Review



hucb derived exosomes  (Exosome Diagnostics)

 
  • Logo
  • About
  • News
  • Press Release
  • Team
  • Advisors
  • Partners
  • Contact
  • Bioz Stars
  • Bioz vStars
    • 86
      Buy from Supplier

    Structured Review

    Exosome Diagnostics hucb derived exosomes
    Comparative analysis of oxidative stress markers across the four experimental groups: Laminectomy, Contusion, Contusion + PBS, and Contusion + <t>Exosomes.</t> The figure is divided into three sections: (A) The graph displays GSH (glutathione) activity quantified in nmol/mg of protein. The results indicate that both the Contusion and Contusion + PBS groups demonstrate reduced GSH activity compared to the Laminectomy group. In contrast, the Contusion + Exosomes group exhibits a notable restoration of GSH levels, highlighting the beneficial effect of exosome treatment. (B) GSSG Levels: The graph depicts GSSG (oxidized glutathione) levels, also measured in nmol/mg of protein, across the experimental groups. The pattern mirrors that of section A, with elevated GSSG levels in the Contusion and Contusion + PBS groups, and a significant decrease in the Contusion + Exosomes group, reinforcing the exosomes' role in alleviating oxidative stress post-SCI. (C) DCF Absorbance: A significant increase in DCF absorbance is observed in the Contusion and Contusion + PBS groups, indicating heightened oxidative stress. In contrast, the Contusion + Exosomes group demonstrates a notable reduction in absorbance, suggesting that exosome treatment may mitigate SCI-induced oxidative stress (**P < 0.001, **** P < 0.0001).
    Hucb Derived Exosomes, supplied by Exosome Diagnostics, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/hucb derived exosomes/product/Exosome Diagnostics
    Average 86 stars, based on 1 article reviews
    hucb derived exosomes - by Bioz Stars, 2026-06
    86/100 stars

    Images

    1) Product Images from "Human umbilical cord plasma derived exosome changed the miRNAs expression and inhibits inflammation response in traumatic spinal cord Injury"

    Article Title: Human umbilical cord plasma derived exosome changed the miRNAs expression and inhibits inflammation response in traumatic spinal cord Injury

    Journal: IBRO Neuroscience Reports

    doi: 10.1016/j.ibneur.2026.01.002

    Comparative analysis of oxidative stress markers across the four experimental groups: Laminectomy, Contusion, Contusion + PBS, and Contusion + Exosomes. The figure is divided into three sections: (A) The graph displays GSH (glutathione) activity quantified in nmol/mg of protein. The results indicate that both the Contusion and Contusion + PBS groups demonstrate reduced GSH activity compared to the Laminectomy group. In contrast, the Contusion + Exosomes group exhibits a notable restoration of GSH levels, highlighting the beneficial effect of exosome treatment. (B) GSSG Levels: The graph depicts GSSG (oxidized glutathione) levels, also measured in nmol/mg of protein, across the experimental groups. The pattern mirrors that of section A, with elevated GSSG levels in the Contusion and Contusion + PBS groups, and a significant decrease in the Contusion + Exosomes group, reinforcing the exosomes' role in alleviating oxidative stress post-SCI. (C) DCF Absorbance: A significant increase in DCF absorbance is observed in the Contusion and Contusion + PBS groups, indicating heightened oxidative stress. In contrast, the Contusion + Exosomes group demonstrates a notable reduction in absorbance, suggesting that exosome treatment may mitigate SCI-induced oxidative stress (**P < 0.001, **** P < 0.0001).
    Figure Legend Snippet: Comparative analysis of oxidative stress markers across the four experimental groups: Laminectomy, Contusion, Contusion + PBS, and Contusion + Exosomes. The figure is divided into three sections: (A) The graph displays GSH (glutathione) activity quantified in nmol/mg of protein. The results indicate that both the Contusion and Contusion + PBS groups demonstrate reduced GSH activity compared to the Laminectomy group. In contrast, the Contusion + Exosomes group exhibits a notable restoration of GSH levels, highlighting the beneficial effect of exosome treatment. (B) GSSG Levels: The graph depicts GSSG (oxidized glutathione) levels, also measured in nmol/mg of protein, across the experimental groups. The pattern mirrors that of section A, with elevated GSSG levels in the Contusion and Contusion + PBS groups, and a significant decrease in the Contusion + Exosomes group, reinforcing the exosomes' role in alleviating oxidative stress post-SCI. (C) DCF Absorbance: A significant increase in DCF absorbance is observed in the Contusion and Contusion + PBS groups, indicating heightened oxidative stress. In contrast, the Contusion + Exosomes group demonstrates a notable reduction in absorbance, suggesting that exosome treatment may mitigate SCI-induced oxidative stress (**P < 0.001, **** P < 0.0001).

