live in harmony with your metal tube (and avoid cracks and leaks)
At Davids, we chose recyclable metal tubes to help reduce plastic waste and provide a better experience for you and the planet. Not to mention, the metal tube is sleek and adds a touch of refinement to your daily routine. But working with it requires a little different approach than what you might be used to. Think less is more and follow these simple steps to get the most out of your tube:
step 1: pinch and flatten
Start by gently pinching the tube flat from the folded seam end. Always squeeze from thevery bottomto ensure you’re getting every last bit of toothpaste. This keeps the tube neat and maximizes its usage.
step 2: press and smooth as you go
As the tube empties, lay it flat on a surface. Gently press the empty part of the tube with your thumb and massage any remaining toothpaste toward the top. This step helps fully flatten the tube and makes sure nothing is left behind.
step 3: handle with care
A metal tube requires a different touch than plastic—never squeeze it like a plastic tube. Apply gentle pressure, starting lightly to flatten the tube and increasing only as needed for a flat smooth finish.
By following these steps, you’ll maximize your Davids toothpaste and experience the benefits of our eco-friendly metal packaging.
key takeaways
Tongue scraping removes volatile sulfur compounds more effectively than brushing, helping combat halitosis.
Regular scraping unmasks taste buds and reduces oral bacteria linked to systemic inflammation.
Managing the oral microbiome with tongue scraping limits bacterial translocation.
The tongue is more than a grouping of muscles and a collection of taste buds. Yes, it is the primary taste organ, but it also hosts an expansive microbial city, the tongue dorsum microbiome, which is both problematic and beneficial.
On the problematic side, you have a collection of tiny, hair-like projections called filiform papillae. These protrusions create a landscape of microscopic nooks and crannies, areas with low oxygen and ideal conditions for anaerobic bacteria to thrive. It’s within these tiny crevices that the bacteria break down organic matter and release volatile sulfur compounds (VSCs) or bad breath gases.
It’s not all bad, however. Some bacteria are beneficial, including commensal bacteria, which help convert dietary nitrates into nitric oxide, a chemical essential to blood pressure regulation and heart health.
Davids professional tongue scraper helps you manage this delicate ecosystem. With the precision-engineered, medical-grade stainless steel tool, you can experience all the benefits of tongue scraping while reducing risks to your oral microbiome.
halitosis reduction and other clinical benefits
A tongue scraper allows for the mechanical removal of the tongue dorsum biofilm, the white tongue coating or film, known as the lingual patina, that’s home to halitosis-producing compounds (hydrogen sulfide and methyl mercaptan). Brushing also reduces these VSCs, but not as effectively.
A 2004 study published in the Journal of Periodontology found that tongue scrapers eliminated 75% of oral VSCs, while toothbrushing only eliminated 45%. Though not a recent study, the conclusion and support still stand and are supported by more recent reports, including a 2024 article in the Journal of Indian Society of Periodontology and a 2026 Cochrane review.
Odor-causing bacteria congregate on the posterior third of the tongue, meaning towards the back of the mouth. A typical toothbrush doesn’t have the correct profile for reaching this location without activating the gag reflex. The benefits of tongue scraping belong to its sleek, low-profile design, allowing easy reach without prompting unpleasant biological responses.
While a tongue scraper is a superior tool for managing and eliminating bad bacteria, a primary cause of halitosis, its benefits don’t stop there. From serving as a multiplier of oral hygiene to the established relationship between tongue scraping and gut health, the tool proves time and again its clinical efficiency.
beyond fresh breath
Eliminating or reducing the source of bad breath is a significant draw to tongue scraping, but it also presents several advantages for preventative dentistry and sensory health. For example, routine scraping reduces oral bacterial load, including the reduction of Streptococcus mutans, linked to tooth decay, and Porphyromonas gingivalis, linked to gum disease.
A 2025 review also noted that the mechanical removal of the lingual patina with a tongue scraper unmasks taste buds previously masked by food and other oral debris. The research highlights a specific increase in salty taste intensity. The conclusion suggests this change may help people adhere to a low-sodium diet and reduce cardiovascular risks.
Most clinical data points to tongue scraping as an oral hygiene multiplier when added to a typical brushing and flossing routine, meaning it only increases oral health. In fact, a 2013 study published in the International Journal of Clinical Pediatric Dentistry found that when combined with brushing and flossing, the benefits of tongue scraping resulted in a significant reduction in plaque levels within a relatively short time frame (10 to 21 days).
