BSS Parasite Detection System

```

BSSPDS™ Parasite Detection, Unified.

BSSPDS™ is a whole-body, biological sample, water, and food parasite detection system built to identify parasite presence across body regions, blood, stool, urine, tissue, skin, water sources, and food supply environments.

The system brings together body mapping, sample cartridges, digital microscopy, fluorescence, spectral imaging, ultrasound-assisted scanning, food and water screening, AI parasite recognition, and a parasite master library into one operational platform.

View Product System → Detection Domains →

Body Blood Stool Urine Tissue Skin Water Food

BSSPDS parasite detection system product overview

```

BSSPDS Page Navigation

```

Product System Detection Domains Workflow Workflow Details Architecture Where It Fits Validation

```

Product System

The BSSPDS™ Product Stack

BSSPDS™ operates as a modular parasite detection system with a central core unit, biological sample cartridges, water and food modules, whole-body scanning support, AI recognition, and structured reporting.

```

Core Mission Statement

BSS Parasite Detection System, or BSSPDS™, is built to identify parasites wherever they may be present: body, blood, stool, urine, tissue, skin, water, and food.

Whole-body mapping
Biological samples
Water screening
Food screening
AI recognition
Master library

```

Detection Domains

Body, blood, stool, urine, tissue, skin, water, and food.

Every detection domain is linked to a real product module, a sensing pathway, and a detailed section below. Each one opens a defined BSSPDS™ detection pathway.

```

Body

Whole-body mapping, surface review, thermal patterning, and handheld probe support for targeted parasite-region identification.

Blood

Blood smear and cartridge-based parasite detection using microscopy, staining, fluorescence, AI morphology, and optional molecular confirmation.

Stool

Stool cartridge analysis for parasite eggs, cysts, oocysts, larvae, worm fragments, and intestinal parasite signatures.

Urine

Urine sediment and filtration workflow for parasite structures, sample concentration, microscopy, fluorescence, and molecular add-on pathways.

Tissue

Tissue, swab, scraping, lesion, wound, and fluid sample scanning for tissue-stage and surface-associated parasite signatures.

Skin

Skin surface and near-surface parasite assessment using derm imaging, scraping/swab workflow, body mapping, and AI pattern review.

Water

Water filtration and imaging module for cysts, oocysts, larvae, parasite-like particles, fluorescence, and AI particle classification.

Food

Food tray, seafood, produce, meat, swab, and rinse-sample screening using hyperspectral imaging, NIR, UV fluorescence, and AI recognition.

```

Domain Details

Every domain has a defined scanning path.

BSSPDS™ uses different sensing modes because parasites can appear in different forms, sample types, locations, and life stages.

```

Body Detection

BSSPDS-Body™ maps suspicious body regions using whole-body imaging support, thermal patterning, multispectral surface review, and handheld probe workflows.

Target areas: skin, scalp, lesions, wounds, swelling regions, and tissue zones.
Primary role: locate regions that require targeted sample review.
Output: body map, region marker, sample recommendation, and confidence indicator.

Blood Detection

BSSPDS-Blood™ analyzes blood smear and cartridge inputs for blood-stage parasite forms and parasite-like morphology.

Inputs: blood smear, capillary sample, stained cartridge, or molecular add-on cartridge.
Detection modes: microscopy, fluorescence, AI morphology, antigen pathway, molecular add-on.
Output: parasite match, morphology class, confidence level, and report image.

Stool Detection

BSSPDS-Stool™ scans stool cartridges for intestinal parasite evidence.

Targets: eggs, cysts, oocysts, larvae, worm fragments, and intestinal parasite signatures.
Detection modes: concentration, microscopy, fluorescence, AI morphology, antigen pathway.
Output: parasite-like finding, count/class, confidence score, and confirmatory path.

Urine Detection

BSSPDS-Urine™ supports urine and sediment sample review where parasite structures or parasite markers may be present.

Inputs: urine sediment cartridge, filtered sample, or molecular add-on cartridge.
Detection modes: sediment imaging, filtration, microscopy, fluorescence, antigen/DNA add-on.
Output: parasite structure flag, sample confidence, and review recommendation.

Tissue Detection

BSSPDS-Tissue™ handles tissue, swab, scraping, wound, lesion, and fluid sample workflows.

Inputs: swab, scraping, wound fluid, tissue smear, aspirate, or lesion sample.
Detection modes: microscopy, fluorescence, spectral imaging, AI structure review.
Output: tissue-stage parasite signature, location estimate, and confirmatory path.

Skin Detection

BSSPDS-Skin™ focuses on skin surface and near-surface parasite indicators.

Targets: surface parasites, track-like patterns, lesion-associated findings, eggs/nits-type structures, and skin scraping findings.
Detection modes: derm imaging, body scan map, skin scraping cartridge, fluorescence, AI pattern review.
Output: skin-region flag, surface finding image, and sample recommendation.

Water Detection

BSSPDS-Water™ uses filtration and imaging workflows to identify parasite contamination signals in water sources.

Inputs: drinking water, well water, field water, treatment sample, source water, or facility sample.
Detection modes: filtration cartridge, imaging flow cell, fluorescence, particle tracking, AI classification.
Output: parasite-like particle flag, count estimate, contamination confidence, and chain-of-custody report.

Food Detection

BSSPDS-Food™ screens food products and food samples for parasite presence indicators.

Inputs: seafood, raw fish, meat, produce, food swab, rinse sample, or tray scan.
Detection modes: hyperspectral imaging, NIR, UV fluorescence, macro imaging, AI recognition.
Output: inspection flag, parasite-like structure map, confidence score, and food safety action path.

