Interval Recommendations and Prevalence of Gestational Thyroid Dysfunction: Quantification of Current Diagnostic Approaches.

Author

Osinga, Joris A. J., Derakhshan, Arash, Feldt-Rasmussen, Ulla, Kun Huang, Vrijkotte, Tanja G. M., Männistö, Tuija, Bassols, Judit, López-Bermejo, Abel, Aminorroaya, Ashraf, Vafeiadi, Marina, Broeren, Maarten A. C., Palomaki, Glenn E., Ashoor, Ghalia, Chen, Liangmiao, Lu, Xuemian, Taylor, Peter N., Tao, Fang-Biao, Brown, Suzanne J., Sitoris, Georgiana, and Chatzi, Lida

Subjects
THYROTROPIN, DISEASE prevalence, PREGNANCY complications
Abstract

Context: Guidelines recommend use of population- and trimester-specific thyroid-stimulating hormone (TSH) and free thyroxine (FT4) reference intervals (RIs) in pregnancy. Since these are often unavailable, clinicians frequently rely on alternative diagnostic strategies. We sought to quantify the diagnostic consequences of current recommendations. Methods: We included cohorts participating in the Consortium on Thyroid and Pregnancy. Different approaches were used to define RIs: a TSH fixed upper limit of 4.0 mU/L (fixed limit approach), a fixed subtraction from the upper limit for TSH of 0.5 mU/L (subtraction approach) and using nonpregnancy RIs. Outcome measures were sensitivity and false discovery rate (FDR) of women for whom levothyroxine treatment was indicated and those for whom treatment would be considered according to international guidelines. Results: The study population comprised 52 496 participants from 18 cohorts. Compared with the use of trimester-specific RIs, alternative approaches had a low sensitivity (0.63-0.82) and high FDR (0.11-0.35) to detect women with a treatment indication or consideration. Sensitivity and FDR to detect a treatment indication in the first trimester were similar between the fixed limit, subtraction, and nonpregnancy approach (0.77-0.11 vs 0.74-0.16 vs 0.60-0.11). The diagnostic performance to detect overt hypothyroidism, isolated hypothyroxinemia, and (sub)clinical hyperthyroidism mainly varied between FT4 RI approaches, while the diagnostic performance to detect subclinical hypothyroidism varied between the applied TSH RI approaches. Conclusion: Alternative approaches to define RIs for TSH and FT4 in pregnancy result in considerable overdiagnosis and underdiagnosis compared with population- and trimester-specific RIs. Additional strategies need to be explored to optimize identification of thyroid dysfunction during pregnancy. [ABSTRACT FROM AUTHOR]

Published
2024
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17. Association of Thyroid Function Test Abnormalities and Thyroid Autoimmunity With Preterm Birth: A Systematic Review and Meta-analysis

Author

Korevaar, Tim I. M., Derakhshan, Arash, Taylor, Peter N., Meima, Marcel, Chen, Liangmiao, Bliddal, Sofie, Carty, David M., Meems, Margreet, Vaidya, Bijay, Shields, Beverley, Ghafoor, Farkhanda, Popova, Polina V., Mosso, Lorena, Oken, Emily, Suvanto, Eila, Hisada, Aya, Yoshinaga, Jun, Brown, Suzanne J., Bassols, Judith, Auvinen, Juha, Bramer, Wichor M., López-Bermejo, Abel, Dayan, Colin, Boucai, Laura, Vafeiadi, Marina, Grineva, Elena N., Tkachuck, Alexandra S., Pop, Victor J. M., Vrijkotte, Tanja G., Guxens, Mònica, Chatzi, Leda, Sunyer, Jordi, Jiménez-Zabala, Ana, Riaño, Isolina, Murcia, Mario, Lu, Xuemian, Mukhtar, Shafqat, Delles, Christian, Feldt-Rasmussen, Ulla, Nelson, Scott M., Alexander, Erik K., Chaker, Layal, Männistö, Tuija, Walsh, John P., Pearce, Elizabeth N., Steegers, Eric A. P., and Peeters, Robin P.

Published
2020
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18. Association of Gestational Free and Total Triiodothyronine With Gestational Hypertension, Preeclampsia, Preterm Birth, and Birth Weight: An Individual Participant Data Meta-analysis

Author

Derakhshan, Arash, Männistö, Tuija, Chen, Liangmiao, Osinga, Joris A J, Ashoor, Ghalia, Lu, Xuemian, Bliddal, Sofie, Tao, Fang-Biao, Brown, Suzanne J, Vaidya, Bijay, Hattersley, Andrew T, Itoh, Sachiko, Popova, Polina V, Aminorroaya, Ashraf, Kishi, Reiko, Kianpour, Maryam, Vasukova, Elena A, López-Bermejo, Abel, Oken, Emily, Chatzi, Leda, Vafeiadi, Marina, Bramer, Wichor M, Bassols, Judit, Lertxundi, Aitana, Fernández-Somoano, Ana, Carrasco, Paula, Auvinen, Juha, Huang, Kun, Feldt-Rasmussen, Ulla, Grineva, Elena N, Alexander, Erik K, Pearce, Elizabeth N, Chaker, Layal, Walsh, John P, Peeters, Robin P, Guxens, Mònica, Suvanto, Eila, Nicolaides, Kypros H, and Korevaar, Tim I M

Published
2024
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21. TSH and FT4 Reference Intervals in Pregnancy: A Systematic Review and Individual Participant Data Meta-Analysis

