How To Pull Your Own Tooth Without Pain?

How To Pull Your Own Tooth Without Pain
Experiencing a Loose Tooth? Here’s How You Can Pull It Out Painlessly

  1. Keep Wiggling. Wiggle the tooth back and forth with your clean hands or tongue, as it will help loosen it and fall out on its own.
  2. Brush and Floss Vigorously.
  3. Wet Wash Cloth/Gauze.
  4. Twist and Pull Gently.
  5. Visit Your Dentist.


Can I pull my own tooth if it hurts?

Should you force a tooth to come out? – The quick answer is no, you should not force a tooth to come out. Forcing a tooth to come out when it’s not ready can cause severe pain and permanent damage to your nerves and surrounding tissue. When ready, the tooth should become loose and pull out with ease.

How much force does it take to pull out a tooth?

Extraction force and its determinants for minimally invasive vertical tooth extraction , May 2020, 103711 The desire to minimise bone loss following tooth extraction to facilitate subsequent implant restoration has led to the development of novel vertical extraction techniques. These techniques aim to extract a tooth by applying a pulling force to the tooth root that is directed strictly along its long axis, resulting in the severance of Sharpey’s dento-alveolar fibres and tooth extraction.

Importantly, in case of a conical root without significant root curvature or undercuts, this extraction The extractions described here were performed between December 2008 and October 2009 as part of routine clinical care of patients referred for tooth extractions or attending emergency appointments at the Clinic of Oral Surgery, Department of Oral and Maxillofacial Surgery, University of Zurich.

All patients required tooth or root extractions as part of their treatment plan and all provided informed consent to treatment. All procedures were performed under local anaesthesia. The clinical The sample included a total of 41 patients (28 Males and 13 Females) with a mean age of 45 ± 19 years (range 16-89 years).

  • A total of 59 distinct roots of 55 teeth were extracted with the Benex® system, including 3 molars and one premolar, which each had two roots extracted separately.
  • An additional 5 multi-rooted teeth had only one of their roots extracted with the Benex® system, and only these roots were therefore included in this analysis (Table 1).

The majority of teeth required extraction The present study determined the forces occurring during tooth extraction with a vertical extraction system. We found that the required maximum extraction force varied widely between teeth, ranging from less than 50 N to over 600 N.

Extraction force also increased linearly with increasing root surface attachment area. The corresponding maximum stress ranged from 0.8 to 1.9 N/mm 2, Larger forces were required for teeth that were in functional occlusion at the time of extraction, compared to teeth Extraction forces required to extract teeth or tooth roots using the Benex® vertical extraction system vary widely and can be less than 50N or exceed 600N.

On average, higher extraction forces are required to extract teeth with longer and thicker roots, as well as for teeth that are in functional occlusion. Raw data have previously been published and are available through the university of Zurich (Schmid I, Kräftemessungen bei Zahnextraktionen mit dem Benex®-Extraktor, Zahnmedizinische Dissertation, University of Zurich, 2010).

  1. This research did not receive any specific grant from funding agencies in the public, commercial, or not-for-profit sectors.I.S. and M.L.
  2. Conceived the idea and collected the data.T.D.
  3. Performed statistical analysis and led the writing with O.A.
  4. All authors contributed to data interpretation and critically reviewed and approved the manuscript.

The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper. This research was conducted in partial fulfilment of the requirements for the degree of Dr.

D.C. Picton et al. R. Krug et al. R. Kronfeld K. Komatsu et al. K. Komatsu et al. Y. Kinoshita et al. R.D. Kelly et al. R.J. Kanoza et al. B. Hong et al. D.A. Deporter et al.

