Simply change your electric toothbrush head with the ‘tingletip’ massage head to use. ‘Tingletip’ is more than a novelty; it’s a powerful vibrator. It was developed in response to a need for a clitoral stimulator that was as efficient as mains-powered vibrators while also being compact and unobtrusive.
Is it true that electric toothbrushes only vibrate?
The bristles of an electric toothbrush vibrate or rotate to help you remove plaque from your teeth and gums. When you glide your toothbrush across your teeth, the vibration enables for more micro-movements.
More effective at removing plaque
According to a review of studies, electronic toothbrushes reduce plaque and gingivitis more effectively than manual toothbrushes. Plaque was reduced by 21% and gingivitis was reduced by 11% after three months of use. Vibrating toothbrushes appear to work better than oscillating (spinning) toothbrushes.
Easier for people with limited mobility
The majority of the job is done for you by electric toothbrushes. They may be useful for persons who have limited mobility, such as those who have:
developmental handicaps
May cause less waste
In many circumstances, you only need to change the head of an electric toothbrush when it’s time for a new one, so it may be less wasteful than tossing away an entire manual toothbrush.
If you use a single-use electric toothbrush, though, you’ll need to replace it altogether when the time comes.
May improve your focus while brushing
People were more attentive when cleaning their teeth using an electric toothbrush, according to at least one study. This improves people’s overall brushing experiences and may improve how well you wash your teeth.
May improve oral health in people with orthodontic appliances
Electric toothbrushes were shown to be especially beneficial for patients who had orthodontic appliances, such as braces, because they made brushing easier.
Plaque levels were similar in adults with appliances who already had good oral health, whether they used an electric toothbrush or not. However, if you find it difficult to clean your mouth while undergoing orthodontic treatment, an electric toothbrush may help.
Fun for kids
Brushing one’s teeth isn’t something that all children like doing. If your child enjoys using an electric toothbrush, it can help them maintain good dental hygiene and establish healthy habits.
What causes the vibrations in electric toothbrushes?
Illustration of how a real ultrasonic toothbrush works. An electrical circuit (2) that generates a high-frequency DC current is powered by a battery (1). This powers an apiezoelectric transducer (4), which converts electricity into high-speed vibration, via connecting wires (3). The transducer expands and contracts at a high rate in your mouth, creating sound waves that cause gentle cavitation (5) around your teeth, releasing plaque that can be swept away (6).
Is it true that Oral-B toothbrushes are Sonic?
Oral-B does not employ sonic technology, yet its movements achieve the same results as Sonicare, although through oscillation, rotation, and pulsating. Oral-B calls this “3D cleaning action,” in which plaque is dislodged and the liquid in the mouth is agitated to better clean your teeth.
Is it true that vibration is good for your teeth?
It has been demonstrated that patients and doctors are interested in and prepared to pay a premium for strategies to minimise orthodontic treatment time. Adjunctive high-frequency vibration has shown to accelerate tooth movement significantly and has been used successfully with accelerated aligner swap intervals. The effects of increased bone turnover on post-treatment bone density entering the retention period remain unanswered.
Using clear aligners, this study looked at the effect of supplementary high-frequency vibration (HFV) on orthodontic treatment time and post-treatment bone density at the start of the retention phase. The findings showed that patients who used high-frequency vibration were able to advance aligners 40 percent faster than controls while also showing a statistically significant nett gain in bone density at the end of orthodontic treatment when compared to baseline. Between the starting and ultimate bone density of the control participants, there was no significant difference. This is the first study that we are aware of that uses the CBCT to explore the influence of high-frequency mechanical vibration on bone density after orthodontic treatment in humans.
Aligner therapy is progressing in terms of technology and therapeutic application. Aligner methods are being redefined and enhanced in order to maximise treatment efficiency while increasing patient experience. All patients in this trial were told to change aligners as soon as they became loose or passive, providing for a smooth transition to the next aligner. The quicker rate of aligner change in the HFV group could be attributed to one or all of the following three reasons. First, using the device for 5 minutes each day may improve mechanics by ensuring uniform aligner seating throughout the dentition and, as a result, more consistent force delivery throughout the treatment period. Second, because it is commonly known that high-frequency vibration can relieve discomfort caused by dental issues, patients may have had better compliance with their aligners as well as the daily 5-minute HFV treatment. Third, the HFV device may have directly increased the rate-limiting biological reaction, resulting in rapid bone remodelling and a quicker rate of tooth movement.
Mechanical stimulation causes the cranial bones to respond. Vibration has considerable anabolic effects in the absence of orthodontically induced inflammation. Alikhani compared vibration at 30 Hz, 60 Hz, 100 Hz, and 200 Hz to non-vibrated controls in the absence of orthodontic force. When compared to untreated animals, osteoblast formation increased significantly for all frequencies, with alveolar bone volume increases of 10%, 17%, 19%, and 12%, respectively. On a cellular level, strain inhibition of RANKL generated by bone stromal cells is responsible for the improved anabolic effect of mechanical stimulation.
