Haptoglobin Treatment for Aneurysmal Subarachnoid Hemorrhage: Review and Expert Consensus on Clinical Translation

Ian Galea; Soham Bandyopadhyay; Diederik Bulters; Rok Humar; Michael Hugelshofer; Dominik J. Schaer; Amr Abdulazim; Andrew F. Alalade; Sheila A. Alexander; Sergi Amaro; Sepideh Amin-Hanjani; Christopher R. Andersen; Craig Anderson; Matthew H. Anstey; József Balla; Nourou Dine Adeniran Bankole; Judith Bellapart; Hemant Bhagat; Spiros L. Blackburn; Markus Brechmann; P. W. Buehler; Jan Karl Burkhardt; Yujie Chen; Jeremy Cohen; P. David Cooper; Liam G. Coulthard; Elisa Cuadrado-Godia; Joan Dalton; Anthony Delaney; Sylvain Doré; Jonathan Downer; Justin Dye; Isabel Fernandez-Perez; Oliver Flower; Béla Fülesdi; Ben Gaastra; Thomas Gaberel; James Galea; Gbetoho Fortuné Gankpe; Patrick Garland; Thomas Gentinetta; Magnus Gram; Jonas Heilskov Graversen; Patrick J. Grover; Daniel Guisado-Alonso; David Hasan; Adel Helmy; Luca Regli; Ynte Marije Ruigrok; Mervyn D.I. Vergouwen

doi:10.1161/STROKEAHA.123.040205

Haptoglobin Treatment for Aneurysmal Subarachnoid Hemorrhage: Review and Expert Consensus on Clinical Translation

Ian Galea^*
, Soham Bandyopadhyay
, Diederik Bulters
, Rok Humar
, Michael Hugelshofer
, Dominik J. Schaer
, Amr Abdulazim
, Andrew F. Alalade
, Sheila A. Alexander
, Sergi Amaro
, Sepideh Amin-Hanjani
, Christopher R. Andersen
, Craig Anderson
, Matthew H. Anstey
, József Balla
, Nourou Dine Adeniran Bankole
, Judith Bellapart
, Hemant Bhagat
, Spiros L. Blackburn
, Markus Brechmann

P. W. Buehler, Jan Karl Burkhardt, Yujie Chen, Jeremy Cohen, P. David Cooper, Liam G. Coulthard, Elisa Cuadrado-Godia, Joan Dalton, Anthony Delaney, Sylvain Doré, Jonathan Downer, Justin Dye, Isabel Fernandez-Perez, Oliver Flower, Béla Fülesdi, Ben Gaastra, Thomas Gaberel, James Galea, Gbetoho Fortuné Gankpe, Patrick Garland, Thomas Gentinetta, Magnus Gram, Jonas Heilskov Graversen, Patrick J. Grover, Daniel Guisado-Alonso, David Hasan, Adel Helmy, Luca Regli, Ynte Marije Ruigrok, Mervyn D.I. Vergouwen

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

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Abstract

Aneurysmal subarachnoid hemorrhage (aSAH) is a devastating form of stroke frequently affecting young to middle-aged adults, with an unmet need to improve outcome. This special report focusses on the development of intrathecal haptoglobin supplementation as a treatment by reviewing current knowledge and progress, arriving at a Delphi-based global consensus regarding the pathophysiological role of extracellular hemoglobin and research priorities for clinical translation of hemoglobin-scavenging therapeutics. After aneurysmal subarachnoid hemorrhage, erythrocyte lysis generates cell-free hemoglobin in the cerebrospinal fluid, which is a strong determinant of secondary brain injury and long-term clinical outcome. Haptoglobin is the body's first-line defense against cell-free hemoglobin by binding it irreversibly, preventing translocation of hemoglobin into the brain parenchyma and nitric oxide-sensitive functional compartments of cerebral arteries. In mouse and sheep models, intraventricular administration of haptoglobin reversed hemoglobin-induced clinical, histological, and biochemical features of human aneurysmal subarachnoid hemorrhage. Clinical translation of this strategy imposes unique challenges set by the novel mode of action and the anticipated need for intrathecal drug administration, necessitating early input from stakeholders. Practising clinicians (n=72) and scientific experts (n=28) from 5 continents participated in the Delphi study. Inflammation, microvascular spasm, initial intracranial pressure increase, and disruption of nitric oxide signaling were deemed the most important pathophysiological pathways determining outcome. Cell-free hemoglobin was thought to play an important role mostly in pathways related to iron toxicity, oxidative stress, nitric oxide, and inflammation. While useful, there was consensus that further preclinical work was not a priority, with most believing the field was ready for an early phase trial. The highest research priorities were related to confirming haptoglobin's anticipated safety, individualized versus standard dosing, timing of treatment, pharmacokinetics, pharmacodynamics, and outcome measure selection. These results highlight the need for early phase trials of intracranial haptoglobin for aneurysmal subarachnoid hemorrhage, and the value of early input from clinical disciplines on a global scale during the early stages of clinical translation.