Author

Osinga, Joris A J, primary, Derakhshan, Arash, additional, Palomaki, Glenn E, additional, Ashoor, Ghalia, additional, Männistö, Tuija, additional, Maraka, Spyridoula, additional, Chen, Liangmiao, additional, Bliddal, Sofie, additional, Lu, Xuemian, additional, Taylor, Peter N, additional, Vrijkotte, Tanja G M, additional, Tao, Fang-Biao, additional, Brown, Suzanne J, additional, Ghafoor, Farkhanda, additional, Poppe, Kris, additional, Veltri, Flora, additional, Chatzi, Lida, additional, Vaidya, Bijay, additional, Broeren, Maarten A C, additional, Shields, Beverley M, additional, Itoh, Sachiko, additional, Mosso, Lorena, additional, Popova, Polina V, additional, Anopova, Anna D, additional, Kishi, Reiko, additional, Aminorroaya, Ashraf, additional, Kianpour, Maryam, additional, López-Bermejo, Abel, additional, Oken, Emily, additional, Pirzada, Amna, additional, Vafeiadi, Marina, additional, Bramer, Wichor M, additional, Suvanto, Eila, additional, Yoshinaga, Jun, additional, Huang, Kun, additional, Bassols, Judit, additional, Boucai, Laura, additional, Feldt-Rasmussen, Ulla, additional, Grineva, Elena N, additional, Pearce, Elizabeth N, additional, Alexander, Erik K, additional, Pop, Victor J M, additional, Nelson, Scott M, additional, Walsh, John P, additional, Peeters, Robin P, additional, Chaker, Layal, additional, Nicolaides, Kypros H, additional, D’Alton, Mary E, additional, and Korevaar, Tim I M, additional

Published
2022
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22. Association between maternal thyroid function and risk of gestational hypertension and pre-eclampsia:a systematic review and individual-participant data meta-analysis

Author

Toloza, Freddy J.K., Derakhshan, Arash, Männistö, Tuija, Bliddal, Sofie, Popova, Polina V., Carty, David M., Chen, Liangmiao, Taylor, Peter, Mosso, Lorena, Oken, Emily, Suvanto, Eila, Itoh, Sachiko, Kishi, Reiko, Bassols, Judit, Auvinen, Juha, López-Bermejo, Abel, Brown, Suzanne J., Boucai, Laura, Hisada, Aya, Yoshinaga, Jun, Shilova, Ekaterina, Grineva, Elena N., Vrijkotte, Tanja G.M., Sunyer, Jordi, Jiménez-Zabala, Ana, Riaño-Galan, Isolina, Lopez-Espinosa, Maria Jose, Prokop, Larry J., Singh Ospina, Naykky, Brito, Juan P., Rodriguez-Gutierrez, Rene, Alexander, Erik K., Chaker, Layal, Pearce, Elizabeth N., Peeters, Robin P., Feldt-Rasmussen, Ulla, Guxens, Mònica, Chatzi, Leda, Delles, Christian, Roeters van Lennep, Jeanine E., Pop, Victor J.M., Lu, Xuemian, Walsh, John P., Nelson, Scott M., Korevaar, Tim I.M., Maraka, Spyridoula, Toloza, Freddy J.K., Derakhshan, Arash, Männistö, Tuija, Bliddal, Sofie, Popova, Polina V., Carty, David M., Chen, Liangmiao, Taylor, Peter, Mosso, Lorena, Oken, Emily, Suvanto, Eila, Itoh, Sachiko, Kishi, Reiko, Bassols, Judit, Auvinen, Juha, López-Bermejo, Abel, Brown, Suzanne J., Boucai, Laura, Hisada, Aya, Yoshinaga, Jun, Shilova, Ekaterina, Grineva, Elena N., Vrijkotte, Tanja G.M., Sunyer, Jordi, Jiménez-Zabala, Ana, Riaño-Galan, Isolina, Lopez-Espinosa, Maria Jose, Prokop, Larry J., Singh Ospina, Naykky, Brito, Juan P., Rodriguez-Gutierrez, Rene, Alexander, Erik K., Chaker, Layal, Pearce, Elizabeth N., Peeters, Robin P., Feldt-Rasmussen, Ulla, Guxens, Mònica, Chatzi, Leda, Delles, Christian, Roeters van Lennep, Jeanine E., Pop, Victor J.M., Lu, Xuemian, Walsh, John P., Nelson, Scott M., Korevaar, Tim I.M., and Maraka, Spyridoula

Abstract

Background: Adequate maternal thyroid function is important for an uncomplicated pregnancy. Although multiple observational studies have evaluated the association between thyroid dysfunction and hypertensive disorders of pregnancy, the methods and definitions of abnormalities in thyroid function tests were heterogeneous, and the results were conflicting. We aimed to examine the association between abnormalities in thyroid function tests and risk of gestational hypertension and pre-eclampsia. Methods: In this systematic review and meta-analysis of individual-participant data, we searched MEDLINE (Ovid), Embase, Scopus, and the Cochrane Database of Systematic Reviews from date of inception to Dec 27, 2019, for prospective cohort studies with data on maternal concentrations of thyroid-stimulating hormone (TSH), free thyroxine (FT4), thyroid peroxidase (TPO) antibodies, individually or in combination, as well as on gestational hypertension, pre-eclampsia, or both. We issued open invitations to study authors to participate in the Consortium on Thyroid and Pregnancy and to share the individual-participant data. We excluded participants who had pre-existing thyroid disease or multifetal pregnancy, or were taking medications that affect thyroid function. The primary outcomes were documented gestational hypertension and pre-eclampsia. Individual-participant data were analysed using logistic mixed-effects regression models adjusting for maternal age, BMI, smoking, parity, ethnicity, and gestational age at blood sampling. The study protocol was registered with PROSPERO, CRD42019128585. Findings: We identified 1539 published studies, of which 33 cohorts met the inclusion criteria and 19 cohorts were included after the authors agreed to participate. Our study population comprised 46 528 pregnant women, of whom 39 826 (85·6%) women had sufficient data (TSH and FT4 concentrations and TPO antibody status) to be classified according to their thyroid function

