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1		-==== **Overview** ====
	1	+**# Neurodiagnoses AI: Multimodal AI for Neurodiagnostic Predictions**
2	2
3		-This project develops a **tridimensional diagnostic framework** for **CNS diseases**, incorporating **AI-powered annotation tools** to improve **interpretability, standardization, and clinical utility**. The methodology integrates **multi-modal data**, including **genetic, neuroimaging, neurophysiological, and biomarker datasets**, and applies **machine learning models** to generate **structured, explainable diagnostic outputs**.
	3	+## **Project Overview**
	4	+Neurodiagnoses AI implements AI-driven diagnostic and prognostic models for central nervous system (CNS) disorders, adapting the Florey Dementia Index (FDI) methodology to a broader set of neurological conditions. The approach integrates **multimodal data sources** (EEG, neuroimaging, biomarkers, and genetics) and employs **machine learning models** to provide **explainable, real-time diagnostic insights**.##
4	4
5		-=== **Workflow** ===
	6	+## **How to Use External Databases in Neurodiagnoses**
	7	+To enhance diagnostic accuracy, Neurodiagnoses integrates data from multiple biomedical and neurological research databases. Researchers can follow these steps to access, prepare, and integrate data into the Neurodiagnoses framework.##
6	6
7		-1. (((
8		-**We Use GitHub to [[Store and develop AI models, scripts, and annotation pipelines.>>https://github.com/Fundacion-de-Neurociencias/neurodiagnoses/discussions]]**
	9	+### **Potential Data Sources**
	10	+Neurodiagnoses maintains an updated list of potential biomedical databases relevant to neurodegenerative diseases. ##
9	9
10		-* Create a **GitHub repository** for AI scripts and models.
11		-* Use **GitHub Projects** to manage research milestones.
12		-)))
13		-1. (((
14		-**We Use EBRAINS for Data & Collaboration**
	12	+**Reference: List of Potential Databases**
	13	+- **ADNI**: Alzheimer's Disease data ([ADNI](https://adni.loni.usc.edu))
	14	+- **PPMI**: Parkinson’s Disease Imaging and biospecimens ([PPMI](https://www.ppmi-info.org))
	15	+- **GP2**: Whole-genome sequencing for PD ([GP2](https://gp2.org))
	16	+- **Enroll-HD**: Huntington’s Disease Clinical and genetic data ([Enroll-HD](https://www.enroll-hd.org))
	17	+- **GAAIN**: Multi-source Alzheimer’s data aggregation ([GAAIN](https://gaain.org))
	18	+- **UK Biobank**: Population-wide genetic, imaging, and health records ([UK Biobank](https://www.ukbiobank.ac.uk))
	19	+- **DPUK**: Dementia and Aging data ([DPUK](https://www.dementiasplatform.uk))
	20	+- **PRION Registry**: Prion Diseases clinical and genetic data ([PRION Registry](https://prionregistry.org))
	21	+- **DECIPHER**: Rare genetic disorder genomic variants ([DECIPHER](https://decipher.sanger.ac.uk))
15	15
16		-* Store **biomarker and neuroimaging data** in **EBRAINS Buckets**.
17		-* Run **Jupyter Notebooks** in **EBRAINS Lab** to test AI models.
18		-* Use **EBRAINS Wiki** for structured documentation and research discussion.
19		-)))
	23	+### **1. Register for Access**
	24	+- Each external database requires **individual registration** and access approval.
	25	+- Ensure compliance with **ethical approvals** and **data usage agreements** before integrating datasets into Neurodiagnoses.
	26	+- Some repositories may require a **Data Usage Agreement (DUA)** for sensitive medical data.##
20	20
21		-----
	28	+### **2. Download & Prepare Data**
	29	+- Download datasets while adhering to database usage policies.