Original language	English
Pages (from-to)	1930-1942
Number of pages	13
Journal	Stroke
Volume	54
Issue number	7
DOIs	https://doi.org/10.1161/STROKEAHA.123.040205
Publication status	Published - 1 Jul 2023

Keywords

blood
haptoglobins
hemoglobins
subarachnoid hemorrhage
therapeutics

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Galea, I., Bandyopadhyay, S., Bulters, D., Humar, R., Hugelshofer, M., Schaer, D. J., Abdulazim, A., Alalade, A. F., Alexander, S. A., Amaro, S., Amin-Hanjani, S., Andersen, C. R., Anderson, C., Anstey, M. H., Balla, J., Bankole, N. D. A., Bellapart, J., Bhagat, H., Blackburn, S. L., ... Vergouwen, M. D. I. (2023). Haptoglobin Treatment for Aneurysmal Subarachnoid Hemorrhage: Review and Expert Consensus on Clinical Translation. Stroke, 54(7), 1930-1942. https://doi.org/10.1161/STROKEAHA.123.040205

@article{965f906cccde4ab095099291282d87a6,

title = "Haptoglobin Treatment for Aneurysmal Subarachnoid Hemorrhage: Review and Expert Consensus on Clinical Translation",

abstract = "Aneurysmal subarachnoid hemorrhage (aSAH) is a devastating form of stroke frequently affecting young to middle-aged adults, with an unmet need to improve outcome. This special report focusses on the development of intrathecal haptoglobin supplementation as a treatment by reviewing current knowledge and progress, arriving at a Delphi-based global consensus regarding the pathophysiological role of extracellular hemoglobin and research priorities for clinical translation of hemoglobin-scavenging therapeutics. After aneurysmal subarachnoid hemorrhage, erythrocyte lysis generates cell-free hemoglobin in the cerebrospinal fluid, which is a strong determinant of secondary brain injury and long-term clinical outcome. Haptoglobin is the body's first-line defense against cell-free hemoglobin by binding it irreversibly, preventing translocation of hemoglobin into the brain parenchyma and nitric oxide-sensitive functional compartments of cerebral arteries. In mouse and sheep models, intraventricular administration of haptoglobin reversed hemoglobin-induced clinical, histological, and biochemical features of human aneurysmal subarachnoid hemorrhage. Clinical translation of this strategy imposes unique challenges set by the novel mode of action and the anticipated need for intrathecal drug administration, necessitating early input from stakeholders. Practising clinicians (n=72) and scientific experts (n=28) from 5 continents participated in the Delphi study. Inflammation, microvascular spasm, initial intracranial pressure increase, and disruption of nitric oxide signaling were deemed the most important pathophysiological pathways determining outcome. Cell-free hemoglobin was thought to play an important role mostly in pathways related to iron toxicity, oxidative stress, nitric oxide, and inflammation. While useful, there was consensus that further preclinical work was not a priority, with most believing the field was ready for an early phase trial. The highest research priorities were related to confirming haptoglobin's anticipated safety, individualized versus standard dosing, timing of treatment, pharmacokinetics, pharmacodynamics, and outcome measure selection. These results highlight the need for early phase trials of intracranial haptoglobin for aneurysmal subarachnoid hemorrhage, and the value of early input from clinical disciplines on a global scale during the early stages of clinical translation.",

keywords = "blood, haptoglobins, hemoglobins, subarachnoid hemorrhage, therapeutics",

author = "Ian Galea and Soham Bandyopadhyay and Diederik Bulters and Rok Humar and Michael Hugelshofer and Schaer, \{Dominik J.\} and Amr Abdulazim and Alalade, \{Andrew F.\} and Alexander, \{Sheila A.\} and Sergi Amaro and Sepideh Amin-Hanjani and Andersen, \{Christopher R.\} and Craig Anderson and Anstey, \{Matthew H.\} and J{\'o}zsef Balla and Bankole, \{Nourou Dine Adeniran\} and Judith Bellapart and Hemant Bhagat and Blackburn, \{Spiros L.\} and Markus Brechmann and Buehler, \{P. W.\} and Burkhardt, \{Jan Karl\} and Yujie Chen and Jeremy Cohen and Cooper, \{P. David\} and Coulthard, \{Liam G.\} and Elisa Cuadrado-Godia and Joan Dalton and Anthony Delaney and Sylvain Dor{\'e} and Jonathan Downer and Justin Dye and Isabel Fernandez-Perez and Oliver Flower and B{\'e}la F{\"u}lesdi and Ben Gaastra and Thomas Gaberel and James Galea and Gankpe, \{Gbetoho Fortun{\'e}\} and Patrick Garland and Thomas Gentinetta and Magnus Gram and Graversen, \{Jonas Heilskov\} and Grover, \{Patrick J.\} and Daniel Guisado-Alonso and David Hasan and Adel Helmy and Luca Regli and Ruigrok, \{Ynte Marije\} and Vergouwen, \{Mervyn D.I.\}",

