Anterior Pituitary Volume in Patients with Transfusion Dependent Anemias: Volumetric Approaches and Relation to Pituitary MRI‑R2

Christoph Berliner; Zhiyue J Wang; Sylvia T Singer; Regine Grosse; Rosalie V McDonough; Eric Padua; Qing Yuan; Marcela Weyhmiller; Ellen James; Elliott Vichinsky; Gerhard Adam; Jin Yamamura; Peter Bannas; Roland Fischer; Bjoern P Schoennagel

doi:10.1007/s00062-021-01111-4

Anterior Pituitary Volume in Patients with Transfusion Dependent Anemias: Volumetric Approaches and Relation to Pituitary MRI‑R2

Standard

Anterior Pituitary Volume in Patients with Transfusion Dependent Anemias: Volumetric Approaches and Relation to Pituitary MRI‑R2. / Berliner, Christoph; Wang, Zhiyue J; Singer, Sylvia T; Grosse, Regine; McDonough, Rosalie V; Padua, Eric; Yuan, Qing; Weyhmiller, Marcela; James, Ellen; Vichinsky, Elliott; Adam, Gerhard ; Yamamura, Jin ; Bannas, Peter; Fischer, Roland; Schoennagel, Bjoern P.

In: CLIN NEURORADIOL, Vol. 32, No. 1, 03.2022, p. 259-267.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Berliner, C, Wang, ZJ, Singer, ST, Grosse, R, McDonough, RV, Padua, E, Yuan, Q, Weyhmiller, M, James, E, Vichinsky, E, Adam, G , Yamamura, J , Bannas, P, Fischer, R & Schoennagel, BP 2022, 'Anterior Pituitary Volume in Patients with Transfusion Dependent Anemias: Volumetric Approaches and Relation to Pituitary MRI‑R2', CLIN NEURORADIOL, vol. 32, no. 1, pp. 259-267. https://doi.org/10.1007/s00062-021-01111-4

APA

Berliner, C., Wang, Z. J., Singer, S. T., Grosse, R., McDonough, R. V., Padua, E., Yuan, Q., Weyhmiller, M., James, E., Vichinsky, E., Adam, G., Yamamura, J., Bannas, P., Fischer, R., & Schoennagel, B. P. (2022). Anterior Pituitary Volume in Patients with Transfusion Dependent Anemias: Volumetric Approaches and Relation to Pituitary MRI‑R2. CLIN NEURORADIOL, 32(1), 259-267. https://doi.org/10.1007/s00062-021-01111-4

Vancouver

Berliner C, Wang ZJ, Singer ST, Grosse R, McDonough RV, Padua E et al. Anterior Pituitary Volume in Patients with Transfusion Dependent Anemias: Volumetric Approaches and Relation to Pituitary MRI‑R2. CLIN NEURORADIOL. 2022 Mar;32(1):259-267. https://doi.org/10.1007/s00062-021-01111-4

Bibtex

@article{379404fa69c94447aa4c94f0673cf900,

title = "Anterior Pituitary Volume in Patients with Transfusion Dependent Anemias: Volumetric Approaches and Relation to Pituitary MRI‑R2",

abstract = "PURPOSE: Anterior pituitary iron overload and volume shrinkage is common in patients with transfusion-dependent anemia and associated with growth retardation and hypogonadotropic hypogonadism. We investigated the accuracy of different MRI-based pituitary volumetric approaches and the relationship between pituitary volume and MRI-R2, particularly with respect to growth and hypogonadism.METHODS: In 43 patients with transfusion-dependent anemia (12-38 years) and 32 healthy controls (12-72 years), anterior pituitary volume was measured by a sagittal T1 GRE 3D sequence at 1.5T and analyzed by 3D semi-automated threshold volumetry (3D-volumetry). This reference method was compared with planimetric 2D-volumetry, approximate volume calculations, and pituitary height. Using a multiple SE sequence, pituitary iron as MRI-R2 was assessed by fitting proton signal intensities to echo times. Growth and hypogonadism were obtained from height percentile tables and patients' medical charts. From body surface area and age adjusted anterior pituitary volumes of controls, Z‑scores were calculated for all subjects. Separation of controls and patients with respect to Z and pituitary R2 was performed by bivariate linear discriminant analysis.RESULTS: Tuned 2D volumes showed highest agreement with reference 3D-volumes (bias -4.8%; 95% CI:-8.8%|-0.7%). A linear discriminant equation of Z = -17.8 + 1.45 · R2 revealed optimum threshold sensitivity and specificity of 65% and 100% for discrimination of patients from controls, respectively. Of correctly classified patients 71% and 75% showed hypogonadism and growth retardation, respectively.CONCLUSION: Accurate assessment of anterior pituitary size requires 3D or precise 2D volumetry, with shorter analysis time for the latter. Anterior pituitary volume Z‑scores and R2 allow for the identification of patients at risk of pituitary dysfunction.",

author = "Christoph Berliner and Wang, {Zhiyue J} and Singer, {Sylvia T} and Regine Grosse and McDonough, {Rosalie V} and Eric Padua and Qing Yuan and Marcela Weyhmiller and Ellen James and Elliott Vichinsky and Gerhard Adam and Jin Yamamura and Peter Bannas and Roland Fischer and Schoennagel, {Bjoern P}",

note = "{\textcopyright} 2021. The Author(s).",

year = "2022",

month = mar,

doi = "10.1007/s00062-021-01111-4",

language = "English",

volume = "32",

pages = "259--267",

journal = "CLIN NEURORADIOL",

issn = "1869-1439",

publisher = "Springer Heidelberg",

number = "1",

}

RIS

TY - JOUR

T1 - Anterior Pituitary Volume in Patients with Transfusion Dependent Anemias: Volumetric Approaches and Relation to Pituitary MRI‑R2

