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string(2279) "BACKGROUND: One theory for the cause of neurological conditions is infection by pathological agents, including viruses, bacteria and fungi. These infections, and/or their treatment, may lead to dysbiosis and microflora imbalances in the gut. Anti-infective medications have demonstrated neuroprotective defense against various microorganisms.
OBJECTIVE: In this retrospective cohort study, we will aim to determine whether administration of systemic anti-infective medications has any impact on the progression of neurological diseases. We will also examine whether certain groups of these medications are more effective in altering neurological disease progression than others.
We hypothesize that anti-infective medications may offer a therapeutic value for treating various neurological diseases, and other diseases with neurological manifestations. The study objectives will be to gather substantial data to support the hypothesis.
STUDY DESIGN: The proposed study design allows aggregation of a large datasets, examining multiple neurological diseases and anti-infective medications, without the need to perform expensive and time-consuming clinical trials for each of the variables alone.
PARTICIPANTS: Participants from the placebo group in neurological clinical trials who were administered anti-infective drugs for reasons unrelated to the clinical trial will be assessed for changes in their neurological condition and compared with placebo patients not given anti-infectives.
MAIN OUTCOME MEASURE: This exploratory study will initially focus on each neurological condition (e.g., Parkinson's disease, etc.) and for each outcome (e.g., Unified Parkinson's Disease Rating Scale-UPDRS, etc.). If promising results are identified, we will try to combine data from multiple studies for the same disease with the same output measure and similar duration, to get a more comprehensive understanding of the relationship between the neurological pathology and treatment mechanisms with anti-infective agents.
STATISTICAL ANALYSIS: This will be a retrospective meta-analysis using chi-squared statistics to compare neurological disease progression between placebo group patients treated with anti infectives versus those that were not."
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string(3221) "Neurological pathologies, for example neurodegenerative diseases such as PD, AD and other dementias, or painful chronic conditions such as migraines, have been described by the World Health Organization (WHO) as one of the greatest public health challenges (5), requiring ongoing intervention. Therefore, research into identifying potential causes of these diseases is essential.
One theory for the cause of neurological conditions is infection by pathological agents, including viruses, bacteria and fungi (6, 7, 8, 9). Furthermore these infections, and/or the treatment for them, may lead to dysbiosis and microflora imbalances in the gut, which has been associated with various pathologies including neurological conditions (10, 11, 12, 13). In addition, anti-infective medications have demonstrated to provide neuroprotective defense against various microorganisms (14, 15, 16).
To further examine potential benefits of anti-infective medications as potential therapeutics for neurological pathologies, we are proposing to perform the current study, where we will examine the relationship between use of anti-infective agents and progression of neurological disease in placebo patients treated with anti-infective agents. The study will utilize data available from the YODA database, as well as several other similar databases, to review, and assess the potential efficacy of anti-infective medications, provided as a backup concomitant medications, in placebo patients participating in neurological clinical studies.
This will be a retrospective meta-analysis using chi-squared statistics to compare neurological disease progression between placebo group patients treated with anti-infectives versus those that were not. The study will focus on the following diseases, including PD, AD, Frontotemporal Dementia (FTD), Multiple Sclerosis (MS), Amyotrophic Lateral Sclerosis (ALS), Migraine, Fibromyalgia and Systemic Lupus Erythematosus (SLE) in this project and future projects may be expanded to other neurological conditions. The knowledge obtained from this study will provide further data regarding the possible infection mechanisms involved in the pathogenesis of neurological disease, and whether anti-infective therapy may affect subsequent neurological disease processes. As a result these findings may offer potential avenues for diagnosing and treating neurological conditions, and positively modify their evolution. It is anticipated that the finding from this study may provide valuable insights that will justify further future clinical trials, in which the influence of identified mechanisms on disease progression would be examined.
The availability of clinical data from various randomized studies makes such data an attractive source for a systematic research, meta-analysis and data mining. These research methods offer valuable opportunities to examine diseases from different aspects than planned in the clinical trial design and identify novel features of disease pathology and treatment. Moreover, combining data from multiple clinical studies targeting the same population increases the statistical power of the analysis making the data more convincing and robust."
["project_specific_aims"]=>
string(1225) "In this study, we will aim to determine whether administration of systemic anti-infective medications has any impact on the progression of neurological diseases. We will also examine whether certain groups of these medications are more effective in altering neurological disease progression than others.