	30	+- Ensure files meet **Neurodiagnoses format requirements**:
	31	+ - **Tabular Data**: `.csv`, `.tsv`
	32	+ - **Neuroimaging Data**: `.nii`, `.dcm`
	33	+ - **Genomic Data**: `.fasta`, `.vcf`
	34	+ - **Clinical Metadata**: `.json`, `.xml`##
22	22
23		-=== **1. Data Integration** ===
	36	+- **Mandatory Fields for Integration**:
	37	+ - **Subject ID**: Unique patient identifier
	38	+ - **Diagnosis**: Standardized disease classification
	39	+ - **Biomarkers**: CSF, plasma, or imaging biomarkers
	40	+ - **Genetic Data**: Whole-genome or exome sequencing
	41	+ - **Neuroimaging Metadata**: MRI/PET acquisition parameters
24	24
25		-==== **Data Sources** ====
	43	+### **3. Upload Data to Neurodiagnoses**
	44	+**Option 1: Upload to EBRAINS Bucket**
	45	+- Location: **EBRAINS Neurodiagnoses Bucket**
	46	+- Ensure correct **metadata tagging** before submission.##
26	26
27		-**Biomedical Ontologies & Databases:**
	48	+ **Option 2: Contribute via GitHub Repository**
	49	+- Location: **GitHub Data Repository**
	50	+- Create a new folder under `/data/` and include a **dataset description**.
	51	+- For large datasets, contact project administrators before uploading.
28	28
29		-* **Human Phenotype Ontology (HPO)** for symptom annotation.
30		-* **Gene Ontology (GO)** for molecular and cellular processes.
	53	+### **4. Integrate Data into AI Models**
	54	+- Open **Jupyter Notebooks** on EBRAINS to run **preprocessing scripts**.
	55	+- Standardize **neuroimaging and biomarker formats** using harmonization tools.
	56	+- Use **machine learning models** to handle missing data and feature extraction.
	57	+- Train AI models with **newly integrated patient cohorts**.##
31	31
32		-**Dimensionality Reduction and Interpretability:**
	59	+**Reference**: See `docs/data_processing.md` for detailed instructions.
33	33
34		-* **Evaluate interpretability** using metrics like the **Area Under the Interpretability Curve (AUIC)**.
35		-* **Leverage [[DEIBO>>https://github.com/Mellandd/DEIBO]] (Data-driven Embedding Interpretation Based on Ontologies)** to connect model dimensions to ontology concepts.
	61	+## **Collaboration & Partnerships**##
	62	+# **Partnering with Data Providers**
	63	+Neurodiagnoses seeks partnerships with data repositories to:
	64	+- Enable **API-based data integration** for real-time processing.
	65	+- Co-develop **harmonized AI-ready datasets** with standardized annotations.
	66	+- Secure **funding opportunities** through joint grant applications.
36	36
37		-**Neuroimaging & EEG/MEG Data:**
	68	+**Interested in Partnering?**
	69	+- If you represent a research consortium or database provider, reach out to explore data-sharing agreements.
	70	+- **Contact**: info@neurodiagnoses.com
38	38
39		-* **MRI volumetric measures** for brain atrophy tracking.
40		-* **EEG functional connectivity patterns** (AI-Mind).
	72	+## **Final Notes**
	73	+Neurodiagnoses continuously expands its data ecosystem to support AI-driven clinical decision-making. Researchers and institutions are encouraged to contribute **new datasets and methodologies**.##
41	41
42		-**Clinical & Biomarker Data:**
	75	+For additional technical documentation:
	76	+- **GitHub Repository**: [Neurodiagnoses GitHub](https://github.com/neurodiagnoses)
	77	+- **EBRAINS Collaboration Page**: [EBRAINS Neurodiagnoses](https://ebrains.eu/collabs/neurodiagnoses)
43	43
44		-* **CSF biomarkers** (Amyloid-beta, Tau, Neurofilament Light).
45		-* **Sleep monitoring and actigraphy data** (ADIS).
	79	+If you experience issues integrating data, **open a GitHub Issue** or consult the **EBRAINS Neurodiagnoses Forum**.
46	46
47		-**Federated Learning Integration:**
	81	+== **How to Use External Databases in Neurodiagnoses** ==
48	48
49		-* **Secure multi-center data harmonization** (PROMINENT).
	83	+To enhance the accuracy of our diagnostic models, Neurodiagnoses integrates data from multiple biomedical and neurological research databases. If you are a researcher, follow these steps to access, prepare, and integrate data into the Neurodiagnoses framework.
