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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Intrathecal and Systemic Complement Activation Studies of Multiple Sclerosis and Guillan-Barré Syndrome

Blomberg, Carolina January 2009 (has links)
<p>Both Multiple Sclerosis (MS) and Guillan-Barré syndrome (GBS) are neurological inflammatory demyelinating autoimmune diseases, with a probable antibody contribution. Complement proteins in both MS and GBS does play a role in inflammation and demyelination at pathogenesis, according to earlier scientific evidence. The aim of this examination project work was to investigate systemic and intrathecal complement activation in MS and GBS, to gain further knowledge that might be useful for development of future therapeutics targeting immune responses during those diseases. An additional aim was to develop a new ELISA method for detection of complement iC3.</p><p>By using sandwich ELISA, complement proteins C1q, C4, C3, fH and C3a were measured in plasma and cerebrospinal fluid (CSF) from persons within 4 different diagnostic groups; MS, other neurological diseases (OND), GBS and controls (C). An ELISA method to detect iC3 (hydrolysed C3) was also developed, including usage of SDS-PAGE. Results based on raw data and statistical analysis show significantly elevated levels of C3a (C3a/C3) in MS and decreased C3 in plasma. In CSF low levels of C4 and C3a/C3 in MS were detected, though correlation of C3a and C1q was positive. GBS reveal high levels of all complement proteins analysed in CSF except for C3, and a positive correlation of C3a and C1q as well as C3a and fH was found.</p><p>These results indicate that MS patients have systemic complement activation; however the activation pathway is not determined. Complement activation in MS may also occur intrathecally, with correlation analysis indicating a possible activation via the classical pathway. MS patients suffering from a more acute relapsing-remitting (RR) MS have a more prominent systemic complement activation compared to MS patients responding to beta-interferon treatment. Systemic increased C3a/C3 ratio may be a possible biomarker to distinguish more acute RR MS in an earlier step of MS pathogenesis and should be further investigated. GBS patients have an intrathecal complement activation that seems to occur via the classical pathway.</p>
2

Intrathecal and Systemic Complement Activation Studies of Multiple Sclerosis and Guillan-Barré Syndrome

Blomberg, Carolina January 2009 (has links)
Both Multiple Sclerosis (MS) and Guillan-Barré syndrome (GBS) are neurological inflammatory demyelinating autoimmune diseases, with a probable antibody contribution. Complement proteins in both MS and GBS does play a role in inflammation and demyelination at pathogenesis, according to earlier scientific evidence. The aim of this examination project work was to investigate systemic and intrathecal complement activation in MS and GBS, to gain further knowledge that might be useful for development of future therapeutics targeting immune responses during those diseases. An additional aim was to develop a new ELISA method for detection of complement iC3. By using sandwich ELISA, complement proteins C1q, C4, C3, fH and C3a were measured in plasma and cerebrospinal fluid (CSF) from persons within 4 different diagnostic groups; MS, other neurological diseases (OND), GBS and controls (C). An ELISA method to detect iC3 (hydrolysed C3) was also developed, including usage of SDS-PAGE. Results based on raw data and statistical analysis show significantly elevated levels of C3a (C3a/C3) in MS and decreased C3 in plasma. In CSF low levels of C4 and C3a/C3 in MS were detected, though correlation of C3a and C1q was positive. GBS reveal high levels of all complement proteins analysed in CSF except for C3, and a positive correlation of C3a and C1q as well as C3a and fH was found. These results indicate that MS patients have systemic complement activation; however the activation pathway is not determined. Complement activation in MS may also occur intrathecally, with correlation analysis indicating a possible activation via the classical pathway. MS patients suffering from a more acute relapsing-remitting (RR) MS have a more prominent systemic complement activation compared to MS patients responding to beta-interferon treatment. Systemic increased C3a/C3 ratio may be a possible biomarker to distinguish more acute RR MS in an earlier step of MS pathogenesis and should be further investigated. GBS patients have an intrathecal complement activation that seems to occur via the classical pathway.

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