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Streptococcus dentisani
Microbiome CRO Services

Creative Biolabs supports oral microbiome innovators with end-to-end Streptococcus dentisani research solutions, from strain isolation and functional profiling to formulation, in vitro performance evaluation, and preclinical-scale production—helping R&D teams generate robust, decision-ready data on this promising oral commensal.

Preferred Partner for Oral Microbiome Research

Global academic and industrial groups rely on Creative Biolabs for rigorous, standardized S. dentisani microbiome workflows that withstand scientific and regulatory scrutiny.

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Why Invest in S. dentisani Microbiome CRO Services?

S. dentisani, originally isolated from caries-free individuals, is a health-associated oral streptococcus with strong pH-buffering capacity and bacteriocin-mediated antagonism against cariogenic species such as Streptococcus mutans.

As S. dentisani moves from basic characterization into application-oriented research—oral probiotic concepts, bio-adhesive gels, and hygiene product additives—there is a growing need for controlled, reproducible in vitro and ex vivo data. Creative Biolabs offers an integrated platform to de-risk these programs by combining microbiology, formulation science, and mechanistic assays focused on S. dentisani.

S. dentisani microbiome CRO services (Creative Biolabs Original)

Comprehensive S. dentisani CRO Service Portfolio

Microbial Isolation and Screening Services

Creative Biolabs isolates and enriches S. dentisani from dental plaque or existing strain collections under strictly controlled conditions. We perform strain verification, genotype/phenotype confirmation, and high-throughput screening to prioritize S. dentisani candidates with desirable pH-buffering, bacteriocin production, and biofilm-interaction properties for downstream development.

Functional and MoA Screening

Using standardized in vitro models, S. dentisani is profiled for arginine metabolism, ammonia generation, and lactate consumption, as well as its capacity to modulate local pH and interfere with biofilm formation by cariogenic organisms. Mechanism-of-action studies link S. dentisani activity to measurable shifts in microbial composition and physicochemical parameters.

Antimicrobial Susceptibility Testing

We design targeted antimicrobial susceptibility panels for S. dentisani, including conventional antibiotics and selected antiseptic agents. Minimal inhibitory concentration (MIC) and growth-curve assays help characterize intrinsic resilience and ensure that S. dentisani-based concepts remain compatible with common oral hygiene regimens and manufacturing decontamination strategies.

Microbial Fermentation Services

Creative Biolabs develops and optimizes fermentation processes tailored to S. dentisani, from small-scale bioreactors to lab-scale production. We fine-tune medium composition, pH control, aeration/microaerophilic conditions, and feeding strategies to achieve stable biomass yields and consistent metabolic profiles suitable for subsequent formulation work.

Microbial Stabilization Services

S. dentisani is sensitive to environmental stressors, requiring carefully engineered stabilization strategies. Our team screens cryoprotectants, lyoprotectants, and storage conditions to maintain S. dentisani viability, functional activity, and genetic stability over time, supporting long-term banking and shipment under research-grade quality systems.

Microbial Formulation Service

Creative Biolabs designs prototype formulations incorporating S. dentisani into dosage forms such as gels, lozenges, and powder premixes for research use. We evaluate excipient compatibility, moisture and oxygen sensitivity, and viability maintenance, generating data packages that inform later scale-up and product design discussions.

Dissolution Testing and Drug Release Profiling

To support oral hygiene and mucosal delivery concepts, S. dentisani formulations undergo dissolution and release profiling in simulated saliva and oral biofilm-mimicking media. We monitor S. dentisani release kinetics, survival, and functional output over time, providing key parameters for optimizing residence time and local exposure in experimental models.

Stability Test Service

Creative Biolabs performs stability studies to evaluate how S. dentisani responds to temperature shifts, humidity, oxygen exposure, and storage conditions relevant to research-grade formulations. These controlled assays determine viability, metabolic activity, and key functional traits over time, ensuring that S. dentisani remains consistent, predictable, and suitable for downstream experimental applications.

S. dentisani CRO Services Workflow

1

Project Scoping & Study Design

Clarify goals, strain background, matrices, and regulatory expectations; define a staged S. dentisani study plan.

2

Strain Qualification & Banking

Verify S. dentisani identity, purity, and baseline functionality; establish traceable master and working banks.

3

Assay & Model Development

Customize in vitro models, media, and analytical readouts aligned with your S. dentisani research questions.

4

Experimental Execution

Conduct isolation, functional assays, interaction tests, and formulation evaluations under standardized, documented conditions.

5

Data Analysis & Technical Review

Integrate microbiology, functional, and formulation data into clear, statistically sound study reports.