50	50
51		-----
	85	+=== **Potential Data Sources** ===
52	52
53		-==== **Annotation System for Multi-Modal Data** ====
	87	+Neurodiagnoses maintains an updated list of potential biomedical databases relevant to neurodegenerative diseases.
54	54
55		-To ensure **structured integration of diverse datasets**, **Neurodiagnoses** will implement an **AI-driven annotation system**, which will:
	89	+* Reference: [[List of Potential Databases>>url:https://github.com/Fundacion-de-Neurociencias/neurodiagnoses/blob/main/data/sources/list_of_potential_databases]]
56	56
57		-* **Assign standardized metadata tags** to diagnostic features.
58		-* **Provide contextual explanations** for AI-based classifications.
59		-* **Track temporal disease progression annotations** to identify long-term trends.
	91	+=== **1. Register for Access** ===
60	60
61		-----
	93	+Each external database requires individual registration and access approval. Follow the official guidelines of each database provider.
62	62
63		-=== **2. AI-Based Analysis** ===
	95	+* Ensure that you have completed all ethical approvals and data access agreements before integrating datasets into Neurodiagnoses.
	96	+* Some repositories require a Data Usage Agreement (DUA) before downloading sensitive medical data.
64	64
65		-==== **Machine Learning & Deep Learning Models** ====
	98	+=== **2. Download & Prepare Data** ===
66	66
67		-**Risk Prediction Models:**
	100	+Once access is granted, download datasets while complying with data usage policies. Ensure that the files meet Neurodiagnoses’ format requirements for smooth integration.
68	68
69		-* **LETHE’s cognitive risk prediction model** integrated into the annotation framework.
	102	+==== **Supported File Formats** ====
70	70
71		-**Biomarker Classification & Probabilistic Imputation:**
	104	+* Tabular Data: .csv, .tsv
	105	+* Neuroimaging Data: .nii, .dcm
	106	+* Genomic Data: .fasta, .vcf
	107	+* Clinical Metadata: .json, .xml
72	72
73		-* **KNN Imputer** and **Bayesian models** used for handling **missing biomarker data**.
	109	+==== **Mandatory Fields for Integration** ====
74	74
75		-**Neuroimaging Feature Extraction:**
	111	+|=Field Name|=Description
	112	+|Subject ID|Unique patient identifier
	113	+|Diagnosis|Standardized disease classification
	114	+|Biomarkers|CSF, plasma, or imaging biomarkers
	115	+|Genetic Data|Whole-genome or exome sequencing
	116	+|Neuroimaging Metadata|MRI/PET acquisition parameters
76	76
77		-* **MRI & EEG data** annotated with **neuroanatomical feature labels**.
	118	+=== **3. Upload Data to Neurodiagnoses** ===
78	78
79		-==== **AI-Powered Annotation System** ====
	120	+Once preprocessed, data can be uploaded to EBRAINS or GitHub.
80	80
81		-* Uses **SHAP-based interpretability tools** to explain model decisions.
82		-* Generates **automated clinical annotations** in structured reports.
83		-* Links findings to **standardized medical ontologies** (e.g., **SNOMED, HPO**).
	122	+* (((
	123	+**Option 1: Upload to EBRAINS Bucket**
84	84
85		-----
	125	+* Location: [[EBRAINS Neurodiagnoses Bucket>>url:https://wiki.ebrains.eu/bin/view/Collabs/neurodiagnoses/Bucket]]
	126	+* Ensure correct metadata tagging before submission.
	127	+)))
	128	+* (((
	129	+**Option 2: Contribute via GitHub Repository**
86	86
87		-=== **3. Diagnostic Framework & Clinical Decision Support** ===
	131	+* Location: [[GitHub Data Repository>>url:https://github.com/Fundacion-de-Neurociencias/neurodiagnoses/tree/main/data]]
	132	+* Create a new folder under /data/ and include dataset description.