A tongue scraper is a critical tool for oral and systemic health. The tool and activity of scraping interrupt bacterial development, reducing the risk of oral gum disease and systemic inflammation linked to heart disease, according to a 2025 article published in the Cureus Journal of Medical Science. This speaks to the relationship between tongue scraping and gut health as well.
digestive health and the oral-gut axis
Salivary glands produce 0.5 to 1.5 liters of saliva a day in most adults. You swallow most of that. This saliva flow, from the mouth to the gut, creates a continuous one-way transportation system for oral bacteria.
Recent research, including a 2025 study published in the journal Nutrients and a 2025 report in the Journal of Oral Microbiology, states that some oral bacteria, such as Porphyromonas gingivalis and Fusobacterium nucleatum, can survive stomach acid. This is something once thought impossible.
The discovery now points to a correlation between the tongue dorsum microbiome and bacterial colonization of the intestine. This new connection is creating pathways to understanding and diagnosing digestive conditions, including gastritis, according to a 2026 study.
But what does this mean for the benefits of tongue scraping? The regular use of a tongue scraper, with proper technique, can reduce harmful bacteria in the oral microbiome, limiting the transport of more resilient bacteria to the intestines.
proper technique and the optimal routine
Tongue scraping for gut health and oral health is straightforward, but there is a technique:
Placement: Place the tongue scraper head at the back third or posterior of the tongue, targeting the heavier VSC population. Keep the tool slightly angled, but near flat.
Pressure: Apply light, even pressure. You’re only trying to remove the uppermost layer of biofilm. Too much applied pressure may affect microbiome balance and taste.
Motion: Pull the scraper forward in a continuous motion. Don’t move the tool back and forth across the tongue, as this can push bacteria deeper into the mouth and filiform papillae.
Rinse: Rinse the tongue scraper after every pull. This ensures you don’t redeposit bacteria on the tongue.
Repetition: Repeat the process two to five times. The white biofilm should appear lighter when finished.
As with brushing and flossing, you should use a tongue scraper at least twice daily, morning and night. Tongue scraping before or after brushing depends on the time. In the morning, it’s best to use the scraper before brushing to prevent swallowing the overnight bacterial load. In the evening, you can brush, especially with a toothpaste containing nano hydroxyapatite, which helps loosen the tongue’s protein matrix, making the benefits of tongue scraping more effective.
premium oral care and Davids toothpaste
Davids is here to support tongue scraping for gut health and oral health. By combining our premium, medical-grade stainless steel tongue scraper with our nano hydroxyapatite toothpaste, you can confidently clean your entire mouth and experience the benefits of fresh breath and stronger teeth.
Are you ready to adopt an oral healthcare routine that’s sustainable and includes naturally sourced and derived ingredients? Shop Davids today.
key takeaways:
Hydroxyapatite is a mineral found in your tooth enamel and dentin, so replenishing the enamel with hydroxyapatite may help make your teeth appear whiter.
Hydroxyapatite toothpaste may help brighten your teeth without irritating your gums, making it an ideal choice for those who need support for sensitive teeth.
A potential benefit of hydroxyapatite toothpaste is that it can continue to whiten your teeth long-term while also helping regulate the oral microbiome.
Capturing photos of life’s most exciting and meaningful events is a wonderful way to catalog your memories, but if you find yourself hesitating to share your biggest smile in them, you might be looking for options to help brighten it. If you have sensitive teeth, finding a whitening toothpaste that’s gentle on your mouth can be a challenge. Hydroxyapatite can offer a gentle, more naturally-derived option for you.
Does hydroxyapatite whitening toothpaste whiten teeth, though? Let’s explore how hydroxyapatite toothpaste works and the science behind it as you look for options to brighten your smile.
connection between hydroxyapatite and enamel
Hydroxyapatite is a naturally occurring mineral (calcium and phosphate) comprising most of your enamel (your teeth’s outer layer) and dentin (the layer beneath the enamel).
