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Haptoglobin attenuates cerebrospinal fluid hemoglobin-induced neurological deterioration in sheep
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Abstract
Background
Secondary brain injury (SBI) occurs with a lag of several days post-bleeding in patients with aneurysmal subarachnoid hemorrhage (aSAH) and is a strong contributor to mortality and long-term morbidity. aSAH-SBI coincides with cell-free hemoglobin (Hb) release into the cerebrospinal fluid. This temporal association and convincing pathophysiological concepts suggest that CSF-Hb could be a targetable trigger of SBI. However, sparse experimental evidence for Hb’s neurotoxicity in vivo defines a significant research gap for clinical translation.
Methods
We modeled the CSF-Hb exposure observed in aSAH patients in conscious sheep, which allowed us to assess neurological functions. Twelve animals were randomly assigned for three-day bi-daily intracerebroventricular (ICV) injections of either Hb or Hb combined with the high-affinity Hb scavenger protein haptoglobin (Hb-Hp, CSL888).
Results
Repeated CSF sampling confirmed clinically relevant CSF-Hb concentrations. This prolonged CSF-Hb exposure over three days resulted in disturbed movement activity, reduced food intake, and impaired observational neuroscores. The Hb-induced neurotoxic effects were significantly attenuated when Hb was administered with equimolar haptoglobin. Preterminal magnetic resonance imaging (MRI) showed no CSF-Hb-specific structural brain alterations. In both groups, histology demonstrated an inflammatory response and revealed enhanced perivascular histiocytic infiltrates in the Hb-Hp group, indicative of adaptive mechanisms. Heme exposure in CSF and iron deposition in the brain were comparable, suggesting comparable clearance efficiency of Hb and Hb-haptoglobin complexes from the intracranial compartment.
Conclusion
We identified a neurological phenotype of CSF-Hb toxicity in conscious sheep, which is rather due to neurovascular dysfunction than structural brain injury. Haptoglobin was effective at attenuating CSF-Hb-induced neurological deterioration, supporting its therapeutic potential.
Title: Haptoglobin attenuates cerebrospinal fluid hemoglobin-induced neurological deterioration in sheep
Description:
Abstract
Background
Secondary brain injury (SBI) occurs with a lag of several days post-bleeding in patients with aneurysmal subarachnoid hemorrhage (aSAH) and is a strong contributor to mortality and long-term morbidity.
aSAH-SBI coincides with cell-free hemoglobin (Hb) release into the cerebrospinal fluid.
This temporal association and convincing pathophysiological concepts suggest that CSF-Hb could be a targetable trigger of SBI.
However, sparse experimental evidence for Hb’s neurotoxicity in vivo defines a significant research gap for clinical translation.
Methods
We modeled the CSF-Hb exposure observed in aSAH patients in conscious sheep, which allowed us to assess neurological functions.
Twelve animals were randomly assigned for three-day bi-daily intracerebroventricular (ICV) injections of either Hb or Hb combined with the high-affinity Hb scavenger protein haptoglobin (Hb-Hp, CSL888).
Results
Repeated CSF sampling confirmed clinically relevant CSF-Hb concentrations.
This prolonged CSF-Hb exposure over three days resulted in disturbed movement activity, reduced food intake, and impaired observational neuroscores.
The Hb-induced neurotoxic effects were significantly attenuated when Hb was administered with equimolar haptoglobin.
Preterminal magnetic resonance imaging (MRI) showed no CSF-Hb-specific structural brain alterations.
In both groups, histology demonstrated an inflammatory response and revealed enhanced perivascular histiocytic infiltrates in the Hb-Hp group, indicative of adaptive mechanisms.
Heme exposure in CSF and iron deposition in the brain were comparable, suggesting comparable clearance efficiency of Hb and Hb-haptoglobin complexes from the intracranial compartment.
Conclusion
We identified a neurological phenotype of CSF-Hb toxicity in conscious sheep, which is rather due to neurovascular dysfunction than structural brain injury.
Haptoglobin was effective at attenuating CSF-Hb-induced neurological deterioration, supporting its therapeutic potential.
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Haptoglobin attenuates cerebrospinal fluid hemoglobin-induced neurological deterioration in sheep
Haptoglobin attenuates cerebrospinal fluid hemoglobin-induced neurological deterioration in sheep
Abstract
Background
Secondary brain injury (SBI) occurs with a lag of several days post-bleeding in patients with aneurysmal subarachnoid hemorrhage (aSAH) and is ...
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