    Techniques Used: Activity Assay

    Characterization of exosomes derived from human umbilical cord blood (HUCB-exosomes) included the following findings: (A) Dynamic light scattering (DLS) analysis revealed a consistent distribution of particle sizes. (B) Flowcytometry confirmed the presence of specific exosome markers, CD9 and CD81. (C) Scanning electron microscopy (SEM) imaging revealed that HUCB-exosomes were primarily spherical vesicles. (D) Zeta potential analysis assessed the surface charge of the exosomes, indicating their stability while in suspension.
    Figure Legend Snippet: Characterization of exosomes derived from human umbilical cord blood (HUCB-exosomes) included the following findings: (A) Dynamic light scattering (DLS) analysis revealed a consistent distribution of particle sizes. (B) Flowcytometry confirmed the presence of specific exosome markers, CD9 and CD81. (C) Scanning electron microscopy (SEM) imaging revealed that HUCB-exosomes were primarily spherical vesicles. (D) Zeta potential analysis assessed the surface charge of the exosomes, indicating their stability while in suspension.

    Techniques Used: Derivative Assay, Electron Microscopy, Imaging, Zeta Potential Analyzer, Suspension

    (A) Recovery of motor function over an eight-week period following SCI, as assessed by the BBB test. The graph displays the BBB scores from day 1 through week 8 for the four experimental groups. Notably, animals in the exosome-treated group exhibited significantly enhanced functional recovery in comparison with those in the contusion group (**** P < 0.0001). (B) Sensory-motor coordination was evaluated using the Narrow Beam Test (NBT) over an eight-week period following SCI. The performance of the four experimental groups is illustrated in the graph. Prior to the SCI induction, all rats navigated the beam without difficulty. However, post-injury, they displayed significant challenges in traversing the beam, exhibiting poor foot placement. By the conclusion of the experiment, the group treated with exosomes demonstrated substantial improvement in performance compared to the contusion group, with a significance level of **** P < 0.0001. (C) Assessment of locomotor activity using the open-field test among the experimental groups. The graph illustrates the distances traveled by the rats throughout the experiment. Rats in the exosome treatment group demonstrated significantly higher locomotor activity, traveling greater distances compared to those in the contusion-only group. In contrast, the contusion group exhibited notably lower levels of locomotor activity(**** P < 0.0001).
    Figure Legend Snippet: (A) Recovery of motor function over an eight-week period following SCI, as assessed by the BBB test. The graph displays the BBB scores from day 1 through week 8 for the four experimental groups. Notably, animals in the exosome-treated group exhibited significantly enhanced functional recovery in comparison with those in the contusion group (**** P < 0.0001). (B) Sensory-motor coordination was evaluated using the Narrow Beam Test (NBT) over an eight-week period following SCI. The performance of the four experimental groups is illustrated in the graph. Prior to the SCI induction, all rats navigated the beam without difficulty. However, post-injury, they displayed significant challenges in traversing the beam, exhibiting poor foot placement. By the conclusion of the experiment, the group treated with exosomes demonstrated substantial improvement in performance compared to the contusion group, with a significance level of **** P < 0.0001. (C) Assessment of locomotor activity using the open-field test among the experimental groups. The graph illustrates the distances traveled by the rats throughout the experiment. Rats in the exosome treatment group demonstrated significantly higher locomotor activity, traveling greater distances compared to those in the contusion-only group. In contrast, the contusion group exhibited notably lower levels of locomotor activity(**** P < 0.0001).