Published
2022

23. TSH and FT4 Reference Intervals in Pregnancy:A Systematic Review and Individual Participant Data Meta-Analysis

Author

Osinga, Joris A.J., Derakhshan, Arash, Palomaki, Glenn E., Ashoor, Ghalia, Männistö, Tuija, Maraka, Spyridoula, Chen, Liangmiao, Bliddal, Sofie, Lu, Xuemian, Taylor, Peter N., Vrijkotte, Tanja G.M., Tao, Fang Biao, Brown, Suzanne J., Ghafoor, Farkhanda, Poppe, Kris, Veltri, Flora, Chatzi, Lida, Vaidya, Bijay, Broeren, Maarten A.C., Shields, Beverley M., Itoh, Sachiko, Mosso, Lorena, Popova, Polina V., Anopova, Anna D., Kishi, Reiko, Aminorroaya, Ashraf, Kianpour, Maryam, López-Bermejo, Abel, Oken, Emily, Pirzada, Amna, Vafeiadi, Marina, Bramer, Wichor M., Suvanto, Eila, Yoshinaga, Jun, Huang, Kun, Bassols, Judit, Boucai, Laura, Feldt-Rasmussen, Ulla, Grineva, Elena N., Pearce, Elizabeth N., Alexander, Erik K., Pop, Victor J.M., Nelson, Scott M., Walsh, John P., Peeters, Robin P., Chaker, Layal, Nicolaides, Kypros H., D'Alton, Mary E., Korevaar, Tim I.M., Osinga, Joris A.J., Derakhshan, Arash, Palomaki, Glenn E., Ashoor, Ghalia, Männistö, Tuija, Maraka, Spyridoula, Chen, Liangmiao, Bliddal, Sofie, Lu, Xuemian, Taylor, Peter N., Vrijkotte, Tanja G.M., Tao, Fang Biao, Brown, Suzanne J., Ghafoor, Farkhanda, Poppe, Kris, Veltri, Flora, Chatzi, Lida, Vaidya, Bijay, Broeren, Maarten A.C., Shields, Beverley M., Itoh, Sachiko, Mosso, Lorena, Popova, Polina V., Anopova, Anna D., Kishi, Reiko, Aminorroaya, Ashraf, Kianpour, Maryam, López-Bermejo, Abel, Oken, Emily, Pirzada, Amna, Vafeiadi, Marina, Bramer, Wichor M., Suvanto, Eila, Yoshinaga, Jun, Huang, Kun, Bassols, Judit, Boucai, Laura, Feldt-Rasmussen, Ulla, Grineva, Elena N., Pearce, Elizabeth N., Alexander, Erik K., Pop, Victor J.M., Nelson, Scott M., Walsh, John P., Peeters, Robin P., Chaker, Layal, Nicolaides, Kypros H., D'Alton, Mary E., and Korevaar, Tim I.M.

Abstract

CONTEXT: Interpretation of thyroid function tests during pregnancy is limited by the generalizability of reference intervals between cohorts due to inconsistent methodology. OBJECTIVE: (1) To provide an overview of published reference intervals for thyrotropin (TSH) and free thyroxine (FT4) in pregnancy, (2) to assess the consequences of common methodological between-study differences by combining raw data from different cohorts. METHODS: (1) Ovid MEDLINE, EMBASE, and Web of Science were searched until December 12, 2021. Studies were assessed in duplicate. (2) The individual participant data (IPD) meta-analysis was performed in participating cohorts in the Consortium on Thyroid and Pregnancy. RESULTS: (1) Large between-study methodological differences were identified, 11 of 102 included studies were in accordance with current guidelines; (2) 22 cohorts involving 63 198 participants were included in the meta-analysis. Not excluding thyroid peroxidase antibody-positive participants led to a rise in the upper limits of TSH in all cohorts, especially in the first (mean +17.4%; range +1.6 to +30.3%) and second trimester (mean +9.8%; range +0.6 to +32.3%). The use of the 95th percentile led to considerable changes in upper limits, varying from -10.8% to -21.8% for TSH and -1.2% to -13.2% for FT4. All other additional exclusion criteria changed reference interval cut-offs by a maximum of 3.5%. Applying these findings to the 102 studies included in the systematic review, 48 studies could be used in a clinical setting. CONCLUSION: We provide an overview of clinically relevant reference intervals for TSH and FT4 in pregnancy. The results of the meta-analysis indicate that future studies can adopt a simplified study setup without additional exclusion criteria.