Whitening relies heavily on your enamel’s condition, so a material capable of remineralizing and smoothing your tooth’s surface directly affects how bright your teeth appear. If your enamel is porous or rough, it ends up scattering light unevenly, causing it to look more yellow. Replenishing the enamel with nano hydroxyapatite improves your tooth surface’s brightness.
no bleaching required with hydroxyapatite
Traditional whitening relies on using carbamide or hydrogen peroxide to lift stains. Although hydroxyapatite whitening toothpaste does whiten teeth, it doesn’t work like a carbamide or peroxide based whitener since it doesn’t bleach pigments. Instead, nano hydroxyapatite fills microfissures (hairline cracks), remineralizes (strengthens) weak areas, and smooths your enamel surface. This helps the surface appear more uniform and whiter without the need to chemically alter pigments.
filling irregularities in your tooth surface with hydroxyapatite
Everyday wear, brushing abrasion, and acidic foods create tiny grooves and pits in your enamel, which can darken your pearly whites by reducing shine and collecting stains. Nano Hydroxyapatite does whiten teeth because hydroxyapatite fills the defects, helping create a smoother tooth surface that looks whiter naturally and resists staining. It’s a structural and mechanical whitening effect that may produce the bright smile you desire.
sensitivity reduction possible with hydroxyapatite
You may be asking, does hydroxyapatite whitens teeth without causing sensitivity like other tooth whitening solutions?
Tooth sensitivity may limit how frequently individuals use peroxide-based whiteners. Many people who use chemical whitening products complain about sensitivity issues. However, since Davids nano Hydroxyapatite whitening toothpastes do not use any bleaching chemicals, and actually help to remineralize the enamel, it does not lead to increased sensitivity. In fact, it helps to seal exposed tubules in the dentin (hollow tubules inside your dentin that extend from your pulp, the part of your tooth containing the blood supply and nerves), which can help to support sensitive teeth.
This support helps users maintain consistent dental care routines. If you use nano hydroxyapatite toothpaste and discover that it doesn’t contribute to sensitivity issues, you may be more likely to continue brushing consistently, which supports better whitening results long term.
why consider hydroxyapatite if you have sensitive teeth
Peroxide whitening, for example, may be a dramatic and fast way to enhance your smile, but it might also dehydrate your enamel and irritate your gums.
Hydroxyapatite toothpaste does whiten teeth as well, but it could also be a gentler option for you. It’s slower yet more gentle for sensitive mouths and teeth, strengthening your enamel rather than weakening it.
length of whitening time
Hydroxyapatite’s whitening effect on your teeth is more gradual. Depending on the severity of the discoloration, you may begin to notice your teeth become whiter after using Davids whitening+enamel health toothpaste twice daily for a few days or several weeks. Continuing to use Davids Hydroxi™ nano hydroxyapatite toothpaste can help to improve the quality of your enamel over time, resulting in sustained brightness.
link between hydroxyapatite and the mouth’s microbiome
Hydroxyapatite helps regulate the oral microbiome (the microorganism environment in the mouth), which may affect whitening by decreasing the types of bacteria known to produce acids and pigments.
Since hydroxyapatite particles bind to the cell walls of bacteria, they might make it harder for some species that produce stains to stick to enamel, reducing the accumulation of plaque over time. This supports a healthier environment that is less prone to developing tooth stains. In this way, nano hydroxyapatite whitening toothpaste does whiten teeth without disrupting your mouth’s microbial balance.
experience the benefits of Davids nano hydroxyapatite toothpaste today
At Davids, we’re passionate about elevating overall health with toothpaste and other products featuring naturally sourced and derived ingredients. Several of our fluoride-free oral care product formulas are powered by nano hydroxyapatite, which may not only help whiten your teeth but also remineralize and support sensitive teeth naturally.
Since we’re dedicated to sustainability and health, we also use recyclable metal tubes and vegan-friendly ingredients, in addition to abiding by cruelty-free practices. We craft all of our tubes with integrity. Backed by science and verified by the Environmental Working Group, our toothpaste is designed to support both a healthier mouth and a healthier planet. Clean up your oral care routine by ordering from Davids today!
key takeaways
Unlike traditional sweeteners, xylitol in toothpaste is anti-cariogenic, meaning it actively prevents decay by inducing cell death in harmful oral bacteria.
While artificial sweeteners like saccharin and sucralose are purely flavorants, xylitol provides therapeutic benefits by increasing saliva flow to support natural enamel remineralization.
Davids prioritizes USA-made, birch-derived xylitol to ensure non-GMO, sustainable, and high-purity ingredients.