	133	+)))
88	88
89		-==== **Tridimensional Diagnostic Axes** ====
	135	+//Note: For large datasets, please contact the project administrators before uploading.//
90	90
91		-**Axis 1: Etiology (Pathogenic Mechanisms)**
	137	+=== **4. Integrate Data into AI Models** ===
92	92
93		-* Classification based on **genetic markers, cellular pathways, and environmental risk factors**.
94		-* **AI-assisted annotation** provides **causal interpretations** for clinical use.
	139	+Once uploaded, datasets must be harmonized and formatted before AI model training.
95	95
96		-**Axis 2: Molecular Markers & Biomarkers**
	141	+==== **Steps for Data Integration** ====
97	97
98		-* **Integration of CSF, blood, and neuroimaging biomarkers**.
99		-* **Structured annotation** highlights **biological pathways linked to diagnosis**.
	143	+* Open Jupyter Notebooks on EBRAINS to run preprocessing scripts.
	144	+* Standardize neuroimaging and biomarker formats using harmonization tools.
	145	+* Use machine learning models to handle missing data and feature extraction.
	146	+* Train AI models with newly integrated patient cohorts.
	147	+* Reference: [[Detailed instructions can be found in docs/data_processing.md>>url:https://github.com/Fundacion-de-Neurociencias/neurodiagnoses/blob/main/docs/data_processing.md]].
100	100
101		-**Axis 3: Neuroanatomoclinical Correlations**
102		-
103		-* **MRI and EEG data** provide anatomical and functional insights.
104		-* **AI-generated progression maps** annotate **brain structure-function relationships**.
105		-
106	106	----
107	107
108		-=== **4. Computational Workflow & Annotation Pipelines** ===
	151	+== **Database Sources Table** ==
109	109
110		-==== **Data Processing Steps** ====
	153	+=== **Where to Insert This** ===
111	111
112		-**Data Ingestion:**
	155	+* GitHub: [[docs/data_sources.md>>url:https://github.com/Fundacion-de-Neurociencias/neurodiagnoses/blob/main/docs/data_sources.md]]
	156	+* EBRAINS Wiki: Collabs/neurodiagnoses/Data Sources
113	113
114		-* **Harmonized datasets** stored in **EBRAINS Bucket**.
115		-* **Preprocessing pipelines** clean and standardize data.
	158	+=== **Key Databases for Neurodiagnoses** ===
116	116
117		-**Feature Engineering:**
	160	+|=Database|=Focus Area|=Data Type|=Access Link
	161	+|ADNI|Alzheimer's Disease|MRI, PET, CSF, cognitive tests|ADNI
	162	+|PPMI|Parkinson’s Disease|Imaging, biospecimens|[[PPMI>>url:https://www.ppmi-info.org/]]
	163	+|GP2|Genetic Data for PD|Whole-genome sequencing|[[GP2>>url:https://gp2.org/]]
	164	+|Enroll-HD|Huntington’s Disease|Clinical, genetic, imaging|[[Enroll-HD>>url:https://enroll-hd.org/]]
	165	+|GAAIN|Alzheimer's & Cognitive Decline|Multi-source data aggregation|[[GAAIN>>url:https://www.gaain.org/]]
	166	+|UK Biobank|Population-wide studies|Genetic, imaging, health records|[[UK Biobank>>url:https://www.ukbiobank.ac.uk/]]
	167	+|DPUK|Dementia & Aging|Imaging, genetics, lifestyle factors|[[DPUK>>url:https://www.dementiasplatform.uk/]]
	168	+|PRION Registry|Prion Diseases|Clinical and genetic data|[[PRION Registry>>url:https://www.prionalliance.org/]]
	169	+|DECIPHER|Rare Genetic Disorders|Genomic variants|DECIPHER
118	118
119		-* **AI models** extract **clinically relevant patterns** from **EEG, MRI, and biomarkers**.
	171	+If you know a relevant dataset, submit a proposal in [[GitHub Issues>>url:https://github.com/Fundacion-de-Neurociencias/neurodiagnoses/issues]].
120	120
121		-**AI-Generated Annotations:**
122		-
123		-* **Automated tagging** of diagnostic features in **structured reports**.
124		-* **Explainability modules (SHAP, LIME)** ensure transparency in predictions.