We hypothesize that anti-infective medications may offer a therapeutic value for treating various neurological disease, and other diseases with neurological manifestations. The study objectives will be to gather substantial data to support the hypothesis.
The proposed study design allows aggregation of a large datasets, examining multiple neurological diseases and anti-infective medications, without the need to perform expensive and time-consuming clinical trials for each of the variables alone. Should interesting results be identified, i.e., evidence indicating an anti-infective medication may have an effect on neurological symptom progression, future clinical trials examining the effect directly may be conducted.
This exploratory study will initially focus on each neurological condition (e.g., PD, etc.) and for each outcome (e.g., Unified Parkinson's Disease Rating Scale-UPDRS, etc.)."
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string(1191) "This study will utilize data available from the YODA database to assess the potential efficacy of anti-infective medications, provided as a backup concomitant medications, in placebo patients participating in neurological clinical studies.
This will be a retrospective meta-analysis using chi-squared statistics to compare neurological disease progression between placebo group patients treated with anti- infectives versus those that were not. The study will focus on the following diseases, including Parkinson's disease, Alzheimer's disease, Frontotemporal Dementia (FTD), Multiple Sclerosis (MS), Amyotrophic Lateral Sclerosis (ALS), Migraine, Fibromyalgia and Systemic Lupus Erythematosus (SLE) in this project and future projects may be expanded to other neurological conditions. The knowledge obtained from this study will provide further data regarding the possible infection mechanisms involved in the pathogenesis of neurological disease, and whether anti-infective therapy may affect subsequent neurological disease processes. As a result these findings may offer potential avenues for diagnosing and treating neurological conditions, and positively modify their evolution."
["project_main_outcome_measure"]=>
string(1017) "We will identify whether individuals receiving anti-infective medications demonstrated any alterations in progression of the neurological condition they have been diagnosed with. The precise measure of disease progression will depend on the measures and outcomes available in the database. We will classify disease progression measures based on objectives, external measures, e.g. biochemical measures, behavioral measures, neurological, clinical, biomarkers, cellular function, and imaging data. We will examine whether there is a statistically lower level of disease impact and representation in individuals administered with anti-invective treatment compared to individuals that were not provided with any such treatment throughout the study.
Attached is a table with all predictors that will be used per disease.
Change in outcome measure will be calculated as change from baseline to last observed value using LOCF methodology, and will classifies initially as improved, worsening or no change"
["project_main_predictor_indep"]=>
string(979) "For each clinical study, subjects demonstrating improvement on the efficacy outcome measures of the study will be considered to have positively responded to the anti-infective treatments in terms of their neurological condition.
Other independent variables that will used:
1. Concomitant medications taken will be classified by the pharmacological subgroup of medication in all 5 levels.
2. All Pharmacological levels of anti-infective concomitant medications with at least 30 patients.
Descriptive statistics on medications will include: Duration of treatment, total daily dose provided, and type of anti-infective agent given.
All these will be examined to determine whether these types of medication alter neurological disease outcome. In addition, we are interested to explore whether different types of microbial infection may alter neurological disease progression. Based on the availability of data, this will be examined in the study."
["project_other_variables_interest"]=>
string(1064) "We will collect demographic data, baseline characteristics of their disease. This data will be used to analyze the data and look on descriptive statistics on each group of patients analyzed.
Indeed it is an ambitious project. It is difficult to predict in advance what will be found, but if successful, it may benefit patients suffering from the researched diseases and the medical community by allowing insights to new disease mechanisms and may allow new treatment options. We are looking for a needle in the haystack enabling us to have a signal, to allow for additional focused in-depth research. We hope that short-term anti-infective treatment will have an effect in both short and long trials. The short term studies are also important for our project analysis, as they were initially designed to show clinical effect in measuring the research scales in the study time frame. We expect that even short term anti-infective treatment will have a long lasting effect in the researched disease regardless the interval between efficacy measurements."
["project_stat_analysis_plan"]=>
string(2562) "A Detailed Statistical Analysis Plan (SAP) compiled upon exploration of the available data
The Plan will include the following key parameters:
1. Only patients from the placebo group will be used for each clinical trial.
2. Studies with a minimum of 100 participants, will be included.
3. Placebo group patients will be split into 2 groups, those that were provided anti-infective medications (for study -unrelated reasons) and those that were not (further details below).
