პარასკევი, მაისი 1, 2026
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Global Ingredient Risk Index Probiotics

Lactobacillus lactis

Lactococcus lactis

Also known as: L. lactis, Lactococcus lactis, Streptococcus lactis

LOW RISK 1.5/10 How?

This ingredient is classified as unclassified risk (GIRI score: 1.5/10).

02

Safety Profile

Information not yet available for this ingredient profile.

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03

Interactions

Information not yet available for this ingredient profile.

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04

Evidence and Scientific Findings

Overview

Ingredient Overview

Lactococcus lactis (formerly Streptococcus lactis) is a widely used starter culture in dairy fermentation and a probiotic component. It produces nisin, a natural antimicrobial peptide. Generally very safe with a long history of food use. Standard probiotic safety caveats apply for severely immunocompromised individuals.

Classification

Biological and Chemical Classification

Scientific Name
Lactococcus lactis
Mechanism

Mechanism of Action

Information not yet available for this ingredient profile.

Clinical Evidence

Clinical Evidence of Effectiveness

Information not yet available for this ingredient profile.

Pharmacokinetics

Pharmacokinetics

Information not yet available for this ingredient profile.

Dosage

Recommended Dosage

Information not yet available for this ingredient profile.

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05

SETI — Scientific Evidence Transparency Index

SETI Score 50/100
Risk Level High risk
Scientific Confidence Low
Evidence Strength Limited
Key Benefit Probiotics
Evidence Reviewed 10 PubMed studies
Scientific Confidence Low
Based on study quality, consistency, and recency

Executive Summary — Ingredient Assessment

SETI Score 50/100
Risk Level High risk
Evidence Strength Limited
Main Benefit Probiotics
Ingredient Lactobacillus lactis
Scientific name Lactococcus lactis
Scientific Evidence Overview
  • 10 studies reviewed
  • 0 high-quality studies (meta-analysis or RCT)
  • Main clinical benefit observed: Probiotics
  • Evidence consistency: High consistency across studies (100%)
Safety Signals
  • No significant safety signals identified in the reviewed literature.
Evidence Strength Limited
Final Scientific Assessment

The available scientific evidence for Lactobacillus lactis indicates notable safety signals that warrant caution. Use should be considered carefully and monitored, particularly in sensitive populations or alongside other medications.

Ingredient Lactobacillus lactis
Evidence reviewed 10 peer-reviewed studies (last 10 years)
Scientific name Lactococcus lactis
50 /100

Total SETI Score

High risk
Evidence quality 10/40
Evidence consistency 20/20
Safety signals 0/20
Study recency 10/10
Evidence transparency 10/10

Evidence Summary

  • 10 studies reviewed
  • 0 high-quality studies (meta-analysis or systematic review)
  • 0 studies identified benefits or no safety concern (GREEN)
  • 10 studies reported limited or advisory safety evidence (YELLOW)

Evidence Policy

Only peer-reviewed scientific literature indexed in PubMed or comparable databases is included in this evaluation. Commercial websites, blogs, and marketing materials are excluded. All references include direct traceable links to source documents.