Published
2022

25. Association of maternal thyroid function with birthweight:a systematic review and individual-participant data meta-analysis

Author

Derakhshan, Arash, Peeters, Robin P, Taylor, Peter N, Bliddal, Sofie, Carty, David M, Meems, Margreet, Vaidya, Bijay, Chen, Liangmiao, Knight, Bridget A, Ghafoor, Farkhanda, Popova, Polina V, Mosso, Lorena, Oken, Emily, Suvanto, Eila, Hisada, Aya, Yoshinaga, Jun, Brown, Suzanne J, Bassols, Judit, Auvinen, Juha, Bramer, Wichor M, López-Bermejo, Abel, Dayan, Colin M, French, Robert, Boucai, Laura, Vafeiadi, Marina, Grineva, Elena N, Pop, Victor J M, Vrijkotte, Tanja G, Chatzi, Leda, Sunyer, Jordi, Jiménez-Zabala, Ana, Riaño, Isolina, Rebagliato, Marisa, Lu, Xuemian, Pirzada, Amna, Männistö, Tuija, Delles, Christian, Feldt-Rasmussen, Ulla, Alexander, Erik K, Nelson, Scott M, Chaker, Layal, Pearce, Elizabeth N, Guxens, Mònica, Steegers, Eric A P, Walsh, John P, Korevaar, Tim I M, Derakhshan, Arash, Peeters, Robin P, Taylor, Peter N, Bliddal, Sofie, Carty, David M, Meems, Margreet, Vaidya, Bijay, Chen, Liangmiao, Knight, Bridget A, Ghafoor, Farkhanda, Popova, Polina V, Mosso, Lorena, Oken, Emily, Suvanto, Eila, Hisada, Aya, Yoshinaga, Jun, Brown, Suzanne J, Bassols, Judit, Auvinen, Juha, Bramer, Wichor M, López-Bermejo, Abel, Dayan, Colin M, French, Robert, Boucai, Laura, Vafeiadi, Marina, Grineva, Elena N, Pop, Victor J M, Vrijkotte, Tanja G, Chatzi, Leda, Sunyer, Jordi, Jiménez-Zabala, Ana, Riaño, Isolina, Rebagliato, Marisa, Lu, Xuemian, Pirzada, Amna, Männistö, Tuija, Delles, Christian, Feldt-Rasmussen, Ulla, Alexander, Erik K, Nelson, Scott M, Chaker, Layal, Pearce, Elizabeth N, Guxens, Mònica, Steegers, Eric A P, Walsh, John P, and Korevaar, Tim I M

Abstract

BACKGROUND: Adequate transplacental passage of maternal thyroid hormone is important for normal fetal growth and development. Maternal overt hypothyroidism and hyperthyroidism are associated with low birthweight, but important knowledge gaps remain regarding the effect of subclinical thyroid function test abnormalities on birthweight-both in general and during the late second and third trimester of pregnancy. The aim of this study was to examine associations of maternal thyroid function with birthweight.METHODS: In this systematic review and individual-participant data meta-analysis, we searched MEDLINE (Ovid), Embase, Web of Science, the Cochrane Central Register of Controlled Trials, and Google Scholar from inception to Oct 15, 2019, for prospective cohort studies with data on maternal thyroid function during pregnancy and birthweight, and we issued open invitations to identify study authors to join the Consortium on Thyroid and Pregnancy. We excluded participants with multiple pregnancies, in-vitro fertilisation, pre-existing thyroid disease or thyroid medication usage, miscarriages, and stillbirths. The main outcomes assessed were small for gestational age (SGA) neonates, large for gestational age neonates, and newborn birthweight. We analysed individual-participant data using mixed-effects regression models adjusting for maternal age, BMI, ethnicity, smoking, parity, gestational age at blood sampling, fetal sex, and gestational age at birth. The study protocol was pre-registered at the International Prospective Register of Systematic Reviews, CRD42016043496.FINDINGS: We identified 2526 published reports, from which 36 cohorts met the inclusion criteria. The study authors for 15 of these cohorts agreed to participate, and five more unpublished datasets were added, giving a study population of 48 145 mother-child pairs after exclusions, of whom 1275 (3·1%) had subclinical hypothyroidism (increased thyroid stimulating hormone [TSH] with normal fre

Published
2020

27. Interleukin‐1β augments the angiogenesis of endothelial progenitor cells in an NF‐κB/CXCR7‐dependent manner

Author

Fan, Xia, primary, He, Luqing, additional, Dai, Qiaoxia, additional, He, Junhong, additional, Chen, Xiangjuan, additional, Dai, Xiaozhen, additional, Zhang, Chi, additional, Sun, Da, additional, Meng, Xue, additional, Sun, Shiyue, additional, Huang, Jiameng, additional, Chen, Jun, additional, Lin, Lin, additional, Chen, Liangmiao, additional, Tan, Yi, additional, and Yan, Xiaoqing, additional

Published
2020
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28. Association of Thyroid Function Test Abnormalities and Thyroid Autoimmunity With Preterm Birth:A Systematic Review and Meta-analysis