4. Separate analysis will be performed for each neurological disease and each study.
5. Efficacy outcome measures (i.e. endpoint) will be used for each study to classify the patients as improved, no change or worsened for that specific outcome measure.
About the statistical analysis to be conducted: As outlined in the proposal a detailed statistical analysis plan (SAP) will be compiled upon the exploration of the available data received. This plan will govern that statistical analysis to be conducted following the sign-off of the SAP.
As for the the statistical power: Data will be analyzed per study and an attempt will be made to combine similar outcomes from different studies on the same disease. However, the statistical power cannot be determined at this stage as the number of subjects treated with anti-infective agents as well as the magnitude of the effect of these agents on each disease outcome as will be made available in the shared database are yet unknown.
A more detailed description of the study objectives in terms of hypothesis testing as well as the corresponding power will be described the SAP to be completed and signed before the conduct of the study analyses.
Furthermore, the retrospective analysis of this study will use categorical data analysis methods with the aim of identifying a respondents subsets of patients. Statistical models will include Chi-Square tests as well as logistic regressions as well as generalized linear mixed model that will allow the handling of repeated measures and will enable adjustment for various prognostic factors
If data is complete we will use changes from baseline , otherwise we will try in case of missing data use Mixed models which assume Missing at Random (MAR) pattern and /or multiple imputation procedures that will allow to treat missing values under the Missing not at Random (MNAR) assumption will be used to treat missing values and these will be detailed in the SAP to be developed prior to initiation of the data analyses."
["project_timeline"]=>
string(427) "1. Understanding data content, structure, completeness and relationship between data elements (6 weeks)
2. Build a detailed statistical analysis plan (3 weeks)
3. Analyze each study separately (3-4 weeks), in total 7-9 months to complete the analysis
4. Meta-analysis (1 month)
5. Statistical report (1 month)
6. Publication (2 months)
Total project timeline approximately 12-14 months"
["project_dissemination_plan"]=>
string(691) "Upon completion of the data analysis, study results will be shared with colleagues with the aim to establish a collaboration for further work in this area. Findings will also be written as a manuscript and submitted to appropriate journals (e.g., journal of Clinical Neuroscience, Neurology, Lancet Neurology, etc.) for publication based on the robustness and significance of the data. Findings may also be presented in distinguished conferences and congresses (e.g., American Academy of Neurology- AAN, European Academy of Neurology-EAN, World Congress of Neurology- WCN, etc.). If warranted, a request for access to further data will be made to examine interesting findings in more detail."
["project_bibliography"]=>
string(3566) "Bibliography:
(1) Dehhaghi, M., Kazemi Shariat Panahi, H., & Guillemin, G. J. (2018, December 04). Microorganisms’ Footprint in Neurodegenerative Diseases. Retrieved from https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6288487/
(2) Wouk, J., Rechenchoski, D. Z., Rodrigues, B. C., Ribelato, E. V., & Faccin-Galhardi, L. C. (2021). Viral infections and their relationship to neurological disorders. Archives of Virology, 166(3), 733-753. doi:10.1007/s00705-021-04959-6
(3) Ma, Q., Xing, C., Long, W. et al. Impact of microbiota on central nervous system and neurological diseases: the gut-brain axis. J Neuroinflammation 16, 53 (2019). https://doi.org/10.1186/s12974-019-1434-3 . doi: https://doi.org/10.1186/s12974-019-1434-3
(4) Mallah, K., Couch, C., Borucki, D. M., Toutonji, A., Alshareef, M., & Tomlinson, S. (2020). Anti-inflammatory and Neuroprotective Agents in Clinical Trials for CNS Disease and Injury: Where Do We Go From Here?. Frontiers in immunology, 11, 2021. https://doi.org/10.3389/fimmu.2020.02021
(5) Mehnert, U. M. F. L. (2018). The Management of Urine Storage Dysfunction in the Neurological Patient.Datawyse / Universitaire Pers Maastricht. https://doi.org/10.26481/dis.20181213um https://www.who.int/mental_health/neurology/neurodiso/en/
(6) Desforges, Marc et al. ?Human Coronaviruses and Other Respiratory Viruses: Underestimated Opportunistic Pathogens of the Central Nervous System?.? Viruses vol. 12,1 14. 20 Dec. 2019, doi:10.3390/v12010014