Last updated: 06 აპრ 2026, 12:11

Evidence Distribution

10 Other / unclassified
  1. Observational / other LOW evidence YELLOW
    Oral immunization with recombinant Lactococcus lactis expressing VP3 and VP3-IFNu03b1 fusion protein protects ducklings against novel goose parvovirus infection. ↗
    PMID 41933533 ↗
    Journal Poult Sci
    Year 2026
    Study type Observational / other
    Evidence strength LOW evidence
    PubMed link https://pubmed.ncbi.nlm.nih.gov/41933533/
    Yang J et al.. Oral immunization with recombinant Lactococcus lactis expressing VP3 and VP3-IFNu03b1 fusion protein protects ducklings against novel goose parvovirus infection.. Poult Sci. 2026. PMID:41933533.
  2. Observational / other LOW evidence YELLOW
    High-throughput generation and comparison of genome-scale metabolic models reveal strain-specific metabolic diversity in 439 Lactococcus strains. ↗
    PMID 41910316 ↗
    Journal mSystems
    Year 2026
    Study type Observational / other
    Evidence strength LOW evidence
    PubMed link https://pubmed.ncbi.nlm.nih.gov/41910316/
    Bras JE et al.. High-throughput generation and comparison of genome-scale metabolic models reveal strain-specific metabolic diversity in 439 Lactococcus strains.. mSystems. 2026. PMID:41910316.
  3. Observational / other LOW evidence YELLOW
    Lactococcus lactis as a New Strategy for Oral Vaccination: Current Insights and Future Perspectives. ↗
    PMID 41900792 ↗
    Journal Pharmaceutics
    Year 2026
    Study type Observational / other
    Evidence strength LOW evidence
    PubMed link https://pubmed.ncbi.nlm.nih.gov/41900792/
    Grossolli-Galvez J et al.. Lactococcus lactis as a New Strategy for Oral Vaccination: Current Insights and Future Perspectives.. Pharmaceutics. 2026. PMID:41900792.
  4. Observational / other LOW evidence YELLOW
    The cheese of Xilingol: A comparative study on microbial diversity and metabolic profiles across typical and meadow steppes. ↗
    PMID 41895941 ↗
    Journal Food Res Int
    Year 2026
    Study type Observational / other
    Evidence strength LOW evidence
    PubMed link https://pubmed.ncbi.nlm.nih.gov/41895941/
    Zhang J et al.. The cheese of Xilingol: A comparative study on microbial diversity and metabolic profiles across typical and meadow steppes.. Food Res Int. 2026. PMID:41895941.
  5. Observational / other LOW evidence YELLOW
    Metagenomic analysis of lactic acid bacteria communities in inner Mongolian fermented dairy products: influence of milk source and geography. ↗
    PMID 41895935 ↗
    Journal Food Res Int
    Year 2026
    Study type Observational / other
    Evidence strength LOW evidence
    PubMed link https://pubmed.ncbi.nlm.nih.gov/41895935/
    Li H et al.. Metagenomic analysis of lactic acid bacteria communities in inner Mongolian fermented dairy products: influence of milk source and geography.. Food Res Int. 2026. PMID:41895935.
  6. Observational / other LOW evidence YELLOW
    Application of kefir-isolated Lactiplantibacillus plantarum and Lacticaseibacillus paracasei to obtain a cashew-based fermented beverage with enhanced anti-inflammatory properties. ↗
    PMID 41883803 ↗
    Journal Front Microbiol
    Year 2026
    Study type Observational / other
    Evidence strength LOW evidence
    PubMed link https://pubmed.ncbi.nlm.nih.gov/41883803/
    Pietrantuono L et al.. Application of kefir-isolated Lactiplantibacillus plantarum and Lacticaseibacillus paracasei to obtain a cashew-based fermented beverage with enhanced anti-inflammatory properties.. Front Microbiol. 2026. PMID:41883803.
  7. Observational / other LOW evidence YELLOW
    GABA-Producing Capabilities of Lactococcus lactis PL186 in Murine and Human. ↗
    PMID 41866909 ↗
    Journal J Microbiol Biotechnol
    Year 2026
    Study type Observational / other
    Evidence strength LOW evidence
    PubMed link https://pubmed.ncbi.nlm.nih.gov/41866909/
    Paek JJ et al.. GABA-Producing Capabilities of Lactococcus lactis PL186 in Murine and Human.. J Microbiol Biotechnol. 2026. PMID:41866909.
  8. Observational / other LOW evidence YELLOW
    Engineering of Escherichia coli for D-tagatose production from lactose and whey permeate via the tagatose-6-phosphate pathway. ↗
    PMID 41852946 ↗
    Journal Curr Res Food Sci
    Year 2026
    Study type Observational / other
    Evidence strength LOW evidence
    PubMed link https://pubmed.ncbi.nlm.nih.gov/41852946/
    Abzach A et al.. Engineering of Escherichia coli for D-tagatose production from lactose and whey permeate via the tagatose-6-phosphate pathway.. Curr Res Food Sci. 2026. PMID:41852946.
  9. Observational / other LOW evidence YELLOW
    Functional interactions of Gp22 and Gp23 with Gp21 DNA helicase define the replication module of dairy-relevant Ceduovirus phage 94p4. ↗
    PMID 41850363 ↗
    Journal J Dairy Sci
    Year 2026
    Study type Observational / other
    Evidence strength LOW evidence
    PubMed link https://pubmed.ncbi.nlm.nih.gov/41850363/
    Santo A et al.. Functional interactions of Gp22 and Gp23 with Gp21 DNA helicase define the replication module of dairy-relevant Ceduovirus phage 94p4.. J Dairy Sci. 2026. PMID:41850363.
  10. Observational / other LOW evidence YELLOW
    Evaluating Lactococcus lactis as a novel antiparasitic vaccine delivery platform: A scoping review of immunization routes and immunological outcomes. ↗
    PMID 41849895 ↗
    Journal Vaccine
    Year 2026
    Study type Observational / other
    Evidence strength LOW evidence
    PubMed link https://pubmed.ncbi.nlm.nih.gov/41849895/
    Rihs JB et al.. Evaluating Lactococcus lactis as a novel antiparasitic vaccine delivery platform: A scoping review of immunization routes and immunological outcomes.. Vaccine. 2026. PMID:41849895.
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06

Score Transparency

Q × L × D × S × 10 = 1.5 / 10

The GIRI Score is the product of four independently computed evidence components, each normalised to 0–1, then scaled to 0–10. Every component is derived exclusively from peer-reviewed references and regulatory data — no editorial judgement is applied.