note = "Funding Information: This article was funded by National Institute for Health Research (Academic Clinical Fellowship 2022-26-004), Swiss National Science Foundation 310030\_197823). Publisher Copyright: {\textcopyright} 2023 American Heart Association, Inc.",

year = "2023",

month = jul,

day = "1",

doi = "10.1161/STROKEAHA.123.040205",

language = "English",

volume = "54",

pages = "1930--1942",

journal = "Stroke",

issn = "0039-2499",

publisher = "Wolters Kluwer Health",

number = "7",

}

Galea, I, Bandyopadhyay, S, Bulters, D, Humar, R, Hugelshofer, M, Schaer, DJ, Abdulazim, A, Alalade, AF, Alexander, SA, Amaro, S, Amin-Hanjani, S, Andersen, CR, Anderson, C, Anstey, MH, Balla, J, Bankole, NDA, Bellapart, J, Bhagat, H, Blackburn, SL, Brechmann, M, Buehler, PW, Burkhardt, JK, Chen, Y, Cohen, J, Cooper, PD, Coulthard, LG, Cuadrado-Godia, E, Dalton, J, Delaney, A, Doré, S, Downer, J, Dye, J, Fernandez-Perez, I, Flower, O, Fülesdi, B, Gaastra, B, Gaberel, T, Galea, J, Gankpe, GF, Garland, P, Gentinetta, T, Gram, M, Graversen, JH, Grover, PJ, Guisado-Alonso, D, Hasan, D, Helmy, A, Regli, L, Ruigrok, YM & Vergouwen, MDI 2023, 'Haptoglobin Treatment for Aneurysmal Subarachnoid Hemorrhage: Review and Expert Consensus on Clinical Translation', Stroke, vol. 54, no. 7, pp. 1930-1942. https://doi.org/10.1161/STROKEAHA.123.040205

TY - JOUR

T1 - Haptoglobin Treatment for Aneurysmal Subarachnoid Hemorrhage

T2 - Review and Expert Consensus on Clinical Translation

AU - Galea, Ian

AU - Bandyopadhyay, Soham

AU - Bulters, Diederik

AU - Humar, Rok

AU - Hugelshofer, Michael

AU - Schaer, Dominik J.

AU - Abdulazim, Amr

AU - Alalade, Andrew F.

AU - Alexander, Sheila A.

AU - Amaro, Sergi

AU - Amin-Hanjani, Sepideh

AU - Andersen, Christopher R.

AU - Anderson, Craig

AU - Anstey, Matthew H.

AU - Balla, József

AU - Bankole, Nourou Dine Adeniran

AU - Bellapart, Judith

AU - Bhagat, Hemant

AU - Blackburn, Spiros L.

AU - Brechmann, Markus

AU - Buehler, P. W.

AU - Burkhardt, Jan Karl

AU - Chen, Yujie

AU - Cohen, Jeremy

AU - Cooper, P. David

AU - Coulthard, Liam G.

AU - Cuadrado-Godia, Elisa

AU - Dalton, Joan

AU - Delaney, Anthony

AU - Doré, Sylvain

AU - Downer, Jonathan

AU - Dye, Justin

AU - Fernandez-Perez, Isabel

AU - Flower, Oliver

AU - Fülesdi, Béla

AU - Gaastra, Ben

AU - Gaberel, Thomas

AU - Galea, James

AU - Gankpe, Gbetoho Fortuné

AU - Garland, Patrick

AU - Gentinetta, Thomas

AU - Gram, Magnus

AU - Graversen, Jonas Heilskov

AU - Grover, Patrick J.

AU - Guisado-Alonso, Daniel

AU - Hasan, David

AU - Helmy, Adel

AU - Regli, Luca

AU - Ruigrok, Ynte Marije

AU - Vergouwen, Mervyn D.I.

N1 - Funding Information: This article was funded by National Institute for Health Research (Academic Clinical Fellowship 2022-26-004), Swiss National Science Foundation 310030_197823). Publisher Copyright: © 2023 American Heart Association, Inc.