These findings contribute to a better knowledge of vibration uses in dentistry by answering questions about contradicting reports from different studies. If adjunctive vibration does not induce a catabolic cascade, the mechanical stimulation supplied looks to be exclusively anabolic in nature, which could be harmful to faster orthodontic tooth movement.
Given that final aligners are frequently staged to overcorrect a simple motion such as a single rotation, or can be entirely passive, high-frequency vibration would have stopped PDL amplification of the osteoclastic effect on non-activated teeth, and instead enhanced the osteoblastic bone deposition phase through increased mechanical stimulation. This notion is consistent with Alikhani and Yamamoto’s findings of an increased catabolic effect of HFV in the presence of orthodontic force and an increased anabolic effect of HFV in the absence of orthodontic force. This anabolic effect was also found to be frequency dependent, with the osteogenic effect nearly doubling as frequency climbed from 30 Hz to 100 Hz.
When interpreting the findings of this study, there are some essential limitations to keep in mind. First, while many studies have shown that CBCT grey values are commonly used and clinically appropriate for detecting bone density, others have shown that they do not reliably assess bone density. The University of Alberta’s health ethics review board authorised the CBCT approach utilised in this study (HERB). It was based on an American Dental Association (ADA) position statement and clinical recommendations from the American Academy of Oral and Maxillofacial Radiology (AAOMR) for obtaining clinically relevant images while adhering to the “as low as reasonably achievable (ALARA) principle, and it was comparable to many published reports quantitatively measuring bone density. Second, the alveolar bone density in this study was only assessed in the anterior region. The inclusion criteria for addressing class I anterior crowding were used. Changes in bone density in the posterior portion of the mouth should also be investigated. Third, patients were told to change their aligners once they were no longer active. While this may appear to introduce unpredictability, it is biologically the most efficient and is intended to reduce stage completion variability, which can lead to poor tracking. Allowing aligners to advance only once each staged movements have been accomplished is the same as prescribing intermittent pressures. Intermittent forces have been shown to be less effective than continuous forces in clinical trials. If the sequentially staged forces had previously been passive or were not yet completed, delivering incomplete and higher forces, mandating aligner advancement on a rigors, specified, but arbitrary schedule may actually impart increased variability. This constraint is inextricably linked to sequential aligners and cannot be avoided.
Patients treated with HFV had faster aligner alterations and significantly enhanced post-treatment, retention phase, alveolar bone density in the current investigation. Hypothesis 1 is rejected because the results do not fully support the null hypotheses. When compared to the control group, the HFV group showed a higher rate of tooth movement/alignner shift. The second hypothesis is ruled out. When compared to the control group, the HFV group showed a substantial change in T1 and T2 bone density. This study shows that HFV has the potential to speed up treatment while also enhancing bone density, which is important for long-term retention. The importance of post-orthodontic bone density in maintaining occlusal stability and preventing orthodontic recurrence cannot be overstated. These data suggest that HFV has the ability to increase or possibly speed up bone mineralisation during the orthodontic retention phase. Future research into the use of high-frequency vibration in the retention phase is needed to see if it can reduce the time needed for full-time orthodontic retention before switching to night-time only wear and reduce orthodontic relapse.
The low barriers to integration of the high-frequency gadget are due to its ease of use and lack of known negative effects. Other dental applications that need alveolar bone improvement, such as increasing the stability of prosthetic implants, maintaining the integrity of the bone under dentures, and managing periodontal disease, may also benefit from high-frequency mechanical stimulation.
Is it necessary to rotate an electric toothbrush?
“While the clinical importance of these findings is subjective, decades of study show that oscillating-rotating electric toothbrushes should be the first-line option for daily mechanical hygiene,” the researchers stated.
Which electric toothbrush is better: a rotating or a vibrating one?
Brushing your teeth twice a day for two minutes, properly cleaning all surfaces of the teeth, is recommended by the American Dental Association. It may appear simple, but following that advice can be tough, and insufficient or irregular brushing can lead to plaque buildup, tooth damage, and periodontal disease.
Using an electric or sonic toothbrush is one of the greatest methods to ensure that your teeth get the daily cleaning they require. Electric and sonic toothbrushes both contain a rotating brush head that helps remove plaque more effectively, and many include an automatic timer or auto-off switch to assist you brush for the necessary two minutes.
Electric and sonic tooth brushes can both help you improve your brushing habits and are less difficult to use than manual toothbrushes. An electric or sonic toothbrush does the brushing for you instead of you doing it yourself. All you have to do is move the brush around your mouth, guiding it to all of your teeth’s surfaces.