Author

Korevaar, Tim I.M., Derakhshan, Arash, Taylor, Peter N, Meima, Marcel, Chen, Liangmiao, Bliddal, Sofie, Carty, David M, Meems, Margreet, Vaidya, Bijay, Shields, Beverley, Ghafoor, Farkhanda, Popova, Polina V, Mosso, Lorena, Oken, Emily, Suvanto, Eila, Hisada, Aya, Yoshinaga, Jun, Brown, Suzanne J, Bassols, Judit, Auvinen, Juha, Bramer, Wichor M, López-Bermejo, Abel, Dayan, Colin, Boucai, Laura, Vafeiadi, Marina, Grineva, Elena N, Tkachuck, Alexandra S, Pop, Victor J M, Vrijkotte, T G, Guxens, M, Chatzi, L, Sunyer, J, Jiménez-Zabala, A, Riaño, I, Murcia, M, Lu, X, Mukhtar, S, Delles, C, Feldt-Rasmussen, U, Nelson, S M, Alexander, E K, Chaker, L, Männistö, T, Walsh, J P, Pearce, E N, Steegers, E A P, Peeters, R P, Korevaar, Tim I.M., Derakhshan, Arash, Taylor, Peter N, Meima, Marcel, Chen, Liangmiao, Bliddal, Sofie, Carty, David M, Meems, Margreet, Vaidya, Bijay, Shields, Beverley, Ghafoor, Farkhanda, Popova, Polina V, Mosso, Lorena, Oken, Emily, Suvanto, Eila, Hisada, Aya, Yoshinaga, Jun, Brown, Suzanne J, Bassols, Judit, Auvinen, Juha, Bramer, Wichor M, López-Bermejo, Abel, Dayan, Colin, Boucai, Laura, Vafeiadi, Marina, Grineva, Elena N, Tkachuck, Alexandra S, Pop, Victor J M, Vrijkotte, T G, Guxens, M, Chatzi, L, Sunyer, J, Jiménez-Zabala, A, Riaño, I, Murcia, M, Lu, X, Mukhtar, S, Delles, C, Feldt-Rasmussen, U, Nelson, S M, Alexander, E K, Chaker, L, Männistö, T, Walsh, J P, Pearce, E N, Steegers, E A P, and Peeters, R P

Abstract

Importance: Maternal hypothyroidism and hyperthyroidism are risk factors for preterm birth. Milder thyroid function test abnormalities and thyroid autoimmunity are more prevalent, but it remains controversial if these are associated with preterm birth.Objective: To study if maternal thyroid function test abnormalities and thyroid autoimmunity are risk factors for preterm birth.Data Sources and Study Selection: Studies were identified through a search of the Ovid MEDLINE, EMBASE, Web of Science, the Cochrane Central Register of Controlled Trials, and Google Scholar databases from inception to March 18, 2018, and by publishing open invitations in relevant journals. Data sets from published and unpublished prospective cohort studies with data on thyroid function tests (thyrotropin [often referred to as thyroid-stimulating hormone or TSH] and free thyroxine [FT4] concentrations) or thyroid peroxidase (TPO) antibody measurements and gestational age at birth were screened for eligibility by 2 independent reviewers. Studies in which participants received treatment based on abnormal thyroid function tests were excluded.Data Extraction and Synthesis: The primary authors provided individual participant data that were analyzed using mixed-effects models.Main Outcomes and Measures: The primary outcome was preterm birth (<37 weeks' gestational age).Results: From 2526 published reports, 35 cohorts were invited to participate. After the addition of 5 unpublished data sets, a total of 19 cohorts were included. The study population included 47 045 pregnant women (mean age, 29 years; median gestational age at blood sampling, 12.9 weeks), of whom 1234 (3.1%) had subclinical hypothyroidism (increased thyrotropin concentration with normal FT4 concentration), 904 (2.2%) had isolated hypothyroxinemia (decreased FT4 concentration with normal thyrotropin concentration), and 3043 (7.5%) were TPO antibody positive; 2357 (5.0%) had a preterm birth. The

Published
2019

29. Association of Thyroid Function Test Abnormalities and Thyroid Autoimmunity With Preterm Birth: A Systematic Review and Meta-analysis.

Author

Korevaar, Tim I. M., Derakhshan, Arash, Taylor, Peter N., Meima, Marcel, Chen, Liangmiao, Bliddal, Sofie, Carty, David M., Meems, Margreet, Vaidya, Bijay, Shields, Beverley, Ghafoor, Farkhanda, Popova, Polina V., Mosso, Lorena, Oken, Emily, Suvanto, Eila, Hisada, Aya, Yoshinaga, Jun, Brown, Suzanne J., Bassols, Judith, and Auvinen, Juha

Abstract

Importance: Maternal hypothyroidism and hyperthyroidism are risk factors for preterm birth. Milder thyroid function test abnormalities and thyroid autoimmunity are more prevalent, but it remains controversial if these are associated with preterm birth.Objective: To study if maternal thyroid function test abnormalities and thyroid autoimmunity are risk factors for preterm birth.Data Sources and Study Selection: Studies were identified through a search of the Ovid MEDLINE, EMBASE, Web of Science, the Cochrane Central Register of Controlled Trials, and Google Scholar databases from inception to March 18, 2018, and by publishing open invitations in relevant journals. Data sets from published and unpublished prospective cohort studies with data on thyroid function tests (thyrotropin [often referred to as thyroid-stimulating hormone or TSH] and free thyroxine [FT4] concentrations) or thyroid peroxidase (TPO) antibody measurements and gestational age at birth were screened for eligibility by 2 independent reviewers. Studies in which participants received treatment based on abnormal thyroid function tests were excluded.Data Extraction and Synthesis: The primary authors provided individual participant data that were analyzed using mixed-effects models.Main Outcomes and Measures: The primary outcome was preterm birth (<37 weeks' gestational age).Results: From 2526 published reports, 35 cohorts were invited to participate. After the addition of 5 unpublished data sets, a total of 19 cohorts were included. The study population included 47 045 pregnant women (mean age, 29 years; median gestational age at blood sampling, 12.9 weeks), of whom 1234 (3.1%) had subclinical hypothyroidism (increased thyrotropin concentration with normal FT4 concentration), 904 (2.2%) had isolated hypothyroxinemia (decreased FT4 concentration with normal thyrotropin concentration), and 3043 (7.5%) were TPO antibody positive; 2357 (5.0%) had a preterm birth. The risk of preterm birth was higher for women with subclinical hypothyroidism than euthyroid women (6.1% vs 5.0%, respectively; absolute risk difference, 1.4% [95% CI, 0%-3.2%]; odds ratio [OR], 1.29 [95% CI, 1.01-1.64]). Among women with isolated hypothyroxinemia, the risk of preterm birth was 7.1% vs 5.0% in euthyroid women (absolute risk difference, 2.3% [95% CI, 0.6%-4.5%]; OR, 1.46 [95% CI, 1.12-1.90]). In continuous analyses, each 1-SD higher maternal thyrotropin concentration was associated with a higher risk of preterm birth (absolute risk difference, 0.2% [95% CI, 0%-0.4%] per 1 SD; OR, 1.04 [95% CI, 1.00-1.09] per 1 SD). Thyroid peroxidase antibody-positive women had a higher risk of preterm birth vs TPO antibody-negative women (6.6% vs 4.9%, respectively; absolute risk difference, 1.6% [95% CI, 0.7%-2.8%]; OR, 1.33 [95% CI, 1.15-1.56]).Conclusions and Relevance: Among pregnant women without overt thyroid disease, subclinical hypothyroidism, isolated hypothyroxinemia, and TPO antibody positivity were significantly associated with higher risk of preterm birth. These results provide insights toward optimizing clinical decision-making strategies that should consider the potential harms and benefits of screening programs and levothyroxine treatment during pregnancy. [ABSTRACT FROM AUTHOR]

