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Enter neutralization data (mAb)
For monoclonal antibodies (mAbs), the most important drugs are the mAbs in clinical trials or under Emergency Use Authorization (EUA).
Please pay attention to the information below in Abstract, Methods and materials, Result, or supplementary content:
- Paper metadata
- first author's name
-
DOI, for publications without DOI, please provide the URL -
yearof publication
- mAb metadata
- name or synonyms
- PDB files, epitope
- clinical trial stages
- Neutralizing potency
- the most important data is
50% neutralization concentration (IC50) - we also record IC80, IC90... etc if available
- the most important data is
- Neutralization assay
- Variants and mutations of SARS-CoV-2 used in the assay
- assay type, for example
live virus,pseudovirus
Different papers are using different methods to represent the neutralization data. Some of them are easy for extracting, others need more work. Also, some papers don't provide IC50 data but fold change only. The IC50 data are considered finer than fold change data.
Here is a list of different representations:
- Table of mAbs, IC50, and variants
- Dose-responsive curve of mAb and variants
- Figure of mAbs, IC50, and variants for comparing different mAbs
- IC50 value from the body text
- IC50 fold change between control and test variants
Despite different representations, the key information is the same:
- mAb or treatment name
- control and test variants and their mutations
- neutralization assay type
- IC50, or IC80, IC90 values
- ULOQ (upper limit of quantification)
Comment: If the paper reports IC50 data, they should be stored in the rx_potency table, the fold change will be calculated by our program. If the paper only provides fold changes, they should be stored in the rx_fold table.
Comment: Some papers may repeatedly report the same data using different representations. To reduce the duplication, we require to enter the data with finer granularity.
Given the variety of data-processing and data-visualization programs available to researchers, the figures in papers differ in their style. The format of a figure can be rasterized or vectorized, which results in the need for data extraction techniques particular to each paper.
For rasterized figures, you can extract data using image editors (Adobe Illustrator, Adobe Photoshop). First, mark the points and measure the x-y coordinates. Second, use a formula to calculate actually IC50 values. You can also use the same method to get ULOQ from the figure if provided.
For vectorized figures, you can use the same method as rasterized figures. You can also find individual pars of each point in the layers panel, which will save you time to measure the x-y coordinates. You can also write scripts for image editors to measure and calculate data automatically.
Please pay attention to the value at 50% neutralization. If the curve doesn't cross the 50% neutralization, that means the neutralization was not detected in the assay, please use ULOQ as the neutralization potency data.
Please use this Excel template specifically for mAb to format the data.
In this section, we describe each table and its columns. The primary key or joint primary keys of a table are highlighted in bold.
Please read Enter neutralization data (metadata tables)
| Column name | Description | Format | Default | Comment |
|---|---|---|---|---|
| ab_name | mAb main name | |||
| abbreviation_name | NULL |
|||
| availability | Please see Steps for updating an mAb's availability and priority | NULL |
||
| mature_month | NULL |
|||
| institute | NULL |
|||
| origin | NULL |
|||
| priority | Please see Steps for updating an mAb's availability and priority | 5000 | ||
| visibility | NULL |
|||
| date_added | the date the antibody is entered | YYYY-MM-DD |
| Column name | Description | Format | Default | Comment |
|---|---|---|---|---|
| ref_name | RefID | |||
| rx_name | mAb name in the study, a combination of mAbs should be concatenated using the symbol "+" | |||
| iso_name | iso_name of tested virus, the name should be in isolates table |
|||
| section | Figure, table, supplementary content or paragraph number from where the data are extracted | |||
| assay_name | Must be a value from the assay_name column in the assays.csv table |
|||
| potency_type | IC50, IC80, etc | |||
| potency | Neutralization data | |||
| cumulative_count | number of data points share the same value | |||
| potency_upper_limit | ULOQ (upper limit of quantification) | |||
| potency_lower_limit | LLOQ (lower limit of quantification) | |||
| potency_unit | ng/ml |
|||
| date_added | YYYY-MM-DD |
| Column name | Description | Format | Default | Comment |
|---|---|---|---|---|
| ref_name | RefID | |||
| rx_name | mAb name in the study, a combination of mAbs should be concatenated using the symbol "+" | |||
| control_iso_name | iso_name of control virus, the name should be in isolates table |
|||
| iso_name | iso_name of test virus, the name should be in isolates table |
|||
| section | Figure, table, supplementary content or paragraph number from where the data are extracted | |||
| assay_name | Must be a value from the assay_name column in the assays.csv table |
|||
| potency_type | IC50, IC80, etc | |||
| fold_cmp | IF control IC50 > ULOQ then use ">", else use "=" | |||
| fold | Fold change (test IC50 / control IC50) | |||
| resistance_level | NULL |
|||
| ineffective | NULL |
|||
| cumulative_count | number of data points share the same value | |||
| date_added | YYYY-MM-DD |
| Column name | Description | Format | Default | Comment |
|---|---|---|---|---|
| ref_name | RefID | |||
| rx_name |
rx_name in rx_potency table |
|||
| ab_name | mAb main name | All mAb main names are listed in antibodies table. Synonyms should be converted to main name, please see antibody_synonyms table. A combination of mAbs should be recorded in multiple rows, one row for one main name. |
This table records which isolate is the control, and which isolate is the test. This table is used with the rx_potency table, if all data are in the rx_fold table, this table can be ignored.
| Column name | Description | Format | Default | Comment |
|---|---|---|---|---|
| ref_name | RefID | |||
| control_iso_name | control iso_name from rx_potency table |
Most of time it's wild type virus or virus with D614G mutation | ||
| iso_name | test iso_name from rx_potency table |
If you're not familiar with programming, please skip this step and save the Excel file to the issue page. Please also mention to the admin the data file is ready to use. We will convert the data file into the database-friendly format, and check the consistency.
Please see how to submit the data in Enter neutralization data (submit data)
If you have any issues or questions, please create a new issue.