PY - 2023/7/1

Y1 - 2023/7/1

N2 - Aneurysmal subarachnoid hemorrhage (aSAH) is a devastating form of stroke frequently affecting young to middle-aged adults, with an unmet need to improve outcome. This special report focusses on the development of intrathecal haptoglobin supplementation as a treatment by reviewing current knowledge and progress, arriving at a Delphi-based global consensus regarding the pathophysiological role of extracellular hemoglobin and research priorities for clinical translation of hemoglobin-scavenging therapeutics. After aneurysmal subarachnoid hemorrhage, erythrocyte lysis generates cell-free hemoglobin in the cerebrospinal fluid, which is a strong determinant of secondary brain injury and long-term clinical outcome. Haptoglobin is the body's first-line defense against cell-free hemoglobin by binding it irreversibly, preventing translocation of hemoglobin into the brain parenchyma and nitric oxide-sensitive functional compartments of cerebral arteries. In mouse and sheep models, intraventricular administration of haptoglobin reversed hemoglobin-induced clinical, histological, and biochemical features of human aneurysmal subarachnoid hemorrhage. Clinical translation of this strategy imposes unique challenges set by the novel mode of action and the anticipated need for intrathecal drug administration, necessitating early input from stakeholders. Practising clinicians (n=72) and scientific experts (n=28) from 5 continents participated in the Delphi study. Inflammation, microvascular spasm, initial intracranial pressure increase, and disruption of nitric oxide signaling were deemed the most important pathophysiological pathways determining outcome. Cell-free hemoglobin was thought to play an important role mostly in pathways related to iron toxicity, oxidative stress, nitric oxide, and inflammation. While useful, there was consensus that further preclinical work was not a priority, with most believing the field was ready for an early phase trial. The highest research priorities were related to confirming haptoglobin's anticipated safety, individualized versus standard dosing, timing of treatment, pharmacokinetics, pharmacodynamics, and outcome measure selection. These results highlight the need for early phase trials of intracranial haptoglobin for aneurysmal subarachnoid hemorrhage, and the value of early input from clinical disciplines on a global scale during the early stages of clinical translation.

AB - Aneurysmal subarachnoid hemorrhage (aSAH) is a devastating form of stroke frequently affecting young to middle-aged adults, with an unmet need to improve outcome. This special report focusses on the development of intrathecal haptoglobin supplementation as a treatment by reviewing current knowledge and progress, arriving at a Delphi-based global consensus regarding the pathophysiological role of extracellular hemoglobin and research priorities for clinical translation of hemoglobin-scavenging therapeutics. After aneurysmal subarachnoid hemorrhage, erythrocyte lysis generates cell-free hemoglobin in the cerebrospinal fluid, which is a strong determinant of secondary brain injury and long-term clinical outcome. Haptoglobin is the body's first-line defense against cell-free hemoglobin by binding it irreversibly, preventing translocation of hemoglobin into the brain parenchyma and nitric oxide-sensitive functional compartments of cerebral arteries. In mouse and sheep models, intraventricular administration of haptoglobin reversed hemoglobin-induced clinical, histological, and biochemical features of human aneurysmal subarachnoid hemorrhage. Clinical translation of this strategy imposes unique challenges set by the novel mode of action and the anticipated need for intrathecal drug administration, necessitating early input from stakeholders. Practising clinicians (n=72) and scientific experts (n=28) from 5 continents participated in the Delphi study. Inflammation, microvascular spasm, initial intracranial pressure increase, and disruption of nitric oxide signaling were deemed the most important pathophysiological pathways determining outcome. Cell-free hemoglobin was thought to play an important role mostly in pathways related to iron toxicity, oxidative stress, nitric oxide, and inflammation. While useful, there was consensus that further preclinical work was not a priority, with most believing the field was ready for an early phase trial. The highest research priorities were related to confirming haptoglobin's anticipated safety, individualized versus standard dosing, timing of treatment, pharmacokinetics, pharmacodynamics, and outcome measure selection. These results highlight the need for early phase trials of intracranial haptoglobin for aneurysmal subarachnoid hemorrhage, and the value of early input from clinical disciplines on a global scale during the early stages of clinical translation.

KW - blood

KW - haptoglobins

KW - hemoglobins

KW - subarachnoid hemorrhage

KW - therapeutics

UR - https://www.scopus.com/pages/publications/85163689024

U2 - 10.1161/STROKEAHA.123.040205

DO - 10.1161/STROKEAHA.123.040205

M3 - Article

C2 - 37232189

AN - SCOPUS:85163689024

SN - 0039-2499

VL - 54

SP - 1930

EP - 1942

JO - Stroke

JF - Stroke

IS - 7

ER -

Haptoglobin Treatment for Aneurysmal Subarachnoid Hemorrhage: Review and Expert Consensus on Clinical Translation

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