Published
2019
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33. BL153 Partially Prevents High-Fat Diet Induced Liver Damage Probably via Inhibition of Lipid Accumulation, Inflammation, and Oxidative Stress

Author

Wang, Jian, primary, Zhang, Chi, additional, Zhang, Zhiguo, additional, Chen, Qiang, additional, Lu, Xuemian, additional, Shao, Minglong, additional, Chen, Liangmiao, additional, Yang, Hong, additional, Zhang, Fangfang, additional, Cheng, Peng, additional, Tan, Yi, additional, Kim, Ki-Soo, additional, Kim, Ki Ho, additional, Wang, Bochu, additional, and Kim, Young Heui, additional

Published
2014
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34. Attenuation of Hyperlipidemia- and Diabetes-Induced Early-Stage Apoptosis and Late-Stage Renal Dysfunction via Administration of Fibroblast Growth Factor-21 Is Associated with Suppression of Renal Inflammation

Author

Zhang, Chi, primary, Shao, Minglong, additional, Yang, Hong, additional, Chen, Liangmiao, additional, Yu, Lechu, additional, Cong, Weitao, additional, Tian, Haishan, additional, Zhang, Fangfang, additional, Cheng, Peng, additional, Jin, Litai, additional, Tan, Yi, additional, Li, Xiaokun, additional, Cai, Lu, additional, and Lu, Xuemian, additional

Published
2013
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35. Genetic analysis of ANXA5 haplotype and its effect on recurrent pregnancy loss.

Author

Cai, Zhuhua, Zheng, Xiuying, Chen, Yan, Chen, Fengdan, Chen, Liangmiao, and Deng, Xiaohui

Subjects
SINGLE nucleotide polymorphisms, REVERSE transcriptase polymerase chain reaction, WESTERN immunoblotting, RECURRENT miscarriage, HAPLOTYPES, GENE expression, PROMOTERS (Genetics)
Abstract

Recurrent pregnancy loss (RPL) is often associated with dysregulated Annexin A5 (ANXA5) expression. Moreover, the variants of Anxa5, a protein that is enriched in the placenta to prevent coagulation, have been reported to affect RPL risks. The haplotypes M1 [including single nucleotide polymorphisms (SNPs) 1A/C and 27T/C] and M2 (including SNPs 19G/A, 1A/C, 27T/C and 76G/A) of ANXA5 were also reported to affect RPL risks. The present study aimed to investigate the association between the haplotype located in the promoter region of ANXA5 and the risk of RPL. Patients with RPL (n=235) or intrauterine fetus death (IUFD; n=154), as well as healthy control subjects (n=375) were enrolled in the current research. Their haplotypes of ANXA5 were determined using genotyping, and the association between ANXA5 haplotypes and the risk of RPL was accordingly analyzed. A luciferase assay was conducted to investigate the haplotype responsible for ANXA5 activity. Reverse transcription-quantitative PCR, western blot analysis, immunohistochemistry and ELISA were performed to assess the expression level and activity of ANXA5 in patients with RPL. Consequently, the majority (n=214) of patients with RPL had a history of early RPL, whereas 31 patients with RPL had a history of both early and late RPL episodes. A significant difference was found between cases and controls in terms of gravidity and parity, whereas no significant differences were found in terms of age. The percentage of patients with RPL carrying the M2 haplotype of ANXA5 was significantly higher compared with that in control subjects, indicating that the M2 haplotype of ANXA5 was an independent risk of RPL as it influenced the transcription efficiency of ANXA5 promoter. In patients with RPL, ANXA5 activity was suppressed and the mRNA and protein expression levels of Anxa5 were decreased. Thus, the ANXA5 M2 haplotype may be an independent risk factor of RPL by affecting Anxa5 activity. [ABSTRACT FROM AUTHOR]

Published
2022

36. “Fatty” or “steatotic”: Position statement from a linguistic perspective by the Chinese-speaking community