(7) Gravina, Antonietta Gerarda et al. ?Helicobacter pylori and extragastric diseases: A review.? World journal of gastroenterology vol. 24,29 (2018): 3204-3221. doi:10.3748/wjg.v24.i29.3204
(8) Gralska, Katarzyna et al. ?Neuroinfections caused by fungi.? Infection vol. 46,4 (2018): 443-459. doi:10.1007/s15010-018-1152-2
(9) Wouk, Jssica et al. ?Viral infections and their relationship to neurological disorders.? Archives of virology vol. 166,3 (2021): 733-753. doi:10.1007/s00705-021-04959-6
(10) Holmes, Aleah et al. ?Gut dysbiosis and age-related neurological diseases; an innovative approach for therapeutic interventions.? Translational research : the journal of laboratory and clinical medicine vol. 226 (2020): 39-56. doi:10.1016/j.trsl.2020.07.012
(11) Galland, Leo. ?The gut microbiome and the brain.? Journal of medicinal food vol. 17,12 (2014): 1261-72. doi:10.1089/jmf.2014.7000
(12) Sasmita, Andrew Octavian. ?Modification of the gut microbiome to combat neurodegeneration.? Reviews in the neurosciences vol. 30,8 (2019): 795-805. doi:10.1515/revneuro-2019-0005
(13) Tyler Patterson, T, and Ramesh Grandhi. ?Gut Microbiota and Neurologic Diseases and Injuries.? Advances in experimental medicine and biology vol. 1238 (2020): 73-91. doi:10.1007/978-981-15-2385-4_6
(14) Stock, Matthew L et al. ?Antibiotics acting as neuroprotectants via mechanisms independent of their antiinfective activities.? Neuropharmacology vol. 73 (2013): 174-82. doi:10.1016/j.neuropharm.2013.04.059
(15) Stock, Matthew L et al. ?Antibiotics acting as neuroprotectants via mechanisms independent of their antiinfective activities.? Neuropharmacology vol. 73 (2013): 174-82. doi:10.1016/j.neuropharm.2013.04.059
(16) Moir, R. D., Lathe, R., & Tanzi, R. E. (2018). The antimicrobial protection hypothesis of Alzheimer’s disease. Alzheimer’s & dementia : the journal of the Alzheimer’s Association, 14(12), 1602?1614. https://doi.org/10.1016/j.jalz.2018.06.3040
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General Information
How did you learn about the YODA Project?:
Data Holder (Company)
Conflict of Interest
Request Clinical Trials
Associated Trial(s):
- NCT00236561 - A Randomized, Double-Blind, Parallel-Group, Dose-Response Study to Evaluate the Efficacy and Safety of Two Doses of Topiramate Compared to Placebo and Propranolol in the Prophylaxis of Migraine
- NCT00210912 - A Comparison of the Efficacy and Safety of Topiramate Versus Placebo for the Prophylaxis of Chronic Migraine
- NCT00249158 - Risperidone in the Treatment of Behavioural and Psychological Signs and Symptoms in Dementia (BPSSD): a Multicentre, Double-blind, Placebo-controlled Parallel-group Trial
- NCT00034762 - Efficacy And Safety Of A Flexible Dose Of Risperidone Versus Placebo In The Treatment Of Psychosis Of Alzheimer's Disease
- NCT00253123 - A Randomized, Double-Blind, Placebo-Controlled Study of Risperidone for Treatment of Behavioral Disturbances in Subjects With Dementia
- NCT00253214 - Placebo-Controlled Evaluation of Galantamine in the Treatment of Alzheimer's Disease: Safety and Efficacy of a Controlled-Release Formulation
- NCT00236574 - A Randomized Double Blind Placebo-Controlled Trial to Evaluate the Efficacy and Safety of Galantamine in Patients With Mild Cognitive Impairment (MCI) Clinically at Risk for Development of Clinically Probable Alzheimer's Disease
- NCT00236431 - A Randomized Double-Blind Placebo-Controlled Trial to Evaluate the Efficacy and Safety of Galantamine in Patients With Mild Cognitive Impairment (MCI) Clinically at Risk for Development of Clinically Probable Alzheimer's Disease
- NCT00679627 - A Randomized, Double-Blind, Placebo-controlled Trial of Long-term (2-year) Treatment of Galantamine in Mild to Moderately-Severe Alzheimer's Disease
- NCT00216619 - A Double-Blind, Randomized, Placebo-Controlled, Multicenter Trial to Investigate the Efficacy and Tolerability of Topiramate in Prolonged Migraine Prevention
- Placebo-controlled evaluation of galantamine in the treatment of Alzheimer’s disease: Evaluation of safety and efficacy under a slow titration regimen
What type of data are you looking for?:
Individual Participant-Level Data, which includes Full CSR and all supporting documentation
Request Clinical Trials
Data Request Status
Status:
Concluded
Research Proposal
Project Title:
The effects of systemic anti-infective concomitant medications on progression of neurological diseases
Scientific Abstract:
BACKGROUND: One theory for the cause of neurological conditions is infection by pathological agents, including viruses, bacteria and fungi. These infections, and/or their treatment, may lead to dysbiosis and microflora imbalances in the gut. Anti-infective medications have demonstrated neuroprotective defense against various microorganisms.