AU - Berliner, Christoph

AU - Wang, Zhiyue J

AU - Singer, Sylvia T

AU - Grosse, Regine

AU - McDonough, Rosalie V

AU - Padua, Eric

AU - Yuan, Qing

AU - Weyhmiller, Marcela

AU - James, Ellen

AU - Vichinsky, Elliott

AU - Adam, Gerhard

AU - Yamamura, Jin

AU - Bannas, Peter

AU - Fischer, Roland

AU - Schoennagel, Bjoern P

PY - 2022/3

Y1 - 2022/3

N2 - PURPOSE: Anterior pituitary iron overload and volume shrinkage is common in patients with transfusion-dependent anemia and associated with growth retardation and hypogonadotropic hypogonadism. We investigated the accuracy of different MRI-based pituitary volumetric approaches and the relationship between pituitary volume and MRI-R2, particularly with respect to growth and hypogonadism.METHODS: In 43 patients with transfusion-dependent anemia (12-38 years) and 32 healthy controls (12-72 years), anterior pituitary volume was measured by a sagittal T1 GRE 3D sequence at 1.5T and analyzed by 3D semi-automated threshold volumetry (3D-volumetry). This reference method was compared with planimetric 2D-volumetry, approximate volume calculations, and pituitary height. Using a multiple SE sequence, pituitary iron as MRI-R2 was assessed by fitting proton signal intensities to echo times. Growth and hypogonadism were obtained from height percentile tables and patients' medical charts. From body surface area and age adjusted anterior pituitary volumes of controls, Z‑scores were calculated for all subjects. Separation of controls and patients with respect to Z and pituitary R2 was performed by bivariate linear discriminant analysis.RESULTS: Tuned 2D volumes showed highest agreement with reference 3D-volumes (bias -4.8%; 95% CI:-8.8%|-0.7%). A linear discriminant equation of Z = -17.8 + 1.45 · R2 revealed optimum threshold sensitivity and specificity of 65% and 100% for discrimination of patients from controls, respectively. Of correctly classified patients 71% and 75% showed hypogonadism and growth retardation, respectively.CONCLUSION: Accurate assessment of anterior pituitary size requires 3D or precise 2D volumetry, with shorter analysis time for the latter. Anterior pituitary volume Z‑scores and R2 allow for the identification of patients at risk of pituitary dysfunction.

AB - PURPOSE: Anterior pituitary iron overload and volume shrinkage is common in patients with transfusion-dependent anemia and associated with growth retardation and hypogonadotropic hypogonadism. We investigated the accuracy of different MRI-based pituitary volumetric approaches and the relationship between pituitary volume and MRI-R2, particularly with respect to growth and hypogonadism.METHODS: In 43 patients with transfusion-dependent anemia (12-38 years) and 32 healthy controls (12-72 years), anterior pituitary volume was measured by a sagittal T1 GRE 3D sequence at 1.5T and analyzed by 3D semi-automated threshold volumetry (3D-volumetry). This reference method was compared with planimetric 2D-volumetry, approximate volume calculations, and pituitary height. Using a multiple SE sequence, pituitary iron as MRI-R2 was assessed by fitting proton signal intensities to echo times. Growth and hypogonadism were obtained from height percentile tables and patients' medical charts. From body surface area and age adjusted anterior pituitary volumes of controls, Z‑scores were calculated for all subjects. Separation of controls and patients with respect to Z and pituitary R2 was performed by bivariate linear discriminant analysis.RESULTS: Tuned 2D volumes showed highest agreement with reference 3D-volumes (bias -4.8%; 95% CI:-8.8%|-0.7%). A linear discriminant equation of Z = -17.8 + 1.45 · R2 revealed optimum threshold sensitivity and specificity of 65% and 100% for discrimination of patients from controls, respectively. Of correctly classified patients 71% and 75% showed hypogonadism and growth retardation, respectively.CONCLUSION: Accurate assessment of anterior pituitary size requires 3D or precise 2D volumetry, with shorter analysis time for the latter. Anterior pituitary volume Z‑scores and R2 allow for the identification of patients at risk of pituitary dysfunction.

U2 - 10.1007/s00062-021-01111-4

DO - 10.1007/s00062-021-01111-4

M3 - SCORING: Journal article

C2 - 34709410

VL - 32

SP - 259

EP - 267

JO - CLIN NEURORADIOL

JF - CLIN NEURORADIOL

SN - 1869-1439

IS - 1

ER -