Author

Miao, Lei, Ye, Shu-Mian, Fan, Jian-Gao, Seto, Wai-Kay, Yu, Hon Ho, Yu, Ming-Lung, Kao, Jia-Horng, Boon-Bee Goh, George, Young, Dan Yock, Wong, Yu Jun, Chan, Wah-Kheong, Yang, Wah, Jia, Jidong, Lau, George, Wei, Lai, Shi, Junping, Zhang, Huijie, Bi, Yan, Pik-Shan Kong, Alice, Pan, Calvin Q., Zheng, Ming-Hua, Liang, Huiqing, Yang, Ling, Li, Xinhua, Zeng, Qing-Lei, Gao, Rong, Hu, Songhao, Yan, Bi, Jin, Xiaozhi, Li, Gang, Chen, En-Qiang, Hu, Dandan, Fan, Xiaotang, Hu, Peng, Chang, Xiangrong, Jin, Yihui, Cai, Yijing, Chen, Liangmiao, Wen, Qianjun, Sun, Jian, Xu, Hexiang, Li, Junfeng, Yang, Yongping, Huang, Ang, Zhang, Dongmei, Tan, Lin, Li, Dongdong, Zhu, Yueyong, Cai, Chenxi, Gu, Xuemei, Shen, Jilong, Zhong, Jianhong, Li, Lu, Li, Zhenzhen, Ma, Chiye, Liu, Yaming, Zhang, Yimin, Zhao, Lei, Han, Juqiang, Chen, Tao, Zhang, Qiang, Yang, Song, Zhang, Le, Chen, Lanlan, Feng, Gong, Wang, Qixia, Hao, Kunyan, Lu, Qinghua, Mao, Yimin, Zhong, Yandan, Wang, Ningjian, Xin, Yongning, Yu, Yongtao, Qi, Xingshun, Wang, Ke, He, Yingli, Du, Mulong, Zou, Zhengsheng, Xia, Mingfeng, Zhao, Suxian, Zhao, Jingjie, Xie, Wen, Zhang, Yao, Ji, Mao, Richeng, Du, Qingwei, Chen, Haitao, Song, Yongfeng, Wang, Cunchuan, Lu, Yan, Song, Yu, Zhang, Chi, Shi, Li, Mak, Lungyi, Chen, Li, Xu, Liang, Yuan, Hai-Yang, Hong, Liang, Hai, Li, Wu, Xiaoning, Yang, Naibin, Li, Jing-Wei, Jiejin, Zou, Zhuolin, Zheng, Wen, Zhao, Jian, Zhang, Xiang, Huang, Chen-Xiao, Yao, Ying, Yuan, Bao-Hong, Huang, Shanshan, Min, Lian, Chai, Jin, Hong, Wandong, Miao, Kai-Wen, Xiao, Tie, Chen, Shun-Ping, Ye, Feng, Song, Yuhu, Zhang, Jinshun, Zhou, Xiao-Dong, Wang, Mingwei, Dai, Kai, Lou, Jianjun, Duan, Xu, Yu, Hongyan, Jin, Xi, Fu, Liyun, Zhang, Yanliang, Ye, Junzhao, Liu, Feng, Chen, Qin-Fen, Zhou, Yong-Hai, Duan, Xiaohua, Zhang, Qun, Zhang, Faming, Cao, Zhujun, Li, Yingxu, Sun, Dan-Qin, Hu, Ai-Rong, Liu, Fenghua, Chen, Yuanwen, Zhang, Dianbao, Gao, Feng, Ye, Hua, Rao, Huiying, Luo, Kaizhong, Dai, Zhijuan, Wang, Chia-Chi, Tang, Shanhong, Hua, Jing, Deng, Cunliang, Zhou, Ling, Fan, Yu-Chen, Wu, Mingyue, Lu, Hongyan, Zhang, Xiaoxun, Zhang, Huai, Ni, Yan, Kei Ng, Stephen Ka, Li, Chunming, Liu, Chang, Zhang, Xia, Shi, Yu, Yan, Hongmei, Xu, Jinghang, Zhou, Yu-Jie, Cheng, Yuan, Bai, Honglian, Hu, Xiang, Gao, Yufeng, Lin, Biaoyang, Gu, Guangxiang, Chen, Jin, Hu, Xiaoli, Yuan, Xiwei, Wang, Jie, Chen, Qiang, Yiling, Li, Zhu, Xiao Jia, Chen, Xu, Zhu, Yongfen, Liu, Xiaolin, Wang, Bing, Cai, Mingyan, Chen, Enguang, Chen, Jun, Chen, Jingshe, Deng, Hong, Chen, Xiaoxin, Chen, Yingxiao, Cheng, Xinran, Chen, Fei, Ding, Yang, Dong, Zhixia, Ding, Yanhua, Qingxian, Cai, Deng, Zerun, Cai, Tingchen, Chen, Yaxi, Chen, Zhongwei, Chen, Xing, Huang, Jiaofeng, Huang, Mingxing, Fu, Lei, Jin, Jianhong, Geng, Bin, Chen, Yu, Chen, Ruicong, Jin, Weimin, Li, Dongliang, Jin, Xianghong, Li, Jian-Jun, Zhang, Jie, Matsiyit, Alimjan, Wang, Guiqi, Gao, Tian, Zhang, Shu, Yan, Wenmao, Liu, Jie, Chen, Peng, Hu, Hao, Li, Ming, Yuan, Ping Ge, Chen, Yi, Dong, Zhiyong, Li, Xiaopeng, Lin, Su, Li, Jie, Li