```

Workflow

From source to action.

Every workflow step is linked to a detailed operating section. The system moves from source identification to reportable action.

```

Locate

Identify body region, biological sample, food source, or water source for parasite detection workflow.

Sample

Load blood, stool, urine, tissue, skin, food, water, swab, or scan data.

Capture

Run microscopy, spectral imaging, fluorescence, ultrasound, or cartridge-based detection.

Classify

AI compares parasite-like findings against the BSSPDS™ parasite master library.

Confirm

System triggers confidence scoring, repeat scan, confirmatory pathway, or escalation.

Report

Generate structured result with images, confidence level, sample type, and recommended action.

```

Workflow Details

The operating chain is complete.

BSSPDS™ does not stop at detection labels. Each operating step has a defined system role, input, process, and output.

```

1. Locate

The system starts by identifying the detection source: body region, biological sample, food source, or water source.

Body route: mapped area or suspicious region.
Sample route: blood, stool, urine, tissue, skin, swab, or fluid.
Environmental route: food, water, rinse, or surface swab.

2. Sample

The selected source is loaded into the correct BSSPDS™ cartridge, tray, probe workflow, or scan module.

Disposable cartridge workflow for biological samples.
Tray workflow for food scanning.
Filtration workflow for water scanning.

3. Capture

The system captures parasite evidence using the correct sensing path for that domain.

Microscopy for morphology.
Fluorescence for targeted visual markers.
Spectral and hyperspectral imaging for material differences.
Ultrasound-assisted review for body-region support.

4. Classify

The BSSPDS™ AI engine compares captured findings against the parasite master library.

Shape and morphology comparison.
Size and structure comparison.
Fluorescence and spectral signature review.
Sample-type and location-aware confidence scoring.

5. Confirm

The system evaluates confidence and determines whether the finding is strong, borderline, or requires follow-up.

Repeat scan path.
Secondary imaging path.
Antigen or molecular add-on path.
Clinical, lab, food safety, or water authority review path.

6. Report

The system generates a structured report with scan images, sample type, module used, confidence level, finding category, and recommended action.

Dashboard result.
Exportable report.
Case record and audit trail.
Chain-of-custody support for field, water, and food workflows.

```

Architecture

Designed as a complete parasite detection system.

The BSSPDS™ core unit operates as the central scanner, data engine, AI processor, sample interface, and reporting node for multiple parasite detection modules.

```

Core Unit Architecture

✓Sealed optical chamber for controlled sample imaging.
✓Digital microscopy path for parasite morphology detection.
✓Fluorescence channel for targeted biomarker visualization.
✓NIR, UV, and hyperspectral illumination paths.
✓Disposable cartridge workflow for biological samples.
✓Food and water tray/sample interface.
✓Handheld body scanning probe interface.
✓AI parasite recognition and parasite master library.
✓Secure reporting dashboard for hospitals, government, industry, and field use.

```

System View

Detection matrix and operating model.

BSSPDS™ links source detection, body mapping, and sample confirmation through a unified platform.

```

```

Where It Fits Perfectly

Built for government, engineers, industry, hospitals, and public health.

BSSPDS™ fits environments where parasite detection affects health, safety, operations, surveillance, compliance, and field readiness.

```

BSSPDS where it fits for government hospitals industry food water and public health

BSSPDS links source detection, body mapping, and sample confirmation in one system.

Designed for stakeholder review, engineering development, pilot design, and regulated deployment planning.

Open Discussion →

```

Engineering, Validation & Deployment

Complete development pathway from prototype to deployment.

BSSPDS™ must be engineered for sensitivity, specificity, contamination control, quality systems, secure data, structured reports, pilot readiness, hospital compatibility, field deployment, and industry adoption.

```

≥95% Sensitivity Target

Target performance across validated parasite panels and module-specific test conditions.

≥95% Specificity Target

Designed to reduce false positives through multimodal evidence and confidence calibration.

≤30 Minute Core Workflow

Rapid sample-to-result target for core cartridge workflows after development validation.

1–5 BSSPDS Confidence Score

Structured result score for no signal, suspicious signal, strong match, and confirmed detection path.

Planned Development Frameworks

✓Design controls and requirements traceability.
✓Risk management and hazard analysis.
✓Analytical validation and repeatability testing.
✓Clinical and field pilot protocols.
✓Data security, audit logs, and role-based access.
✓Hospital, LIMS, and EMR integration pathway.
✓Food and water chain-of-custody workflows.

BSSPDS roadmap pilot strategy and success metrics

Development Notice: This page describes a system architecture and product direction. Clinical, diagnostic, food-safety, water-safety, government, hospital, and field-use claims require validation, regulatory review, quality-system controls, and applicable approvals before commercial deployment. BSSPDS™ does not replace licensed medical evaluation, certified laboratory testing, regulatory inspection, or professional food/water safety authority decisions unless and until cleared for the applicable use case.

```