Q
Evidence Quantity 0 / 10
0%

0 of 10 approved references (score saturates at 10). More peer-reviewed studies = stronger evidence base.

Method: Q = number of approved references ÷ 10 (capped at 1.0)

L
Evidence Quality 5 / 10
50%

Limited — mostly case reports or animal studies

Method: L = mean study-level weight across approved references. Level 1 (meta-analysis / systematic review) = 1.0; Level 2 (RCT) = 0.8; Level 3 (cohort/case-control) = 0.6; Level 4 (case report) = 0.4; Level 5 (animal / in-vitro) = 0.2.

D
Evidence Direction 5 / 10
Benefit
Risk
50%

Mixed or neutral — roughly equal benefit and risk signals

Method: D = (sum of risk-scored references − sum of benefit-scored references) ÷ total evidence score, then scaled from [−1, 1] to [0, 1]. 0.0 = pure benefit; 0.5 = neutral; 1.0 = pure risk.

S
Safety Signals 5 / 10
50%

One or more monitoring-level safety signals active

Method: S = 0.5 (neutral baseline) + sum of active signal severity deltas ÷ 10. Severity deltas: Critical = +2.0, High = +1.5, Moderate = +1.0, Low = +0.5. Capped at 1.0.

0Q × 5L × 5D × 5S = 1.5 / 10

Final GIRI Score for Lactobacillus lactis. Risk level thresholds: Low 0–3.0 · Moderate 3.0–5.5 · High 5.5–7.5 · Critical 7.5–10.

Full methodology & data sources

The GIRI Score is computed entirely from structured data — no editorial scoring or subjective weighting is applied at any step.

  • References: Only approved references are counted. Each reference is assigned an evidence level (L1–L5) and a direction (risk / neutral / benefit) by the reference manager or AI classifier.
  • Safety Signals: Sourced from regulatory agencies (FDA, EMA, Health Canada, TGA, and others) and pharmacovigilance databases. Only active signals count toward the score.
  • Formula version: GIRI Score v3.7.0 — Q × L × D × S × 10.
  • Limitations: The score reflects published evidence and recorded signals as of the last update date. It is not a clinical risk assessment and should not replace advice from a qualified healthcare professional.
07

Risk Level Classification

LOW RISK 1.5/10

Based on available regulatory signals and scientific evidence, this ingredient presents a low safety concern under normal conditions of use.

LOW
0–3.0
MODERATE
3.0–5.5
HIGH
5.5–7.5
CRITICAL
7.5–10
1.5

The score pin shows exactly where this ingredient falls on the fixed risk scale.

What drove the Low classification for Lactobacillus lactis

GIRI Score 1.5 / 10

A score of 1.5 places this ingredient in the Low band. Thresholds: Low 0–3.0 · Moderate 3.0–5.5 · High 5.5–7.5 · Critical 7.5–10.

Evidence Quantity (Q) 0 / 10 refs

0 approved references.

Evidence Quality (L) 50%

Limited — mostly case reports or animal studies (Level 4–5).

Evidence Direction (D) 50% toward risk

Neutral or mixed — benefit and risk signals roughly balanced.

Safety Signals (S) 0 active signals

No active signals — S component is at neutral baseline (0.5), contributing no extra risk weight.

Regulatory Status No restrictions found

No major regulatory restrictions or advisories recorded across monitored jurisdictions (FDA, EMA, Health Canada, TGA, and others).

How are the Low / Moderate / High / Critical thresholds defined?

The four risk levels are fixed score bands. A score is assigned to exactly one level based on where it falls:

LevelScoreMeaning
LOW0.0 – 2.9Sparse or predominantly beneficial evidence. No active safety alerts.
MODERATE3.0 – 5.4Mixed signals — some risk alongside benefit. Caution at high doses or in sensitive groups.
HIGH5.5 – 7.4Multiple studies or regulatory alerts documenting adverse effects. Professional oversight recommended.
CRITICAL7.5 – 10Regulatory restrictions in one or more major jurisdictions. Serious documented harm. Avoid without specialist supervision.

Thresholds are fixed constants (GIRI_Score_Utils::LEVEL_THRESHOLDS). They do not change per ingredient and are never subject to editorial adjustment.

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