It’s hard to believe, but for much of the 19th century, dental soaps and detergents contained sugar. Scientists and manufacturers didn’t understand the link between sugar and dental health until the latter part of the century, pushing into the beginning of the 20th century. Until the discovery of this connection, manufacturers needed to mask the bitter, chemical taste of the soap.
As dental science progressed into the 1940s, not only did toothpaste producers eliminate sugar from their recipes, they replaced soap with sodium lauryl sulfate (SLS), a synthetic detergent. SLS produced the same foaming and cleaning action as soap, but it lacked the intense bitterness, meaning it was possible to manufacture toothpaste without “pure” sweeteners, such as sugar.
That doesn’t mean sweeteners were unnecessary. SLS was still bitter. However, the evolution led to the adoption of alternative sweeteners like sodium saccharin and xylitol in toothpaste. These ingredients, while entering the scene at different times (1940s and 1970s, respectively), offered an alternative to the ingredients of earlier centuries.
Davids uses birch-derived xylitol to ensure purity and quality and minimize GMO risks. Other brands might use corn-derived xylitol or synthetic sweeteners like sodium saccharin. We prioritize naturally sourced and derived ingredients to keep our products clean.
The shift toward cleaner ingredients is a modern concern. It stems from centuries of balancing flavor and function, moving from a bitter cleaning necessity to a science-backed oral care routine.
an expanded history of non-sugar sweeteners
While xylitol in toothpaste is common today, it was nonexistent before the 20th century. Before mass production began in the early 19th century, most oral hygiene remedies were homemade and included things like crushed bone, oyster shells, pumice, and salt. They were bitter but necessary.
In the 19th century, these dentifrices used binders like honey and cane sugar to minimize bitterness. People didn’t know that sugar is a primary fuel source for harmful oral bacteria. As sugar enters the mouth, these bacteria consume it and convert it into lactic acid, which erodes enamel.
The increase in dental decay and cavity cases motivated medical research and the eventual discovery of sugar as the culprit. This discovery then drove a quest to develop a toothpaste without harmful sweeteners, or at least one with less harmful ones.
In 1879, Constantin Fahlberg, while researching coal tar derivatives at Johns Hopkins University, accidentally stumbled on the non-sugar sweetener, saccharin. After synthesizing a new compound from the coal tar, he noticed a sweet taste on his hands. Upon testing it, he found it to be much sweeter than sugar.
Despite the excitement around Fahlberg’s discovery, debates were contentious around the sweetener. People were concerned about long-term exposure. The debates culminated in the 1970s FDA ban proposal, which was later overturned.
Today, saccharin remains a popular sweetener, especially its derivative, sodium saccharin, but it’s only one of many. Xylitol in toothpaste is quickly becoming the most popular sugar alternative because of its quality andhealth benefits.
common sweeteners and their quality
Saccharin isn’t the only non-sugar sweetener in the market. There’s also sucralose and sorbitol. To understand why Davids prefers xylitol to these options, we must review each artificial substance and sugar alcohol.
sodium saccharin
Saccharin is a synthetic sweetener roughly 300 to 400 times more potent than sucrose (standard sugar). It’s a non-cariogenic substance, meaning that it doesn’t ferment in the mouth like sugar, so it won’t lead to enamel erosion.
Unlike xylitol, saccharin is non-functional, meaning it’s purely a flavorant. It offers no therapeutic benefits. If anything, since its inception, the synthetic has undergone scrutiny, including accusations of carcinogenic properties and gut microbiome-altering effects. Most current research dispels these claims, including a 2024 study in the Springer Journal for Food Science and Biology, “Impact of Artificial Sweeteners and Rare Sugars on the Gut Microbiome”, and a 2025 review in the MDPI Journal of Diseases, “Artificial Sweeteners: A Double-Edged Sword for Gut Microbiome.”
Even with cancer claims debunked and microbiome claims needing further study, sodium saccharin doesn’t provide any antibacterial action or enamel support. Xylitol in toothpaste accomplishes both. Saccharin might be a step up as a toothpaste without harmful sweeteners, but is it the best option?
sucralose
Sucralose is another synthetic sweetener, but it’s nearly 600 times sweeter than sucrose. Like saccharin, it’s non-cariogenic. Unlike saccharin, recent research raises significant questions about the efficacy of the substance and its long-term impact on health.