Ang, Xujing, Liu, Xin, Liu, Shousheng, Li, Min-Dian, Qian, Hui, Qi, Minghua, Peng, Liang, Luo, Fei, Dang, Shuangsuo, Mao, Xianhua, Sheng, Qiyue, Lyu, Jiaojian, Liu, Chenghai, Qi, Kemin, Ma, Honglei, Lu, Zhonghua, Pan, Qiong, Miao, Qing, Li, Xiaosong, Lin, Huapeng, Shui, Guanghou, Qu, Shen, Fei, Wang, Liu, Chang-Hai, Xia, Fan, Wang, Dan, Pan, Ziyan, Hu, Fangzheng, Xu, Long, Xiong, Qing-Fang, Yang, Rui-Xu, Wang, Qi, Chen, Ligang, W Ang, Danny, Ren, Wanhua, Tong, Xiaofei, You, Ningning, Xing, Yanqing, Sun, Chao, Yu, Zhuo, Shuangxu, Xu, Honghai, Sun, Yi, Zhang, Taotao, Wu, Wei, Zhang, Yingmei, Ye, Qing, Zhang, Zhongheng, Yan, Jie, Zhou, Bengjie, Liu, Weiqiang, Li, Yongguo, Zhao, Lili, Lei, Siyi, Zhu, Guangqi, Ouyang, Huang, Zhou, Yaoyao, Yin, Jianhui, Xia, Yongsheng, He, Qiancheng, Zhang, Xiaoyong, Yang, Qiao, Yao, Libin, Pan, Xiazhen, Wang, Xiaodong, Li, Yangyang, Zhu, Shenghao, Zhao, Xinyan, Chen, Sui-Dan, Zhu, Jiansheng, Zeng, Jing, Tang, Liangjie, Hu, Kunpeng, Yang, Wanshui, Huang, Bingyuan, Zhuang, Chengle, Xun, Yunhao, Zhou, Jianghua, Xu, Wenjing, Wu, Bian, Zhang, Xuewu, He, Yong, Mei, Zubing, Xia, Zefeng, Lu, Bin Feng, Li, Qiang, Li, Jia, Yan, Xuebing, Wen, Zhengrong, Liu, Wenyue, Xu, Dongsheng, Chen, Huiting, Wang, Jing, Song, Juan, Peng, Jie, Chen, Jionghuang, Li, Shuchen, Zheng, Yongping, Zhi-Zhi, Xing, Tang, Jieting, Liu, Chuan, Chen, Chao, Guicheng, Wu, Ye, Quanzhong, Ka, Li, Zhou, Yuping, Jia, Xiaoli, Zou, Ziyuan, Zu, Fuqiang, Cai, Yongqian, Chen, Yunzhi, Chu, Jinguo, Yan, Bing, Wang, Tie, Pan, Qiuwei, Xie, Lingling, Zeng, Xufen, Liu, Bingrong, Su, Minghua, Mu, Yibing, Zeng, Menghua, Guo, Yuntong, Yang, Yongfeng, Zhang, Xiaoguan, Wu, Shike, Pan, Jin-Shui, Cao, Li, Feng, Wenhuan, Yubin, Yang, Wang, Na, Lu, Xiaolan, Lu, Guanhua, Xiong, Jianbo, Zhuang, Jianbin, Shi, Guojun, Zhu, Yanfei, Ying, Xing, Qiao, Zengpei, Zhang, Rui, Li, Yuting, Lei, Yuanli, Xixi, Wu, Tian, Na, Lian, Liyou, Zhang, Binbin, Xiaozhu, Huang, Yan, Chen, Wenying, Liu, Kun, Zhang, Ruinan, Lai, Qintao, Wang, Fudi, Wen, Caiyun, Zhang, Xinlei, Wu, Lili, Liang, Yaqin, Jie, You, Xinzhejin, Zeng, Qiqiang, Zhu, Qiang, Chao, Zheng, Shou, Lan, Jin, Wei-Lin, Ye, Chenhui, Han, Yu, Xie, Gangqiao, Zhao, Jing, Ye, Chunyan, Wang, Hua, Song, Lintao, Feng, Juan, Huang, Yubei, Su, Wen, Bai, Juli, Wong, Vincent, Wang, Huifeng, Ming, Wai-Kit, Yu, Yue-Cheng, Jin, Yan, Zhao, Yan, Gao, Lilian, Liangwang, Chen, Hanbin, Ruifangwang, Tang, Yuhan, Chen, Gang, Liu, Dabin, Cai, Xiaobo, Xue, Feng, Yang, Qinhe, Sun, Guangyong, Zhu, Chunxia, Huang, Zhifeng, Zhou, Hongwen, Xiao, Xiao, Hou, Xin, He, Jie, Ji, Dong, Xiao, Huanming, Chi, Xiaoling, Zou, Huaibin, Shi, Yiwen, Fan, Xingliang, Hu, Xiaoyu, Huang, Zhouqin, Cao, Haixia, Jiang, Jingjing, Zhao, Qiang, Chen, Wei, Li, Shi Bo, Zhang, Fan, Chen, Zhiyun, Liu, Jinfeng, Li, Shibo, Liu, Jing, Li, Li, Li, Ruyu, Kun, Ya, Xiao, ErHui, Wang, Tingyao, Wang, Chunjiong, Aili, Aikebaier, Liu, Xiaoxia, Ding, Ran, Zhu, Chonggui, Zeng, Xin, Wu, Miao, Li, Zhen, Yang, Tao, Qin, Yunfei, Sun, Lihua, Xu, Ying, Fu, Xianghui, Li, Yongyin, and Ye, Shumian

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