    Techniques Used: Functional Assay, Comparison, Activity Assay

    Sections of the spinal cord from the four experimental groups were stained with hematoxylin-eosin (H&E): A, D) Laminectomy only; B, E) Contusion injury; C, F) Contusion + Exosomes. The stained sections were photographed using a microscope equipped with an integrated camera (Upper panel A-F). In the lower panel the assessment of Neural Cell Density, spinal cord and cavity volume (mm³). Representative images used for the statistical quantification shown in panels A–D are provided in . (A) Glial Cell Density: The analysis of glial cell density (cells ×1000/µm³) from the representative images demonstrated that the exosome-treated group exhibited lower glial cell density, reflecting a reduction in gliosis compared to the other groups. (B) Neural Cell Density: The quantification of neural cell density (cells × 1000/µm³) quantified from the representative images, indicated that the exosome-treated group had a higher neural cell density relative to the contusion-only and PBS-treated groups. (C) Cavity volume demonstrated a marked reduction in the exosome-treated group when compared to both the contusion and PBS-treated groups, with no cavity observed in the laminectomy group. (D) Spinal volume demonstrated a marked increase in the exosome-treated group compared to both the contusion and PBS-treated groups (* P < 0.5, ** P < 0.01, *** P < 0.001, **** P < 0.0001) receptively.
    Figure Legend Snippet: Sections of the spinal cord from the four experimental groups were stained with hematoxylin-eosin (H&E): A, D) Laminectomy only; B, E) Contusion injury; C, F) Contusion + Exosomes. The stained sections were photographed using a microscope equipped with an integrated camera (Upper panel A-F). In the lower panel the assessment of Neural Cell Density, spinal cord and cavity volume (mm³). Representative images used for the statistical quantification shown in panels A–D are provided in . (A) Glial Cell Density: The analysis of glial cell density (cells ×1000/µm³) from the representative images demonstrated that the exosome-treated group exhibited lower glial cell density, reflecting a reduction in gliosis compared to the other groups. (B) Neural Cell Density: The quantification of neural cell density (cells × 1000/µm³) quantified from the representative images, indicated that the exosome-treated group had a higher neural cell density relative to the contusion-only and PBS-treated groups. (C) Cavity volume demonstrated a marked reduction in the exosome-treated group when compared to both the contusion and PBS-treated groups, with no cavity observed in the laminectomy group. (D) Spinal volume demonstrated a marked increase in the exosome-treated group compared to both the contusion and PBS-treated groups (* P < 0.5, ** P < 0.01, *** P < 0.001, **** P < 0.0001) receptively.

    Techniques Used: Staining, Microscopy

    Real time PCR analysis of miR-19a-3p, miR-19b-3p, miR-27b and miR-24 expression across the experimental groups: Laminectomy, Contusion, Contusion + PBS and Contusion + Exosomes. The findings reveal that exosome therapy leads to a notable reduction in miR-19a-3p (A) and miR-19b-3p (B) expression, suggesting that the exosome-treated group exhibits significantly lower levels of miR-19a-3p and miR-19b-3p compared to the Contusion group and notable increase in miR-27b (C) and miR-24 (D) in the exosome-treated group in comparison with contusion group (**** P < 0.0001).
    Figure Legend Snippet: Real time PCR analysis of miR-19a-3p, miR-19b-3p, miR-27b and miR-24 expression across the experimental groups: Laminectomy, Contusion, Contusion + PBS and Contusion + Exosomes. The findings reveal that exosome therapy leads to a notable reduction in miR-19a-3p (A) and miR-19b-3p (B) expression, suggesting that the exosome-treated group exhibits significantly lower levels of miR-19a-3p and miR-19b-3p compared to the Contusion group and notable increase in miR-27b (C) and miR-24 (D) in the exosome-treated group in comparison with contusion group (**** P < 0.0001).

    Techniques Used: Real-time Polymerase Chain Reaction, Expressing, Comparison



    Similar Products

    hucb derived exosomes  (Exosome Diagnostics)
    86
    Exosome Diagnostics hucb derived exosomes
    Comparative analysis of oxidative stress markers across the four experimental groups: Laminectomy, Contusion, Contusion + PBS, and Contusion + <t>Exosomes.</t> The figure is divided into three sections: (A) The graph displays GSH (glutathione) activity quantified in nmol/mg of protein. The results indicate that both the Contusion and Contusion + PBS groups demonstrate reduced GSH activity compared to the Laminectomy group. In contrast, the Contusion + Exosomes group exhibits a notable restoration of GSH levels, highlighting the beneficial effect of exosome treatment. (B) GSSG Levels: The graph depicts GSSG (oxidized glutathione) levels, also measured in nmol/mg of protein, across the experimental groups. The pattern mirrors that of section A, with elevated GSSG levels in the Contusion and Contusion + PBS groups, and a significant decrease in the Contusion + Exosomes group, reinforcing the exosomes' role in alleviating oxidative stress post-SCI. (C) DCF Absorbance: A significant increase in DCF absorbance is observed in the Contusion and Contusion + PBS groups, indicating heightened oxidative stress. In contrast, the Contusion + Exosomes group demonstrates a notable reduction in absorbance, suggesting that exosome treatment may mitigate SCI-induced oxidative stress (**P < 0.001, **** P < 0.0001).
    Hucb Derived Exosomes, supplied by Exosome Diagnostics, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/hucb derived exosomes/product/Exosome Diagnostics
    Average 86 stars, based on 1 article reviews
    hucb derived exosomes - by Bioz Stars, 2026-06
    86/100 stars
    		  Buy from Supplier

