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Multicenter Study
. 2024 Nov;99(11):2063-2074.
doi: 10.1002/ajh.27458. Epub 2024 Aug 13.

The seasonal distribution of immune thrombotic thrombocytopenic purpura is influenced by geography: Epidemiologic findings from a multi-center analysis of 719 disease episodes

Jeremy W Jacobs  1   2 Caroline G Stanek  3 Garrett S Booth  2 Argiris Symeonidis  4   5 Andrew W Shih  6   7 Elizabeth S Allen  8 Eleni Gavriilaki  9 Brenda J Grossman  10 Katerina Pavenski  11   12 Amy Moorehead  11 Flora Peyvandi  13   14 Pasquale Agosti  13   14 Ilaria Mancini  13 Laura D Stephens  8 Jay S Raval  15   16 Maria Eva Mingot-Castellano  17 Elizabeth P Crowe  18 Laetitia Daou  18 Menaka Pai  19   20 Donald M Arnold  20 Marisa B Marques  3 Ryan Henrie  21 Tyler W Smith  6   7 Gayatri Sreenivasan  21 Rance C Siniard  3 Lisa R Wallace  10 Chisa Yamada  22 Miriam Andrea Duque  23 Yanyun Wu  23 Thomas J Harrington  24 Diana M Byrnes  24 Aikaterini Bitsani  25 Amanda K Davis  26 Danielle H Robinson  26 Quentin Eichbaum  2 Cristina A Figueroa Villalba  27 Justin E Juskewitch  1 Georgia Kaiafa  28 Eleni Kapsali  29 Ellen Klapper  30 Ingrid Perez-Alvarez  30 Monica S Klein  1 Nikolaos Kotsiou  31 Chrysavgi Lalayanni  32 Evdokia Mandala  33 Fatima Aldarweesh  34 Rahaf Alkhateb  34 Lisandro Fortuny  35 Zois Mellios  36 Apostolia Papalexandri  32 Meredith G Parsons  37 Annette J Schlueter  37 Christopher A Tormey  27 Cameron Wellard  38 Erica M Wood  38   39 Shiyang Jia  38 Allison P Wheeler  2   40 Amy A Powers  41 Christopher B Webb  42 Sean G Yates  42 Raïda Bouzid  43 Paul Coppo  43   44 Evan M Bloch  18 Brian D Adkins  42
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Free article
Multicenter Study

The seasonal distribution of immune thrombotic thrombocytopenic purpura is influenced by geography: Epidemiologic findings from a multi-center analysis of 719 disease episodes

Jeremy W Jacobs et al. Am J Hematol. 2024 Nov.
Free article

Abstract

Prior studies have suggested that immune thrombotic thrombocytopenic purpura (iTTP) may display seasonal variation; however, methodologic limitations and sample sizes have diminished the ability to perform a rigorous assessment. This 5-year retrospective study assessed the epidemiology of iTTP and determined whether it displays a seasonal pattern. Patients with both initial and relapsed iTTP (defined as a disintegrin and metalloprotease with thrombospondin type motifs 13 activity <10%) from 24 tertiary centers in Australia, Canada, France, Greece, Italy, Spain, and the US were included. Seasons were defined as: Northern Hemisphere-winter (December-February); spring (March-May); summer (June-August); autumn (September-November) and Southern Hemisphere-winter (June-August); spring (September-November); summer (December-February); autumn (March-May). Additional outcomes included the mean temperature in months with and without an iTTP episode at each site. A total of 583 patients experienced 719 iTTP episodes. The observed proportion of iTTP episodes during the winter was significantly greater than expected if equally distributed across seasons (28.5%, 205/719, 25.3%-31.9%; p = .03). Distance from the equator and mean temperature deviation both positively correlated with the proportion of iTTP episodes during winter. Acute iTTP episodes were associated with the winter season and colder temperatures, with a second peak during summer. Occurrence during winter was most pronounced at sites further from the equator and/or with greater annual temperature deviations. Understanding the etiologies underlying seasonal patterns of disease may assist in discovery and development of future preventative therapies and inform models for resource utilization.

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