Made from real sugar, the sweetener undergoes chemical alterations, replacing hydroxyl groups with chlorine atoms. This change makes the substance non-caloric. While this all sounds nice on a surface level, it once again results in an ingredient with limited benefits other than flavor.
Unlike xylitol in toothpaste, sucralose is facing increased scrutiny. Recent studies, including a 2024 PMC report, suggest that sucralose disrupts the gut microbiome, leading to dysbiosis and adversely altering the intestinal microbiota. A 2022 report in the MDPI Journal of Microorganisms also found that sucralose consumption can alter glucose and insulin levels in young healthy adults. Furthermore, the Journal of Cancer Discovery published a 2025 article linking high-dose sucralose consumption to altered immunotherapy responses in mice.
Research is ongoing. The current assumptions may change, but with adverse findings culminating, sucralose may join sugar in the harmful sweeteners category.
sorbitol
Moving on to sugar alcohols, we have sorbitol. For toothpaste without harmful sweeteners, it’s the most common sugar alcohol. It’s present as a polyol in fruits, but is often commercially manufactured from corn syrup.
In toothpaste, sorbitol acts as a mild sweetener (about 60% as sweet as sugar) and a humectant, a substance used to promote moisture retention. Unlike xylitol in toothpaste, which is entirely non-fermentable, sorbitol is fermentable to some oral bacteria, meaning it’s a low-cariogenic substance.
Despite this low fermentability, sorbitol still reduces bacterial counts compared to sugar, although less effectively than xylitol (44.1% compared to 64.4% over a week). This means sorbitol doesn’t actively cause cavities, but it also means it doesn’t actively prevent them.
A recent and alarming 2025 study published in Science Signaling suggests a possible connection between sorbitol and liver health. For most people, the gut microbiome contains a sorbitol-degrading bacterium, which allows the sorbitol to pass through the system. The study suggests that in people without this bacterium, sorbitol may pass undigested to the liver, converting to fructose derivatives and contributing to liver disease.
xylitol
That brings us to xylitol in toothpaste, the current favorite of the sweeteners and sugar alcohols. Unlike the other sweeteners on this list, xylitol is anti-cariogenic, which means it actively prevents decay.
While other sweeteners are unattractive to harmful bacteria as a fuel source, xylitol mimics sugar properties, motivating bacteria (Streptococcus mutans) to ingest it. The bacterium doesn’t have the enzymes to ferment xylitol for energy, so it relies on its existing energy stores, resulting in an energy cycle that hastens toward cell death.
Beyond its antimicrobial mechanism, xylitol reduces bacterial and plaque adhesion properties. This makes it easier to eliminate both with routine brushing. Also, xylitol in toothpaste supports mineral transport by increasing saliva production, supporting remineralization.
For extra support in a toothpaste without pure sweeteners like sugar, Davids pairs xylitol withnano hydroxyapatite, a mineral-rich ingredient. The xylitol helps maintain a neutral pH in the mouth, allowing the minerals to bond with the enamel tooth surface.
Davids birch-derived xylitol for pure quality
Davids commitment to premium quality, environmental sustainability, and consumer trust drives our business model and ingredient choices. We could choose a corn-based xylitol source to save money and production costs, but that would expose our consumers to GMO risks and reduce our high-quality standards. That’s why we use birch-derived xylitol instead.
Our birch-derived xylitol for toothpaste not only supports local economies but also ensures a transparent and traceable supply chain. It also results in a purer ingredient and a cleaner sensory profile that is non-GMO defensible.
Are you ready to experience the Davids difference? Shop our selection of clean, pure toothpaste today.
frequently asked questions
How much xylitol should you use daily for the best oral health results?
The specific amount for oral health depends on individual needs. However, the consensus is a total of 5 to 10 grams divided into three doses daily for dental caries prevention. These doses can come from xylitol in toothpaste, lozenges, gum, or syrups.
Is xylitol okay for people with diabetes?
Xylitol is an excellent option, especially for people seeking a toothpaste without sweeteners like sugar. It has a low Glycemic Index (GI) score of 7 and only has 2.4 calories per gram. Comparatively, sugar has a GI score of 60 and 4 calories per gram. The lower score and calorie count mean xylitol may be a preferable alternative for those managing insulin levels.
