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Spinal Cord Injury (SCI)  – Hemisection SCI Mouse Model

Investigate your novel therapy’s potential in spinal cord regeneration using InnoSer’s clinically relevant spinal cord injury (SCI) mouse model  

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Spinal Cord Injury (SCI) Mouse Model Key Characteristics:

InnoSer offers specialized preclinical contract research services using a clinically relevant spinal cord injury (SCI) mouse model induced by transection. Spinal cord injury is established by means of T-cut hemisection with a partial laminectomy at thoracic level eight (T8), transecting the dorsomedial and ventral corticospinal tracts, impairing other descending and ascending tracts.

Multiple spinal cord injury model systems have been developed to test the efficacy of novel therapies. Each model allows you to study specific pathological processes and specific therapeutic mechanisms of action. Accordingly, InnoSer’s experienced spinal cord injury team is capable of running efficacy studies in different models such as contusion SCI models and laceration SCI mouse models. Additionally, InnoSer’s Spa mouse model of spasticity may represent another translationally relevant model. However, as all models have their unique characteristics, we recommend discussing your study setup in close collaboration with our experts.

Looking for more details about our preclinical services in the SCI mouse model?

✓ Standardized spinal cord damage in the SCI model is induced by T-cut hemisection combined with partial laminectomy at thoracic level eight (T8).  

✓ Extensive and progressive neuroinflammation (astrocytes, microglia) and inflammatory cell activation and infiltration of peripheral immune cells). 

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InnoSer’s scientists have extensive experience in modeling SCI in rodent models and have published numerous papers using the transection spinal cord injury (SCI) mouse model (Erens et al., 2022). Accordingly, our staff is skilled in performing (stem) cell and medical device transplants as well as delivering (e.g., via intrathecal dosing) a range of therapeutics to evaluate the neuroregenerative effects of your novel therapy.  

InnoSer’s SCI model is a highly reproducible mouse model of spinal injury, allowing for quick set-up. Because of the immediate injury induction, immediate dosing or implantation of novel therapeutics can be performed. Therefore, the relatively short study timelines (4 weeks), can help you accelerate your preclinical spinal cord injury research.  

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Spinal Cord Injury (SCI) Mouse Model Sample Data

Spinal Cord Injury (SCI) Mouse Model Readouts

Key Functional Readouts in the hemisection SCI Mouse Model


Évaluez l'efficacité de vos traitements à l'aide de la série de tests comportementaux suivante :

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Paramètres biologiques

Test the efficacy of your treatments with the following biological readouts: 
  
  • Histopathology analyses (lesion size of the spinal cord injury, neuroinflammation, astrogliosis, microglia activation, de- and re-myelination, neuronal cell death, immune cell infiltration) 
  • Blood collection for PK/PD profiling 
  • CSF collection 
  • Biomarker analyses (qPCR, MSD, ELISA, Western blot)  
  • Peripheral immune cell response profiling (flow cytometry)  
  • Complementary in vitro assays (in vitro mouse and human immune cell activation and polarization assays, scratch assay, viability assay) 

    Publications phares de notre équipe

    • Erens, C., Van Broeckhoven, J., Hoeks, C., Schabbauer, G., Cheng, P. N., Chen, L., Hellings, N., Broux, B., Lemmens, S., & Hendrix, S. (2022). L-Arginine Depletion Improves Spinal Cord Injury via Immunomodulation and Nitric Oxide Reduction. Biomedicines10(2), 205. https://doi.org/10.3390/biomedicines10020205 

    Les personnes qui travaillent sur vos recherches

    Sofie Carmans, docteure

    Sofie Carmans, docteure

    Chercheur principal en neurologie

    Thomas Vogels, docteur ès sciences

    Thomas Vogels, docteur ès sciences

    Chercheur principal en neurologie

    Foire aux questions

    What is a SCI mouse model?

    A Spinal Cord Injury (SCI) mouse model is a preclinical research tool designed to study the mechanisms, progression, and novel treatments of spinal cord injuries. These models replicate human SCI conditions, allowing you to evaluate the efficacy of your novel therapeutic interventions.

    Common SCI mouse models include:

    • Contusion and compression SCI models: Mimic the biomechanics and pathology of human injuries.
    • Hemisection SCI models: Useful for studying specific functional recovery mechanisms.
    • Transection SCI models: Valuable for examining anatomic regeneration.

    The choice of a model depends on your study objectives, as each model provides distinct insights. Discuss with our team which SCI mouse model is best suited for your research.

    How do you induce a T-cut hemisection?

    A T-cut hemisection is induced through a precise surgical procedure. First, mice undergo a partial laminectomy at thoracic level eight (T8) to expose the spinal cord. Using iridectomy scissors, a bilateral hemisection is then performed, transecting both the dorsomedial corticospinal tract and the ventral corticospinal tract. Once the hemisection is complete, the muscles are carefully sutured, and the skin is closed using wound clips to ensure proper healing.

    This method creates a controlled spinal cord injury, making it an effective model for studying recovery mechanisms and evaluating therapeutic interventions. Continue reading more about the methodology to include T-cut hemisection in the publication by Erens et al., (2022).

    Are there profound differences between a contusion and hemisection model?

    Contusion mouse model of SCI is induced by either the weight-drop or impactor methods whereas the hemisection mouse model of SCI induces mimics spinal cord damage by inducing a surgical lesion. Contusion and hemisection SCI models differ in several critical aspects:

    • Lesion severity: Hemisection models typically produce more controlled injuries, while contusion models result in more variable damage.
    • Readout options: Functional readouts such as CatWalk gait analysis may not be feasible in hemisection models.
    • Scar tissue formation: Hemisection models often generate less scar tissue compared to contusion injuries.

    Each model has strengths depending on study objectives, and our team can help determine the best choice for your research.  Reach out to discuss which model is most appropriate for your SCI study.

    What is the dropout rate and how do you take this into account?

    The dropout rate in SCI studies is approximately 20%. This means that out of every 12 animals in a group, around 3 may be lost due to complications. Planning studies with this rate in mind ensures robust statistical power for your studies. Contact our scientific team to determine the optimal number of animals for your experiments to reach statistical significance.

    How do you exclude animals? What is considered an outlier?

    Exclusion of animals can be based on several specific criteria, including:

    • Surgical anomalies: Sham animals showing bruising of the spinal cord as a result of the (sham) hemisection surgery may no longer qualify as true controls.
    • Functional recovery data: Animals are excluded if recovery outcomes indicate the injury was either too severe or too mild.

    These criteria ensure that consistent and reliable data are included in analyses. Reach out to learn more about how we ensure reliability and consistency in your SCI study.

    Can InnoSer also work with other spinal cord injury mouse models?

    Yes, InnoSer offers expertise in multiple spinal cord injury models, including contusion SCI models and laceration SCI mouse models. Additionally, InnoSer’s Spa mouse model of spasticity may represent another translationally relevant model. Each model has unique features. Collaborating closely with our experts ensures the design of a study tailored to your therapeutic compound and research goals. Contact us to discuss your compound’s mechanism of action (MoA) and the most suitable SCI mouse model for testing.

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    Les « 3R » ont une incidence sur tous les domaines, depuis les changements politiques et réglementaires jusqu’au développement et à l’adoption de nouvelles technologies et approches. C’est pourquoi InnoSer s’engage en permanence à suivre ces processus. Les mesures que nous mettons en œuvre optimisent notre capacité à remplacer, réduire et perfectionner l’utilisation des animaux et facilitent notre engagement envers ces principes dans le cadre de la recherche et du développement de médicaments.