OBJECTIVE: In this retrospective cohort study, we will aim to determine whether administration of systemic anti-infective medications has any impact on the progression of neurological diseases. We will also examine whether certain groups of these medications are more effective in altering neurological disease progression than others.
We hypothesize that anti-infective medications may offer a therapeutic value for treating various neurological diseases, and other diseases with neurological manifestations. The study objectives will be to gather substantial data to support the hypothesis.
STUDY DESIGN: The proposed study design allows aggregation of a large datasets, examining multiple neurological diseases and anti-infective medications, without the need to perform expensive and time-consuming clinical trials for each of the variables alone.
PARTICIPANTS: Participants from the placebo group in neurological clinical trials who were administered anti-infective drugs for reasons unrelated to the clinical trial will be assessed for changes in their neurological condition and compared with placebo patients not given anti-infectives.
MAIN OUTCOME MEASURE: This exploratory study will initially focus on each neurological condition (e.g., Parkinson's disease, etc.) and for each outcome (e.g., Unified Parkinson's Disease Rating Scale-UPDRS, etc.). If promising results are identified, we will try to combine data from multiple studies for the same disease with the same output measure and similar duration, to get a more comprehensive understanding of the relationship between the neurological pathology and treatment mechanisms with anti-infective agents.
STATISTICAL ANALYSIS: This will be a retrospective meta-analysis using chi-squared statistics to compare neurological disease progression between placebo group patients treated with anti infectives versus those that were not.
Brief Project Background and Statement of Project Significance:
Neurological pathologies, for example neurodegenerative diseases such as PD, AD and other dementias, or painful chronic conditions such as migraines, have been described by the World Health Organization (WHO) as one of the greatest public health challenges (5), requiring ongoing intervention. Therefore, research into identifying potential causes of these diseases is essential.
One theory for the cause of neurological conditions is infection by pathological agents, including viruses, bacteria and fungi (6, 7, 8, 9). Furthermore these infections, and/or the treatment for them, may lead to dysbiosis and microflora imbalances in the gut, which has been associated with various pathologies including neurological conditions (10, 11, 12, 13). In addition, anti-infective medications have demonstrated to provide neuroprotective defense against various microorganisms (14, 15, 16).
To further examine potential benefits of anti-infective medications as potential therapeutics for neurological pathologies, we are proposing to perform the current study, where we will examine the relationship between use of anti-infective agents and progression of neurological disease in placebo patients treated with anti-infective agents. The study will utilize data available from the YODA database, as well as several other similar databases, to review, and assess the potential efficacy of anti-infective medications, provided as a backup concomitant medications, in placebo patients participating in neurological clinical studies.
