Your search keyword '"Pirzada, Amna"' showing total 10 results

1. 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

2. 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

3. 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

4. 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

5. Association of Thyroid Peroxidase Antibodies and Thyroglobulin Antibodies with Thyroid Function in Pregnancy: An Individual Participant Data Meta-Analysis

Author

Bliddal, Sofie, primary, Derakhshan, Arash, additional, Xiao, Yi, additional, Chen, Liang-Miao, additional, Männistö, Tuija, additional, Ashoor, Ghalia, additional, Tao, Fangbiao, additional, Brown, Suzanne J., additional, Vafeiadi, Marina, additional, Itoh, Sachiko, additional, Grineva, Elena Nikolaevna, additional, Taylor, Peter, additional, Ghafoor, Farkhanda, additional, Vaidya, Bijay, additional, Hattersley, Andrew, additional, Mosso, Lorena, additional, Oken, Emily, additional, Kishi, Reiko, additional, Alexander, Erik K., additional, Maraka, Spyridoula, additional, Huang, Kun, additional, Chaker, Layal, additional, Bassols, Judit, additional, Pirzada, Amna, additional, López-Bermejo, Abel, additional, Boucai, Laura, additional, Peeters, Robin P., additional, Pearce, Elizabeth N., additional, Nelson, Scott McGill, additional, Chatzi, Leda, additional, Vrijkotte, Tanja G., additional, Popova, Polina V., additional, Walsh, John P., additional, Nicolaides, Kypros H., additional, Suvanto, Eila, additional, Lu, Xuemian, additional, Pop, Victor J.M., additional, Forman, Julie Lyng, additional, Korevaar, Tim I.M., additional, and Feldt-Rasmussen, Ulla, additional

Published

2022

6. 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

7. Association of Thyroid Peroxidase Antibodies and Thyroglobulin Antibodies with Thyroid Function in Pregnancy:An Individual Participant Data Meta-Analysis

Author

Bliddal, Sofie, Derakhshan, Arash, Xiao, Yi, Chen, Liang-Miao, Mannisto, Tuija, Ashoor, Ghalia, Tao, Fangbiao, Brown, Suzanne J., Vafeiadi, Marina, Itoh, Sachiko, Grineva, Elena Nikolaevna, Taylor, Peter, Ghafoor, Farkhanda, Vaidya, Bijay, Hattersley, Andrew, Mosso, Lorena, Oken, Emily, Kishi, Reiko, Alexander, Erik K., Maraka, Spyridoula, Huang, Kun, Chaker, Layal, Bassols, Judit, Pirzada, Amna, Lopez-Bermejo, Abel, Boucai, Laura, Peeters, Robin P., Pearce, Elizabeth N., Nelson, Scott McGill, Chatzi, Leda, Vrijkotte, Tanja G., Popova, Polina V., Walsh, John P., Nicolaides, Kypros H., Suvanto, Eila, Lu, Xuemian, Pop, Victor J. M., Forman, Julie Lyng, Korevaar, Tim I. M., Feldt-Rasmussen, Ulla, Bliddal, Sofie, Derakhshan, Arash, Xiao, Yi, Chen, Liang-Miao, Mannisto, Tuija, Ashoor, Ghalia, Tao, Fangbiao, Brown, Suzanne J., Vafeiadi, Marina, Itoh, Sachiko, Grineva, Elena Nikolaevna, Taylor, Peter, Ghafoor, Farkhanda, Vaidya, Bijay, Hattersley, Andrew, Mosso, Lorena, Oken, Emily, Kishi, Reiko, Alexander, Erik K., Maraka, Spyridoula, Huang, Kun, Chaker, Layal, Bassols, Judit, Pirzada, Amna, Lopez-Bermejo, Abel, Boucai, Laura, Peeters, Robin P., Pearce, Elizabeth N., Nelson, Scott McGill, Chatzi, Leda, Vrijkotte, Tanja G., Popova, Polina V., Walsh, John P., Nicolaides, Kypros H., Suvanto, Eila, Lu, Xuemian, Pop, Victor J. M., Forman, Julie Lyng, Korevaar, Tim I. M., and Feldt-Rasmussen, Ulla