M. Chiba et al. H.F. Atkinson et al. W. Beertsen

Melt electrowriting (MEW) has grown in popularity in biofabrication research due to its ability to fabricate complex, high-precision networks of fibres. These fibres can mimic the morphology of a natural extracellular matrix, enabling tissue analogues for transplantation or personalised drug screening. To date, MEW has employed two different collector-plate modalities for the fabrication of constructs. Flat collector plates, typical of traditional 3D printing methods, allow for the layer-by-layer fabrication of 2D structures into complex 3D structures. Alternatively, rotating mandrels can be used for the creation of tubular scaffolds. However, unlike other additive manufacturing techniques that can immediately start and stop the extrusion of material during printing, MEW instead requires a continuous flow of polymer. Consequently, conventional g-code control software packages are unsuitable. To overcome this challenge, a suite of customised pattern generation software tools have been developed to enable the design of MEW scaffolds with highly-controlled geometry, including crosshatch, gradient porosity, tubular, and patient-specific configurations. The high level of design control using this approach enables the production of scaffolds with highly adaptable mechanical properties, as well as the potential to influence biological properties for cell attachment and proliferation. Our purposes were to determine the influence of psychological profile on hemodynamic changes in patients who undergo surgical removal of the third molars under intravenous sedation and to evaluate the effect on patients’ anxiety and postoperative recovery. We performed a prospective study of 100 patients (American Society of Anesthesiologists classes I and II; aged ≥18 years) seen in the CIMIVClinic (Department of Oral Surgery, Casa de Salud University Hospital, Valencia, Spain) who underwent extractions of all third molars under intravenous sedation. All patients were administered the Symptom Checklist 90 Revised (SCL-90-R). The following parameters were monitored at different times during the surgical interventions: systolic blood pressure, diastolic blood pressure, oxygen saturation, and heart rate. Position and depth of impaction of the tooth (Pell and Gregory classification and Winter classification), surgery duration, and surgical technique also were recorded. Finally, the degree of pain experienced the week after the surgical intervention was measured using a visual analog scale. Patients’ anxiety levels preoperatively were significantly higher in patients with psychological distress ( P =,023). Postoperative pain significantly decreased from the first day to the seventh day in healthy patients but not in patients with altered psychological conditions ( P <,05). Nevertheless, the hemodynamic changes were not correlated with the psychological impairment. Intravenous sedation enables the control of hemodynamic changes in all patients independently of their psychological profile. Patients with psychological distress present with higher levels of dental anxiety and postoperative pain. Future studies are needed to further clarify this interaction. This study aims to develop a corona discharge process for a surface treating a glass-ceramic, feldspar porcelain, to improve its bonding to a resin cement with a silane-coupling agent. Corona discharge, a type of plasma process, was performed using a custom-made device on a porcelain surface at temperatures ranging from 25 to 300 °C, for specific treatment times in air. The porcelain was then subjected to a post-heat-treatment at 600 °C to condition the surface state. The resulting surface was primed with a silane-coupling-agent followed by cementing using a resin cement to measure the shear bond strength (SBS). To investigate the effect of surface modifications by the corona discharge treatment, the porcelain was characterized by surface roughness, contact angle, and an X-ray photoelectron spectroscopy analyses. The SBS for the corona-discharge-treated porcelain increased with an increase in treatment-temperature and -time, and reached the maximum value at 200 °C and 5 min. The post-heat-treatment improved the bond durability after thermocycling. The SBS for the corona-discharge-treated porcelain was then compared to that of a conventional hydrofluoric-acid-treated one, which showed that the SBSs were comparable. The results of the surface characterizations indicated that the corona discharge treatment generated silanol groups on the porcelain surface giving hydrophilic properties without roughening the surface. It was found that the corona discharge treatment generates silanol groups on the porcelain surface, resulting in an increased SBS. This study is the first to demonstrate that corona discharge treatment is effective for improving bond strength through the modification of the surface of glass-ceramics. Transplantation of autologous teeth is a routine component of orthodontic treatment. The aim of this study was to develop a method for the regeneration of damaged periodontal ligament (PDL) on extracted teeth using a three-dimensional culture system. We used the maxillary first premolars or third molars extracted from patients for orthodontic treatment. The extracted teeth were stained with toluidine blue to measure the residual PDL area. After confirming damage of the periodontal tissue on the root surface of the extracted teeth, we tried to regenerate the periodontal tissue. Other extracted teeth were inserted into a cell strainer filled with cellulose-based carrier materials to regenerate the periodontal tissue. The strainer was then placed in a 90-mm culture dish filled with culture medium and incubated at 37 °C and 5% CO2 for about 1 month. The cultured teeth were observed under a stereomicroscope and examined by scanning electron microscopy (SEM), and were stained to detect alkaline phosphatase (ALP) activity. Toluidine blue staining revealed that the residual periodontal membrane covered an average of 50.4% of the root surface area of each tooth. After culturing extracted teeth with our culture system, globular structures were found on the entire tooth root surface by stereomicroscopy, and PDL-like filamentous tissue was also detected by SEM. The entire tooth root surfaces of the cultured teeth were positive for ALP activity. We have developed a useful culture method to stimulate the proliferation of cells in PDL-like tissue on the roots of extracted teeth. The present study aimed to analyze the early soft tissue healing characteristics and Fractal Dimension (FD) of extraction sockets preserved by Leukocyte-platelet-rich fibrin (L-PRF) and titanium prepared platelet-rich fibrin (T-PRF).57 single-tooth extraction sockets were included in the study, three groups were prepared: post-extraction sockets filled with L-PRF ( n = 19) and T-PRF ( n = 19), and control group; naturally healing sockets ( n = 19). Three months after tooth extraction, FD measurement was made in the center of the healing socket. The Landry Wound Healing Index (LWHI) and H 2 O 2 bubbling test results for the complete wound epithelization (CWE) rates were recorded 1 and 2 weeks postoperatively. All patients were asked to record a visual analog scale (VAS) value for pain and the number of analgesics taken during the 3 days after the extraction. CWE using H 2 O 2 test result showed a significantly lower rate in the controls than in L-PRF and T-PRF groups at 1st week. At 2nd weeks, both of the test groups showed 100% CWE compared with only 40.7% in the control group. The VAS pain score was significantly higher in the control group than in L-PRF and T-PRF groups on the 1st day. However, no significant difference was found among the groups on 2nd day. FD value of control group was significantly lower than the L-PRF group and T-PRF group. T-PRF and L-PRF similarly enhanced wound epithelization and reduced postoperative discomfort at extraction sockets. The T-PRF procedure resulted in higher FD compared to the L-PRF and control group.