Some electric and sonic toothbrushes offer additional benefits in addition to a single two-minute shutoff, such as:
- 30-second reminders when it’s time to move the brush to a new area of your mouth
- Pressure sensors can alert you if you are brushing too hard.
- Deep cleaning, whitening, tongue cleaning, and sensitive teeth modes are all available.
- When it’s time to replace the brush head, you’ll get a reminder.
- Bluetooth connectivity allows you to track your brushing and oral health using an app on your smartphone.
A vibrating or oscillating brush head is found on both electric and sonic toothbrushes, and it either spins in a circle or vibrates in a side-to-side motion. Brushing speed and coverage are the key distinctions between the two.
Brush heads on electric toothbrushes rotate at a pace of around 2,500 to 7,500 strokes per minute, compared to about 300 strokes per minute on manual toothbrushes. Sonic toothbrushes vibrate at a far faster pace than regular toothbrushes, at over 30,000 brushes per minute. Sonic toothbrushes vibrate at around ten times the rate of an electric toothbrush, so a two-minute brushing session with one will provide greater cleaning power.
Another advantage of sonic toothbrushes is that they provide a supplementary type of cleaning based on a fluid dynamics effect. Sonic toothbrushes agitate the fluids in the mouth (water, saliva, and toothpaste), effectively turning them into cleaning agents that reach crevices that the brush can’t reach, such as between teeth and below the gum line, due to the considerably faster brush speed.
In a six-month study, users of both Sonicare sonic toothbrushes and Oral-B electric toothbrushes saw improvements in their overall oral health, but the sonic toothbrush was significantly more effective at removing plaque, reducing gingivitis, and improving tooth and gum health in adult periodontitis patients.
While both electric and sonic toothbrushes provide excellent tooth cleaning, the best toothbrush is the one you will use, as dentists like to say. To attain best dental and oral health, select a toothbrush that meets your unique needs and preferences.
Is Oral-B or Sonicare recommended by dentists?
Dentists all across the world suggest Oral-B as the best toothbrush brand. Oral-B electric brushes have a 3D brushing movement that provides a greater clean over Sonicare. The smaller brush head of Oral-B curves over the mouth’s surfaces, cleaning more efficiently than Sonicare.
I need to examine and understand the scientific data to back my recommendation for a toothbrush brand or specific toothbrush. Then there’s the user experience, which comes after the science. Both Oral-B genius and Sonicare DiamondClean brushes have been used on me.
Can electric toothbrushes lead to gum recession?
While electric toothbrushes can help you maintain a beautiful and healthy smile, learning how to use them properly is crucial. If the brush is not used properly, it can cause harm to the sensitive tissues of the gums, causing the gums to recede. Food and germs can intrude into the bone beneath the recession, causing deterioration and infection. If you don’t know how to use an electric toothbrush properly, you should put it away until your dentist can give you instructions.
You Don’t Need a ‘Tingle’
Many people who wash their teeth with a manual toothbrush may scrub until their gums tingle. As children, many were taught that this is a sign that the brushing is working. This, on the other hand, is an indication that you’re being overly enthusiastic. If you prefer a tingling sensation while brushing, use a stronger mint paste and a softer brush.
You Shouldn’t Need a New Brush Every Few Weeks
Every three months, a toothbrush should be replaced. You’re probably brushing it too vigorously if it becomes ragged and worn out before it has to be trashed. This is bad for your gums and can even eat away at the enamel of your teeth! Whether using a manual or computerised toothbrush, brush in gentle circles.
Beware Hard Bristles
While toothbrushes come in soft, medium, and hard bristles, soft bristles should be used to avoid causing trauma to your gums. If you have sensitive oral tissues or experience bleeding after brushing, this is extremely important. Consult your dentist to see if a harder bristle should be used. He or she will almost certainly urge you to stick with the soft option.
Be Mindful While Flossing
Gum recession can also be caused by flossing trauma. Take care not to squish the floss between your teeth. Snapping the floss or sawing it forcibly is not a good idea. If you’re having difficulties getting food particles stuck between your teeth, a device like a Waterpik might be the answer. To minimise further damage, ask your dentist for a flossing tutorial if your gums are irritated or bleeding after flossing.
Don’t Use Enthusiastic Oral Care to Avoid the Dentist
Some people brush and floss thoroughly in an attempt to save money, time, or both, believing that this will allow them to avoid the dentist’s chair. By the time you finally give in and go to the dentist, the damage may be serious and costly to repair. Maintain your six-month checkups and leave the extensive cleaning to your dentist or hygienist.
Electric toothbrushes can help you maintain your teeth white and free of cavities. Overbrushing and flossing, on the other hand, might result in receding gums, bone damage, and infection.