Abstract

Objectives: Thyroid autoimmunity is common in pregnant women and associated with thyroid dysfunction and adverse obstetric outcomes. Most studies focus on thyroid peroxidase antibodies (TPOAbs) assessed by a negative-positive dichotomy and rarely take into account thyroglobulin antibodies (TgAbs). This study aimed at determining the association of TPOAbs and TgAbs, respectively, and interdependently, with maternal thyroid function.Methods: This was a meta-analysis of individual participant cross-sectional data from 20 cohorts in the Consortium on Thyroid and Pregnancy. Women with multiple pregnancy, pregnancy by assisted reproductive technology, history of thyroid disease, or use of thyroid interfering medication were excluded. Associations of (log2) TPOAbs and TgAbs (with/without mutual adjustment) with cohort-specific z-scores of (log2) thyrotropin (TSH), free triiodothyronine (fT3), total triiodothyronine (TT3), free thyroxine (fT4), total thyroxine (TT4), or triiodothyronine:thyroxine (T3:T4) ratio were evaluated in a linear mixed model.Results: In total, 51,138 women participated (51,094 had TPOAb-data and 27,874 had TgAb-data). Isolated TPOAb positivity was present in 4.1% [95% confidence interval, CI: 3.0 to 5.2], isolated TgAb positivity in 4.8% [CI: 2.9 to 6.6], and positivity for both antibodies in 4.7% [CI: 3.1 to 6.3]. Compared with antibody-negative women, TSH was higher in women with isolated TPOAb positivity (z-score increment 0.40, CI: 0.16 to 0.64) and TgAb positivity (0.21, CI: 0.10 to 0.32), but highest in those positive for both antibodies (0.54, CI: 0.36 to 0.71). There was a dose-response effect of higher TPOAb and TgAb concentrations with higher TSH (TSH z-score increment for TPOAbs 0.12, CI: 0.09 to 0.15, TgAbs 0.08, CI: 0.02 to 0.15). When adjusting analyses for the other antibody, only the association of TPOAbs remained statistically significant. A higher TPOAb concentration was associated with lower fT4 (p < 0.001) and higher T3:T4 r

Published

2022

8. 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

9. Comparison of ureteroscopic pneumatic lithotripsy and extracorporeal shock wave lithotripsy for the management of proximal ureteral stones: A single center experience.

Author

Iqbal, Nadeem, Malik, Yashfeen, Nadeem, Utbah, Khalid, Maham, Pirzada, Amna, Majeed, Mehr, Malik, Hajra Arshad, and Akhter, Saeed

Subjects

LITHOTRIPSY, NONIONIZING radiation, MEDICAL care costs, SEPSIS, SURGICAL complications, DISEASE management, URINARY calculi, DATA analysis software, URETEROSCOPY, THERAPEUTICS

Abstract

Objective: To evaluate and compare the effectiveness of ureteroscopic (URS) pneumatic lithotripsy versus extracorporeal shock wave lithotripsy (ESWL) in the management of the proximal ureteral stones in terms of stone- free rates, complications and costs involved. Material and methods: We included 200 patients in Group 1 who underwent ESWL and 200 patients in Group 2 who underwent URS intervention. We used Modulith SL X lithotripter 3rd generation Storz medical for ESWL group while Swiss pneumatic lithoclast was used to break the stone in the URS group. Stone-free status was defined as stone fragment of less than 4 mm on follow- up kidney ureter and bladder X-ray after 3 months of procedure. SPSS version 16 was used for statistical analysis. Results: The mean age in ESWL and URS groups were 39.21±13.36, and 43.13±13.65 years respectively. Mean stone size was 10.47±3.7 mm (ESWL) and 13.6±6.6 mm (URS). Stone- free rate after single procedure was (125/200 patients) 62.5% for ESWL and (168/200 patients) 84% for URS group (p=0.001). Complications included post procedure sepsis in 3 (1.5%) patient of ESWL, while 7 (3.5%) patients of URS groups. Steinstrasse was seen in 4 (2%) patients of ESWL group. No mortality was seen in both groups. Mean costs for ESWL were US $320±50 while US $1100±150 for URS group (p=0.001). Conclusion: The stone-free rates after single procedure were significantly higher for the URS group while the complication rates were comparable in both groups. Treatment costs were significantly lower for the ESWL group. [ABSTRACT FROM AUTHOR]

Published

2018

10. Analysing the customer perspective in relation to supermarkets in the UK moving toward hybrid competitive strategies

Author

Pirzada, Amna and Pirzada, Amna

Abstract

The topic of competitive advantage has received much exploration from strategy theorists since the 20th century due to corporations wishing to distinguish themselves from rivals through the value propositions offered to customers. With much of the theory proposing competitive advantage will be achieved either through cost-leadership or differentiation, extensive research has been conducted in to this matter to determine whether strategic purity translates in to higher performance. While much research exists on this topic, there is a lack of research concerning the customer perception toward the pursue of hybrid strategies, as opposed to strategic purity. The supermarket industry in the U.K is the prime focus of this dissertation, due to the nature of the competition not only being vigorous, but also the result of supermarkets following different strategies, as proposed by the literature, to achieve competitive advantage. As the nature of the competition in this industry continues to intensify, a matter which is largely the result of the rise of the discount retailers following the strategy of cost- leadership – with key players being Aldi and Lidl - the importance of sustaining an established advantage is vital for the increase of market share. As a way to combat combination, supermarket in the UK have been moving closer to features of hybrid strategies, a notion which is strongly argued against by theory. Undertaking an industry analysis through descriptive studies will highlight key industrial trends which reflect erosion of strategic purity for Tesco, Sainsbury’s and Lidl. Rather than investigating whether supermarkets which adhere to the predictions of the literature that dictates following a single generic strategy as proposed by Porter will result in advantage, the core aim of this dissertation is to examine the customer perspective in relation to supermarkets in the UK moving away from their established strategic positions through combining aspects of both pr