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: Extraction force and its determinants for minimally invasive vertical tooth extraction

What is the safest way to pull out a tooth?

How to Safely Pull Your Child’s Loose Tooth – If your little one wants you to pull their tooth for them, there is a way to do so safely. Start by thoroughly washing your hands. Hold the tooth with a clean tissue and rock it back and forth to ensure it’s ready to fall out.

  • If it is, then all you should need to do is twist it slightly, and it should pop right out.
  • A baby tooth that is ready to come out shouldn’t cause much if any bleeding, but if there is, apply firm pressure to the area with a clean gauze pad.
  • Check their mouth to ensure there are no remaining pieces of the baby tooth.

If there are, or if your son or daughter is experiencing lingering pain or redness, contact your right away to make sure that the area isn’t infected. Loose teeth can be exciting for kids, but it’s usually best to wait until the teeth are ready to fall out on their own.

What happens if I pull a tooth myself?

Broken Teeth – Attempting to remove a tooth yourself can cause the tooth to break off before the root. It can potentially damage the surrounding teeth. Not only will this be detrimental to your smile, but it can cause significant (and expensive) problems.

Is it OK to pull your own tooth?

Can You Pull Your Own Adult Tooth? – It’s easy to relate to kids pulling baby teeth, but what happens when you’re an adult dealing with permanent teeth? There are many reasons adults need teeth pulled, including crowding, tooth decay, infections, injuries, and wisdom teeth.

  • Even if you can do it, pulling your own tooth is never a good idea.
  • You could cause significant damage to your mouth and end up with more problems than the tooth caused.
  • Whether your tooth is broken, infected, or simply loose, it’s critical that you see a dentist for the extraction,
  • A broken tooth could leave fragments behind that could further damage our gums, bone, or soft tissues of your mouth.