125		-
126		-**Clinical Decision Support Integration:**
127		-
128		-* **AI-annotated findings** fed into **interactive dashboards**.
129		-* **Clinicians can adjust, validate, and modify annotations**.
130		-
131	131	----
132	132
133		-=== **5. Validation & Real-World Testing** ===
	175	+== **Collaboration & Partnerships** ==
134	134
135		-==== **Prospective Clinical Study** ====
	177	+=== **Where to Insert This** ===
136	136
137		-* **Multi-center validation** of AI-based **annotations & risk stratifications**.
138		-* **Benchmarking against clinician-based diagnoses**.
139		-* **Real-world testing** of AI-powered **structured reporting**.
	179	+* GitHub: [[docs/collaboration.md>>url:https://github.com/Fundacion-de-Neurociencias/neurodiagnoses/blob/main/docs/collaboration.md]]
	180	+* EBRAINS Wiki: Collabs/neurodiagnoses/Collaborations
140	140
141		-==== **Quality Assurance & Explainability** ====
	182	+=== **Partnering with Data Providers** ===
142	142
143		-* **Annotations linked to structured knowledge graphs** for improved transparency.
144		-* **Interactive annotation editor** allows clinicians to validate AI outputs.
	184	+Beyond using existing datasets, Neurodiagnoses seeks partnerships with data repositories to:
145	145
146		-----
	186	+* Enable direct API-based data integration for real-time processing.
	187	+* Co-develop harmonized AI-ready datasets with standardized annotations.
	188	+* Secure funding opportunities through joint grant applications.
147	147
148		-=== **6. Collaborative Development** ===
	190	+=== **Interested in Partnering?** ===
149	149
150		-The project is **open to contributions** from **researchers, clinicians, and developers**.
	192	+If you represent a research consortium or database provider, reach out to explore data-sharing agreements.
151	151
152		-**Key tools include:**
	194	+* Contact: [[info@neurodiagnoses.com>>mailto:info@neurodiagnoses.com]]
153	153
154		-* **Jupyter Notebooks**: For data analysis and pipeline development.
155		-** Example: **probabilistic imputation**
156		-* **Wiki Pages**: For documenting methods and results.
157		-* **Drive and Bucket**: For sharing code, data, and outputs.
158		-* **Collaboration with related projects**:
159		-** Example: **Beyond the hype: AI in dementia – from early risk detection to disease treatment**
160		-
161	161	----
162	162
163		-=== **7. Tools and Technologies** ===
	198	+== **Final Notes** ==
164	164
165		-==== **Programming Languages:** ====
	200	+Neurodiagnoses continuously expands its data ecosystem to support AI-driven clinical decision-making. Researchers and institutions are encouraged to contribute new datasets and methodologies.
166	166
167		-* **Python** for AI and data processing.
	202	+For additional technical documentation:
168	168
169		-==== **Frameworks:** ====
	204	+* [[GitHub Repository>>url:https://github.com/Fundacion-de-Neurociencias/neurodiagnoses]]
	205	+* [[EBRAINS Collaboration Page>>url:https://wiki.ebrains.eu/bin/view/Collabs/neurodiagnoses/]]
170	170
171		-* **TensorFlow** and **PyTorch** for machine learning.
172		-* **Flask** or **FastAPI** for backend services.
173		-
174		-==== **Visualization:** ====
175		-
176		-* **Plotly** and **Matplotlib** for interactive and static visualizations.
177		-
178		-==== **EBRAINS Services:** ====
179		-
180		-* **Collaboratory Lab** for running Notebooks.
181		-* **Buckets** for storing large datasets.
182		-
183		-----
184		-
185		-=== **Why This Matters** ===
186		-
187		-* The annotation system ensures that AI-generated insights are structured, interpretable, and clinically meaningful.
188		-* It enables real-time tracking of disease progression across the three diagnostic axes.
189		-* It facilitates integration with electronic health records and decision-support tools, improving AI adoption in clinical workflows.
	207	+If you experience issues integrating data, open a [[GitHub Issue>>url:https://github.com/Fundacion-de-Neurociencias/neurodiagnoses/issues]] or consult the EBRAINS Neurodiagnoses Forum.