    Image Search Results


    Comparative analysis of oxidative stress markers across the four experimental groups: Laminectomy, Contusion, Contusion + PBS, and Contusion + Exosomes. The figure is divided into three sections: (A) The graph displays GSH (glutathione) activity quantified in nmol/mg of protein. The results indicate that both the Contusion and Contusion + PBS groups demonstrate reduced GSH activity compared to the Laminectomy group. In contrast, the Contusion + Exosomes group exhibits a notable restoration of GSH levels, highlighting the beneficial effect of exosome treatment. (B) GSSG Levels: The graph depicts GSSG (oxidized glutathione) levels, also measured in nmol/mg of protein, across the experimental groups. The pattern mirrors that of section A, with elevated GSSG levels in the Contusion and Contusion + PBS groups, and a significant decrease in the Contusion + Exosomes group, reinforcing the exosomes' role in alleviating oxidative stress post-SCI. (C) DCF Absorbance: A significant increase in DCF absorbance is observed in the Contusion and Contusion + PBS groups, indicating heightened oxidative stress. In contrast, the Contusion + Exosomes group demonstrates a notable reduction in absorbance, suggesting that exosome treatment may mitigate SCI-induced oxidative stress (**P < 0.001, **** P < 0.0001).

    Journal: IBRO Neuroscience Reports

    Article Title: Human umbilical cord plasma derived exosome changed the miRNAs expression and inhibits inflammation response in traumatic spinal cord Injury

    doi: 10.1016/j.ibneur.2026.01.002

    Figure Lengend Snippet: Comparative analysis of oxidative stress markers across the four experimental groups: Laminectomy, Contusion, Contusion + PBS, and Contusion + Exosomes. The figure is divided into three sections: (A) The graph displays GSH (glutathione) activity quantified in nmol/mg of protein. The results indicate that both the Contusion and Contusion + PBS groups demonstrate reduced GSH activity compared to the Laminectomy group. In contrast, the Contusion + Exosomes group exhibits a notable restoration of GSH levels, highlighting the beneficial effect of exosome treatment. (B) GSSG Levels: The graph depicts GSSG (oxidized glutathione) levels, also measured in nmol/mg of protein, across the experimental groups. The pattern mirrors that of section A, with elevated GSSG levels in the Contusion and Contusion + PBS groups, and a significant decrease in the Contusion + Exosomes group, reinforcing the exosomes' role in alleviating oxidative stress post-SCI. (C) DCF Absorbance: A significant increase in DCF absorbance is observed in the Contusion and Contusion + PBS groups, indicating heightened oxidative stress. In contrast, the Contusion + Exosomes group demonstrates a notable reduction in absorbance, suggesting that exosome treatment may mitigate SCI-induced oxidative stress (**P < 0.001, **** P < 0.0001).

    Article Snippet: The upregulation of these miRNAs in the exosome-treated group suggests that hUCB-derived exosomes may facilitate functional recovery by enhancing neuroprotective and anti-inflammatory miRNA expressions.

    Techniques: Activity Assay

    Characterization of exosomes derived from human umbilical cord blood (HUCB-exosomes) included the following findings: (A) Dynamic light scattering (DLS) analysis revealed a consistent distribution of particle sizes. (B) Flowcytometry confirmed the presence of specific exosome markers, CD9 and CD81. (C) Scanning electron microscopy (SEM) imaging revealed that HUCB-exosomes were primarily spherical vesicles. (D) Zeta potential analysis assessed the surface charge of the exosomes, indicating their stability while in suspension.