This will be a retrospective meta-analysis using chi-squared statistics to compare neurological disease progression between placebo group patients treated with anti-infectives versus those that were not. The study will focus on the following diseases, including PD, AD, Frontotemporal Dementia (FTD), Multiple Sclerosis (MS), Amyotrophic Lateral Sclerosis (ALS), Migraine, Fibromyalgia and Systemic Lupus Erythematosus (SLE) in this project and future projects may be expanded to other neurological conditions. The knowledge obtained from this study will provide further data regarding the possible infection mechanisms involved in the pathogenesis of neurological disease, and whether anti-infective therapy may affect subsequent neurological disease processes. As a result these findings may offer potential avenues for diagnosing and treating neurological conditions, and positively modify their evolution. It is anticipated that the finding from this study may provide valuable insights that will justify further future clinical trials, in which the influence of identified mechanisms on disease progression would be examined.
The availability of clinical data from various randomized studies makes such data an attractive source for a systematic research, meta-analysis and data mining. These research methods offer valuable opportunities to examine diseases from different aspects than planned in the clinical trial design and identify novel features of disease pathology and treatment. Moreover, combining data from multiple clinical studies targeting the same population increases the statistical power of the analysis making the data more convincing and robust.
Specific Aims of the Project:
In this study, we will aim to determine whether administration of systemic anti-infective medications has any impact on the progression of neurological diseases. We will also examine whether certain groups of these medications are more effective in altering neurological disease progression than others.
We hypothesize that anti-infective medications may offer a therapeutic value for treating various neurological disease, and other diseases with neurological manifestations. The study objectives will be to gather substantial data to support the hypothesis.
The proposed study design allows aggregation of a large datasets, examining multiple neurological diseases and anti-infective medications, without the need to perform expensive and time-consuming clinical trials for each of the variables alone. Should interesting results be identified, i.e., evidence indicating an anti-infective medication may have an effect on neurological symptom progression, future clinical trials examining the effect directly may be conducted.
This exploratory study will initially focus on each neurological condition (e.g., PD, etc.) and for each outcome (e.g., Unified Parkinson's Disease Rating Scale-UPDRS, etc.).
Study Design:
What is the purpose of the analysis being proposed? Please select all that apply.:
Software Used:
Data Source and Inclusion/Exclusion Criteria to be used to define the patient sample for your study:
This study will utilize data available from the YODA database to assess the potential efficacy of anti-infective medications, provided as a backup concomitant medications, in placebo patients participating in neurological clinical studies.
This will be a retrospective meta-analysis using chi-squared statistics to compare neurological disease progression between placebo group patients treated with anti- infectives versus those that were not. The study will focus on the following diseases, including Parkinson's disease, Alzheimer's disease, Frontotemporal Dementia (FTD), Multiple Sclerosis (MS), Amyotrophic Lateral Sclerosis (ALS), Migraine, Fibromyalgia and Systemic Lupus Erythematosus (SLE) in this project and future projects may be expanded to other neurological conditions. The knowledge obtained from this study will provide further data regarding the possible infection mechanisms involved in the pathogenesis of neurological disease, and whether anti-infective therapy may affect subsequent neurological disease processes. As a result these findings may offer potential avenues for diagnosing and treating neurological conditions, and positively modify their evolution.
Primary and Secondary Outcome Measure(s) and how they will be categorized/defined for your study:
We will identify whether individuals receiving anti-infective medications demonstrated any alterations in progression of the neurological condition they have been diagnosed with. The precise measure of disease progression will depend on the measures and outcomes available in the database. We will classify disease progression measures based on objectives, external measures, e.g. biochemical measures, behavioral measures, neurological, clinical, biomarkers, cellular function, and imaging data. We will examine whether there is a statistically lower level of disease impact and representation in individuals administered with anti-invective treatment compared to individuals that were not provided with any such treatment throughout the study.
Attached is a table with all predictors that will be used per disease.
Change in outcome measure will be calculated as change from baseline to last observed value using LOCF methodology, and will classifies initially as improved, worsening or no change
Main Predictor/Independent Variable and how it will be categorized/defined for your study:
For each clinical study, subjects demonstrating improvement on the efficacy outcome measures of the study will be considered to have positively responded to the anti-infective treatments in terms of their neurological condition.
Other independent variables that will used:
1. Concomitant medications taken will be classified by the pharmacological subgroup of medication in all 5 levels.
2. All Pharmacological levels of anti-infective concomitant medications with at least 30 patients.
Descriptive statistics on medications will include: Duration of treatment, total daily dose provided, and type of anti-infective agent given.
All these will be examined to determine whether these types of medication alter neurological disease outcome. In addition, we are interested to explore whether different types of microbial infection may alter neurological disease progression. Based on the availability of data, this will be examined in the study.
