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Osmotic gradient ektacytometry – a novel diagnostic approach for neuroacanthocytosis syndromes

Osmotic gradient ektacytometry – a novel diagnostic approach for neuroacanthocytosis syndromes
Osmotic gradient ektacytometry – a novel diagnostic approach for neuroacanthocytosis syndromes
Introduction: The unique red blood cell (RBC) properties that characterize the rare neuroacanthocytosis syndromes (NAS) have prompted the exploration of osmotic gradient ektacytometry (Osmoscan) as a diagnostic tool for these disorders. In this exploratory study, we assessed if Osmoscans can discriminate NAS from other neurodegenerative diseases.

Methods: A comprehensive assessment was conducted using Osmoscan on a diverse group of patients, including healthy controls (n = 9), neuroacanthocytosis syndrome patients (n = 6, 2 VPS13A and 4 XK disease), Parkinson’s disease patients (n = 6), Huntington’s disease patients (n = 5), and amyotrophic lateral sclerosis patients (n = 4). Concurrently, we collected and analyzed RBC indices and patients’ characteristics.

Results: Statistically significant changes were observed in NAS patients compared to healthy controls and other conditions, specifically in osmolality at minimal elongation index (Omin), maximal elongation index (EImax), the osmolality at half maximal elongation index in the hyperosmotic part of the curve (Ohyper), and the width of the curve close to the osmolality at maximal elongation index (Omax-width).

Discussion: This study represents an initial exploration of RBC properties from NAS patients using osmotic gradient ektacytometry. While specific parameters exhibited differences, only Ohyper and Omax-width yielded 100% specificity for other neurodegenerative diseases. Moreover, unique correlations between Osmoscan parameters and RBC indices in NAS versus controls were identified, such as osmolality at maximal elongation index (Omax) vs. mean cellular hemoglobin content (MCH) and minimal elongation index (EImin) vs. red blood cell distribution width (RDW). Given the limited sample size, further studies are essential to establish diagnostic guidelines based on these findings.
1662-4548
Hernández, Carolina A.
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Peikert, Kevin
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Qiao, Min
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Darras, Alexis
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de Wilde, Jonathan R.A.
bd4d9d5c-a2b3-4222-ad4f-2c23b170d030
Bos, Jennifer
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Leibowitz, Maya
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Galea, Ian
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Wagner, Christian
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Rab, Minke A.E.
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Walker, Ruth H.
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Hermann, Andreas
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van Beers, Eduard J.
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van Wijk, Richard
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Kaestner, Lars
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Hernández, Carolina A.
56017892-14f6-42e4-b179-8eb46ef5ef11
Peikert, Kevin
d5577d81-68b9-4235-8c8a-608fb6a3238e
Qiao, Min
d54b47a9-a218-4707-9cf6-8ac9ff4d6ac5
Darras, Alexis
2cb03d96-d55b-4b77-b36e-5d84a3c66b11
de Wilde, Jonathan R.A.
bd4d9d5c-a2b3-4222-ad4f-2c23b170d030
Bos, Jennifer
b07bf4d7-8e37-4262-8c54-97b8586bebe0
Leibowitz, Maya
6a760960-5387-4595-a436-469b402ce56e
Galea, Ian
66209a2f-f7e6-4d63-afe4-e9299f156f0b
Wagner, Christian
ef34153e-4045-43fb-a96b-d736f1306672
Rab, Minke A.E.
58855591-cbf7-4e1e-b84b-5f82797eafec
Walker, Ruth H.
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Hermann, Andreas
23e371b9-7acb-4a61-b2e9-d4eb03e968bb
van Beers, Eduard J.
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van Wijk, Richard
dc50714c-cd66-44bc-b370-ec5f5e778e7b
Kaestner, Lars
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Hernández, Carolina A., Peikert, Kevin, Qiao, Min, Darras, Alexis, de Wilde, Jonathan R.A., Bos, Jennifer, Leibowitz, Maya, Galea, Ian, Wagner, Christian, Rab, Minke A.E., Walker, Ruth H., Hermann, Andreas, van Beers, Eduard J., van Wijk, Richard and Kaestner, Lars (2024) Osmotic gradient ektacytometry – a novel diagnostic approach for neuroacanthocytosis syndromes. Frontiers in Neuroscience, 18. (doi:10.3389/fnins.2024.1406969). (In Press)

Record type: Article

Abstract

Introduction: The unique red blood cell (RBC) properties that characterize the rare neuroacanthocytosis syndromes (NAS) have prompted the exploration of osmotic gradient ektacytometry (Osmoscan) as a diagnostic tool for these disorders. In this exploratory study, we assessed if Osmoscans can discriminate NAS from other neurodegenerative diseases.

Methods: A comprehensive assessment was conducted using Osmoscan on a diverse group of patients, including healthy controls (n = 9), neuroacanthocytosis syndrome patients (n = 6, 2 VPS13A and 4 XK disease), Parkinson’s disease patients (n = 6), Huntington’s disease patients (n = 5), and amyotrophic lateral sclerosis patients (n = 4). Concurrently, we collected and analyzed RBC indices and patients’ characteristics.

Results: Statistically significant changes were observed in NAS patients compared to healthy controls and other conditions, specifically in osmolality at minimal elongation index (Omin), maximal elongation index (EImax), the osmolality at half maximal elongation index in the hyperosmotic part of the curve (Ohyper), and the width of the curve close to the osmolality at maximal elongation index (Omax-width).

Discussion: This study represents an initial exploration of RBC properties from NAS patients using osmotic gradient ektacytometry. While specific parameters exhibited differences, only Ohyper and Omax-width yielded 100% specificity for other neurodegenerative diseases. Moreover, unique correlations between Osmoscan parameters and RBC indices in NAS versus controls were identified, such as osmolality at maximal elongation index (Omax) vs. mean cellular hemoglobin content (MCH) and minimal elongation index (EImin) vs. red blood cell distribution width (RDW). Given the limited sample size, further studies are essential to establish diagnostic guidelines based on these findings.

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Accepted/In Press date: 15 May 2024
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Identifiers

Local EPrints ID: 492467
URI: http://eprints.soton.ac.uk/id/eprint/492467
DOI: doi:10.3389/fnins.2024.1406969
ISSN: 1662-4548
PURE UUID: 2ee0544d-1b9e-4ea8-a93c-21d6cf796e13
ORCID for Ian Galea: ORCID iD orcid.org/0000-0002-1268-5102

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Date deposited: 29 Jul 2024 16:57
Last modified: 30 Jul 2024 01:38

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Contributors

Author: Carolina A. Hernández
Author: Kevin Peikert
Author: Min Qiao
Author: Alexis Darras
Author: Jonathan R.A. de Wilde
Author: Jennifer Bos
Author: Maya Leibowitz
Author: Ian Galea ORCID iD
Author: Christian Wagner
Author: Minke A.E. Rab
Author: Ruth H. Walker
Author: Andreas Hermann
Author: Eduard J. van Beers
Author: Richard van Wijk
Author: Lars Kaestner

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