    Journal: IBRO Neuroscience Reports

    Article Title: Human umbilical cord plasma derived exosome changed the miRNAs expression and inhibits inflammation response in traumatic spinal cord Injury

    doi: 10.1016/j.ibneur.2026.01.002

    Figure Lengend Snippet: Characterization of exosomes derived from human umbilical cord blood (HUCB-exosomes) included the following findings: (A) Dynamic light scattering (DLS) analysis revealed a consistent distribution of particle sizes. (B) Flowcytometry confirmed the presence of specific exosome markers, CD9 and CD81. (C) Scanning electron microscopy (SEM) imaging revealed that HUCB-exosomes were primarily spherical vesicles. (D) Zeta potential analysis assessed the surface charge of the exosomes, indicating their stability while in suspension.

    Article Snippet: The upregulation of these miRNAs in the exosome-treated group suggests that hUCB-derived exosomes may facilitate functional recovery by enhancing neuroprotective and anti-inflammatory miRNA expressions.

    Techniques: Derivative Assay, Electron Microscopy, Imaging, Zeta Potential Analyzer, Suspension

    (A) Recovery of motor function over an eight-week period following SCI, as assessed by the BBB test. The graph displays the BBB scores from day 1 through week 8 for the four experimental groups. Notably, animals in the exosome-treated group exhibited significantly enhanced functional recovery in comparison with those in the contusion group (**** P < 0.0001). (B) Sensory-motor coordination was evaluated using the Narrow Beam Test (NBT) over an eight-week period following SCI. The performance of the four experimental groups is illustrated in the graph. Prior to the SCI induction, all rats navigated the beam without difficulty. However, post-injury, they displayed significant challenges in traversing the beam, exhibiting poor foot placement. By the conclusion of the experiment, the group treated with exosomes demonstrated substantial improvement in performance compared to the contusion group, with a significance level of **** P < 0.0001. (C) Assessment of locomotor activity using the open-field test among the experimental groups. The graph illustrates the distances traveled by the rats throughout the experiment. Rats in the exosome treatment group demonstrated significantly higher locomotor activity, traveling greater distances compared to those in the contusion-only group. In contrast, the contusion group exhibited notably lower levels of locomotor activity(**** P < 0.0001).

    Journal: IBRO Neuroscience Reports

    Article Title: Human umbilical cord plasma derived exosome changed the miRNAs expression and inhibits inflammation response in traumatic spinal cord Injury

    doi: 10.1016/j.ibneur.2026.01.002

    Figure Lengend Snippet: (A) Recovery of motor function over an eight-week period following SCI, as assessed by the BBB test. The graph displays the BBB scores from day 1 through week 8 for the four experimental groups. Notably, animals in the exosome-treated group exhibited significantly enhanced functional recovery in comparison with those in the contusion group (**** P < 0.0001). (B) Sensory-motor coordination was evaluated using the Narrow Beam Test (NBT) over an eight-week period following SCI. The performance of the four experimental groups is illustrated in the graph. Prior to the SCI induction, all rats navigated the beam without difficulty. However, post-injury, they displayed significant challenges in traversing the beam, exhibiting poor foot placement. By the conclusion of the experiment, the group treated with exosomes demonstrated substantial improvement in performance compared to the contusion group, with a significance level of **** P < 0.0001. (C) Assessment of locomotor activity using the open-field test among the experimental groups. The graph illustrates the distances traveled by the rats throughout the experiment. Rats in the exosome treatment group demonstrated significantly higher locomotor activity, traveling greater distances compared to those in the contusion-only group. In contrast, the contusion group exhibited notably lower levels of locomotor activity(**** P < 0.0001).

    Article Snippet: The upregulation of these miRNAs in the exosome-treated group suggests that hUCB-derived exosomes may facilitate functional recovery by enhancing neuroprotective and anti-inflammatory miRNA expressions.