Other Variables of Interest that will be used in your analysis and how they will be categorized/defined for your study:
We will collect demographic data, baseline characteristics of their disease. This data will be used to analyze the data and look on descriptive statistics on each group of patients analyzed.
Indeed it is an ambitious project. It is difficult to predict in advance what will be found, but if successful, it may benefit patients suffering from the researched diseases and the medical community by allowing insights to new disease mechanisms and may allow new treatment options. We are looking for a needle in the haystack enabling us to have a signal, to allow for additional focused in-depth research. We hope that short-term anti-infective treatment will have an effect in both short and long trials. The short term studies are also important for our project analysis, as they were initially designed to show clinical effect in measuring the research scales in the study time frame. We expect that even short term anti-infective treatment will have a long lasting effect in the researched disease regardless the interval between efficacy measurements.
Statistical Analysis Plan:
A Detailed Statistical Analysis Plan (SAP) compiled upon exploration of the available data
The Plan will include the following key parameters:
1. Only patients from the placebo group will be used for each clinical trial.
2. Studies with a minimum of 100 participants, will be included.
3. Placebo group patients will be split into 2 groups, those that were provided anti-infective medications (for study -unrelated reasons) and those that were not (further details below).
4. Separate analysis will be performed for each neurological disease and each study.
5. Efficacy outcome measures (i.e. endpoint) will be used for each study to classify the patients as improved, no change or worsened for that specific outcome measure.
About the statistical analysis to be conducted: As outlined in the proposal a detailed statistical analysis plan (SAP) will be compiled upon the exploration of the available data received. This plan will govern that statistical analysis to be conducted following the sign-off of the SAP.
As for the the statistical power: Data will be analyzed per study and an attempt will be made to combine similar outcomes from different studies on the same disease. However, the statistical power cannot be determined at this stage as the number of subjects treated with anti-infective agents as well as the magnitude of the effect of these agents on each disease outcome as will be made available in the shared database are yet unknown.
A more detailed description of the study objectives in terms of hypothesis testing as well as the corresponding power will be described the SAP to be completed and signed before the conduct of the study analyses.
Furthermore, the retrospective analysis of this study will use categorical data analysis methods with the aim of identifying a respondents subsets of patients. Statistical models will include Chi-Square tests as well as logistic regressions as well as generalized linear mixed model that will allow the handling of repeated measures and will enable adjustment for various prognostic factors
If data is complete we will use changes from baseline , otherwise we will try in case of missing data use Mixed models which assume Missing at Random (MAR) pattern and /or multiple imputation procedures that will allow to treat missing values under the Missing not at Random (MNAR) assumption will be used to treat missing values and these will be detailed in the SAP to be developed prior to initiation of the data analyses.
Narrative Summary:
Various evidence suggests neurological conditions may be induced or exacerbated by microbial infections. Furthermore, it has been shown that anti-infective medications may have neuroprotective properties. A retrospective cohort study was chosen for this research as this will enable us to examine many type of diseases, and many groups of medications, without the need to expose new patients for a new investigation by using existing data. The availability of clinical data from various randomized studies makes such data an attractive source for systematic research on many diseases and many groups of anti-infective medications. We will examine the effect of anti-infective agents on progression
Project Timeline:
1. Understanding data content, structure, completeness and relationship between data elements (6 weeks)
2. Build a detailed statistical analysis plan (3 weeks)
3. Analyze each study separately (3-4 weeks), in total 7-9 months to complete the analysis
4. Meta-analysis (1 month)
5. Statistical report (1 month)
6. Publication (2 months)
Total project timeline approximately 12-14 months
Dissemination Plan:
Upon completion of the data analysis, study results will be shared with colleagues with the aim to establish a collaboration for further work in this area. Findings will also be written as a manuscript and submitted to appropriate journals (e.g., journal of Clinical Neuroscience, Neurology, Lancet Neurology, etc.) for publication based on the robustness and significance of the data. Findings may also be presented in distinguished conferences and congresses (e.g., American Academy of Neurology- AAN, European Academy of Neurology-EAN, World Congress of Neurology- WCN, etc.). If warranted, a request for access to further data will be made to examine interesting findings in more detail.
Bibliography:
Bibliography:
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