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Related Concept Videos

Dissociative Disorders01:27

Dissociative Disorders

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Dissociative disorders represent complex psychological conditions characterized by disruptions in consciousness, memory, identity, or perception. These disruptions cause individuals to experience a disconnection from their thoughts, emotions, and memories. The phenomenon is not merely an occasional lapse in attention but a profound alteration in mental functioning that can severely impact daily life.
Dissociative Fugue
A hallmark feature of dissociative disorders is the dissociative fugue...
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Dissociative Amnesia01:21

Dissociative Amnesia

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Dissociative amnesia is a complex psychological condition that manifests as an inability to recall personal information, often tied to traumatic or stressful events. Unlike general amnesia, individuals with this condition retain the ability to perform routine activities and procedural tasks, such as operating a phone or navigating public transportation, yet experience profound gaps in autobiographical memory. These lapses may encompass significant life events, such as suicide attempts or...
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Deconvolution01:20

Deconvolution

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Deconvolution, also known as inverse filtering, is the process of extracting the impulse response from known input and output signals. This technique is vital in scenarios where the system's characteristics are unknown, and they must be inferred from the observable signals.
Deconvolution involves several mathematical techniques to derive the impulse response. One common approach is polynomial division. In this method, the input and output sequences are treated as coefficients of...
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MODE: high-resolution digital dissociation with deep multimodal autoencoder.

Jiao Sun, Ayesha A Malik, Tong Lin

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    |September 2, 2025
    PubMed
    Summary
    This summary is machine-generated.

    This study introduces MODE, a novel multimodal autoencoder pipeline for digital tissue dissociation. MODE accurately predicts cell compositions and multi-omic profiles from bulk tissues, improving upon existing deconvolution methods.

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    Area of Science:

    • Single cell biology
    • Computational biology
    • Multi-omics analysis

    Background:

    • Tissue complexity challenges cell mapping and tumor microenvironment analysis.
    • Existing deconvolution methods primarily focus on transcriptomics and struggle with other omics data.
    • Need for advanced computational tools for digital dissociation of bulk tissues.

    Purpose of the Study:

    • To develop a multimodal autoencoder pipeline (MODE) for digital dissociation of bulk tissues.
    • To enable joint prediction of multi-omic profiles and cellular compositions.
    • To overcome limitations of transcriptomic-focused deconvolution methods.

    Main Methods:

    • MODE utilizes a multimodal autoencoder to link multi-dimensional features.
    • It constructs pseudo-bulk data using internal non-transcriptomic references and external single-cell RNA sequencing (scRNA-seq) data.
    • The pipeline jointly predicts personalized multi-omic profiles and cellular compositions.

    Main Results:

    • MODE demonstrated superior generalizability and fidelity compared to nine other deconvolution pipelines in rigorous simulations.
    • The method was validated using real multi-omic data from diverse tissue types.
    • Successful prediction of cellular compositions and multi-omic profiles was achieved.

    Conclusions:

    • MODE offers a robust and generalizable approach for digital dissociation of bulk tissues.
    • The pipeline effectively integrates non-transcriptomic and transcriptomic data for comprehensive analysis.
    • MODE advances multi-omic single cell biology by enabling accurate cell mapping and microenvironment decomposition.