    Techniques: Functional Assay, Comparison, Activity Assay

    Sections of the spinal cord from the four experimental groups were stained with hematoxylin-eosin (H&E): A, D) Laminectomy only; B, E) Contusion injury; C, F) Contusion + Exosomes. The stained sections were photographed using a microscope equipped with an integrated camera (Upper panel A-F). In the lower panel the assessment of Neural Cell Density, spinal cord and cavity volume (mm³). Representative images used for the statistical quantification shown in panels A–D are provided in . (A) Glial Cell Density: The analysis of glial cell density (cells ×1000/µm³) from the representative images demonstrated that the exosome-treated group exhibited lower glial cell density, reflecting a reduction in gliosis compared to the other groups. (B) Neural Cell Density: The quantification of neural cell density (cells × 1000/µm³) quantified from the representative images, indicated that the exosome-treated group had a higher neural cell density relative to the contusion-only and PBS-treated groups. (C) Cavity volume demonstrated a marked reduction in the exosome-treated group when compared to both the contusion and PBS-treated groups, with no cavity observed in the laminectomy group. (D) Spinal volume demonstrated a marked increase in the exosome-treated group compared to both the contusion and PBS-treated groups (* P < 0.5, ** P < 0.01, *** P < 0.001, **** P < 0.0001) receptively.

    Journal: IBRO Neuroscience Reports

    Article Title: Human umbilical cord plasma derived exosome changed the miRNAs expression and inhibits inflammation response in traumatic spinal cord Injury

    doi: 10.1016/j.ibneur.2026.01.002

    Figure Lengend Snippet: Sections of the spinal cord from the four experimental groups were stained with hematoxylin-eosin (H&E): A, D) Laminectomy only; B, E) Contusion injury; C, F) Contusion + Exosomes. The stained sections were photographed using a microscope equipped with an integrated camera (Upper panel A-F). In the lower panel the assessment of Neural Cell Density, spinal cord and cavity volume (mm³). Representative images used for the statistical quantification shown in panels A–D are provided in . (A) Glial Cell Density: The analysis of glial cell density (cells ×1000/µm³) from the representative images demonstrated that the exosome-treated group exhibited lower glial cell density, reflecting a reduction in gliosis compared to the other groups. (B) Neural Cell Density: The quantification of neural cell density (cells × 1000/µm³) quantified from the representative images, indicated that the exosome-treated group had a higher neural cell density relative to the contusion-only and PBS-treated groups. (C) Cavity volume demonstrated a marked reduction in the exosome-treated group when compared to both the contusion and PBS-treated groups, with no cavity observed in the laminectomy group. (D) Spinal volume demonstrated a marked increase in the exosome-treated group compared to both the contusion and PBS-treated groups (* P < 0.5, ** P < 0.01, *** P < 0.001, **** P < 0.0001) receptively.

    Article Snippet: The upregulation of these miRNAs in the exosome-treated group suggests that hUCB-derived exosomes may facilitate functional recovery by enhancing neuroprotective and anti-inflammatory miRNA expressions.

    Techniques: Staining, Microscopy

    Real time PCR analysis of miR-19a-3p, miR-19b-3p, miR-27b and miR-24 expression across the experimental groups: Laminectomy, Contusion, Contusion + PBS and Contusion + Exosomes. The findings reveal that exosome therapy leads to a notable reduction in miR-19a-3p (A) and miR-19b-3p (B) expression, suggesting that the exosome-treated group exhibits significantly lower levels of miR-19a-3p and miR-19b-3p compared to the Contusion group and notable increase in miR-27b (C) and miR-24 (D) in the exosome-treated group in comparison with contusion group (**** P < 0.0001).

    Journal: IBRO Neuroscience Reports

    Article Title: Human umbilical cord plasma derived exosome changed the miRNAs expression and inhibits inflammation response in traumatic spinal cord Injury

    doi: 10.1016/j.ibneur.2026.01.002

    Figure Lengend Snippet: Real time PCR analysis of miR-19a-3p, miR-19b-3p, miR-27b and miR-24 expression across the experimental groups: Laminectomy, Contusion, Contusion + PBS and Contusion + Exosomes. The findings reveal that exosome therapy leads to a notable reduction in miR-19a-3p (A) and miR-19b-3p (B) expression, suggesting that the exosome-treated group exhibits significantly lower levels of miR-19a-3p and miR-19b-3p compared to the Contusion group and notable increase in miR-27b (C) and miR-24 (D) in the exosome-treated group in comparison with contusion group (**** P < 0.0001).

    Article Snippet: The upregulation of these miRNAs in the exosome-treated group suggests that hUCB-derived exosomes may facilitate functional recovery by enhancing neuroprotective and anti-inflammatory miRNA expressions.

    Techniques: Real-time Polymerase Chain Reaction, Expressing, Comparison