6

Next-Step Consultation

Discuss data interpretation and rational next experiments to advance S. dentisani programs efficiently.

Key Advantages of Our S. dentisani Platform

Oral-Microbiome Focus

Deep expertise in health-associated oral commensals, including S. dentisani biology.

End-to-End Capability

From isolation and MoA profiling to formulation and release studies in one coordinated platform.

Customizable Assays

Flexible models tailored to S. dentisani strain traits and project objectives.

Quality-Driven Workflows

Documented procedures, internal controls, and reproducible outputs for regulatory-ready research.

Cross-Disciplinary Team

Microbiologists, formulation scientists, and analytical experts collaborating on each project.

Transparent Communication

Regular technical updates and data reviews aligned with sponsors’ internal decision timelines.

Research Applications of S. dentisani

Oral Probiotic Supplement Concepts

Researchers explore S. dentisani as a potential oral probiotic ingredient to modulate pH, limit cariogenic biofilms, and maintain ecological balance within in vitro and ex vivo plaque models, supporting innovation in oral microbiome-focused supplements.

Bio-Adhesive Dental Gel Development

Bio-adhesive gels containing S. dentisani are investigated in splint-based models to study localized colonization, biofilm competition, and physicochemical changes on tooth-mimicking surfaces, informing advanced delivery formats for oral microbiome research.

Additives for Oral Hygiene Prototypes

S. dentisani or its bioactive components can be incorporated into experimental toothpaste, mouthwash, or lozenge prototypes. Creative Biolabs assesses stability, viability, and functional performance in vitro, guiding feasibility assessments for next-generation oral hygiene concepts.

Pathogen and Biofilm Control Studies

Co-culture and biofilm models are used to quantify how S. dentisani influences levels of Streptococcus mutans, Candida albicans, and other oral pathogens. These studies provide mechanistic insights into competitive exclusion, bacteriocin action, and pH modulation within complex communities.

Sample submission form (Creative Biolabs Original)

Please complete the sample request form, and our specialists will connect with you to outline a customized project plan.

Submit Sample Form

S. dentisani Related Products

Below is the essential product information curated to support your research.

Product Name Catalog No. Target Product Overview Size Price
Streptococcus oralis subsp. dentisani; 7746 LBST-097FG Streptococcus A microaerophile, mesophilic, Gram-positive human pathogen that was isolated from human caries-free tooth surface. Inquiry

FAQs

We can work with sponsor-supplied S. dentisani strains, publicly available references, or isolates obtained through our own isolation programs. Each strain is verified by molecular and phenotypic methods before inclusion in any experimental workflow.

Reproducibility is built into our platform through standardized operating procedures, well-characterized working banks, internal controls, and calibrated equipment. Replicate experiments and appropriate statistical analyses are included to support robust conclusions from S. dentisani datasets.

Yes. Creative Biolabs routinely designs multi-species communities where S. dentisani is co-cultured with cariogenic and commensal organisms. We monitor composition, biofilm architecture, and functional readouts to capture ecological interactions under controlled conditions.

Other Resources

Creative Biolabs' Live Biotherapeutics - Brochure (Creative Biolabs Original)

Creative Biolabs' Live Biotherapeutics - Brochure

Probiotic Strain Products for NGP Research - Brochure (Creative Biolabs Original)

Probiotic Strain Products for NGP Research - Brochure

Custom Small-scale Probiotic Production - Brochure (Creative Biolabs Original)

Custom Small-scale Probiotic Production - Brochure

Live Biotherapeutics - Creative Biolabs - Video (Creative Biolabs Original)

Live Biotherapeutics - Creative Biolabs - Video

Reference

  1. López-López, Arantxa, et al. "Health-associated niche inhabitants as oral probiotics: the case of Streptococcus dentisani." Frontiers in microbiology 8 (2017): 379. https://doi.org/10.3389/fmicb.2017.00379
  2. Ferrer, María D., et al. "Topic application of the probiotic Streptococcus dentisani improves clinical and microbiological parameters associated with oral health." Frontiers in cellular and infection microbiology 10 (2020): 465. https://doi.org/10.3389/fcimb.2020.00465
  3. Angarita‐Díaz, María P., et al. "Presence of Streptococcus dentisani in the dental plaque of children from different Colombian cities." Clinical and experimental dental research 5.3 (2019): 184-190. https://doi.org/10.1002/cre2.158
  4. Bedoya-Correa, Claudia María, et al. "Probiotic effect of Streptococcus dentisani on oral pathogens: an in vitro study." Pathogens 13.5 (2024): 351. https://doi.org/10.3390/pathogens13050351
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