Likewise, pulling an infected tooth on your own could cause the underlying infection to spread and make you much sicker.

How do you pull a tooth in an emergency?

Tooth extraction is done using manual dental instruments, to remove nonviable, nonsalvageable teeth. Adequate anesthesia is important. Postprocedure dry socket is to be prevented. Even when indicated, emergency tooth extraction is typically done by a dentist except when a dental professional is not available (eg, in remote areas or some emergency situations).

Significant infection in a nonviable, nonsalvageable tooth Marked tooth mobility (eg, due to infection, periodontal disease, trauma) posing a risk of aspiration

Absolute contraindications

Site has been previously heavily irradiated (extraction could precipitate osteoradionecrosis) Site is in proximity to an area of infection or malignancy (extraction may spread the disease) Adjacent structure is fractured (the tooth may be stabilizing the fracture)

Relative contraindications

Coagulopathy*: When feasible, correct prior to procedure. Pregnancy: Avoid treatment in the 1st trimester if possible.

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Injury to nearby mucosa, teeth, maxilla (eg, maxillary tuberosity or sinus), or jaw (eg, fracture, temporomandibular joint injury) due to excessive or misdirected force Perforation of the maxillary sinus during extraction of maxillary molars, or some premolars Nerve injury resulting in sensory changes (eg, numbness, protracted pain, hypersensitivity, loss of taste) Loss of tooth or tooth fragment in maxillary sinus Aspiration of tooth

Dental chair, straight chair with head support, or stretcher Light source for intraoral illumination Nonsterile gloves Mask and safety glasses, or face shield Gauze pads Cotton-tipped applicators Dental mirror or tongue blade Suction, preferably narrow tip (3- to 5-mm) not Yankauer Rubber bite block for lower teeth (to help protect the TMJ by preventing excessive pressure on the mandible—pediatric size is usually adequate for both children and adults) Retractors (eg, Minnesota cheek retractor, Weider tongue retractor) Elevators—#9 Molt: periosteal elevator; #301 (narrow) or #34 (wide): straight elevators; #92: bayonet elevator Forceps—#150 or #150S (small): universal upper forceps; #151 or #151S (small): universal lower forceps

Minimal basic dental instruments include small periosteal elevator (Molt or Freer), #301 elevator, and universal forceps (#150 – upper, #151 – lower). Equipment to do local anesthesia:

Topical anesthetic ointment* (eg, lidocaine 5%, benzocaine 20%) Injectable local anesthetic such as lidocaine 2% with epinephrine † 1:100,000, or for longer duration anesthesia, bupivacaine 0.5% with epinephrine † 1:200,000 Dental aspirating syringe (with narrow barrel and custom injectable anesthetic cartridges) or other narrow barrel syringe (eg, 3 mL) with locking hub 25- or 27-gauge needle: 2-cm long for supraperiosteal infiltration; 3-cm long for nerve blocks

* CAUTION: All topical anesthetic preparations are absorbed from mucosal surfaces, and toxicity may result when dose limits are exceeded. Ointments are easier to control than less-concentrated topical liquids and gels. Excess benzocaine rarely may cause methemoglobinemia.

  1. Maximum dose of local anesthetics: Lidocaine without epinephrine, 5 mg/kg; lidocaine with epinephrine, 7 mg/kg; bupivacaine, 1.5 mg/kg.
  2. NOTE: A 1% solution (of any substance) represents 10 mg/mL (1 gm/100 mL).
  3. Epinephrine causes vasoconstriction, which prolongs the anesthetic effect; this is useful in well-vascularized tissues such as the oral mucosa.

Patients with cardiac disease should receive only limited amounts of epinephrine (maximum 3.5 mL of solution containing 1:100,000 epinephrine ); alternatively, use local anesthetic without epinephrine,

If a tooth is being removed and perioral soft tissues also need to be repaired (eg, lip laceration), it is preferable to proceed from inside to outside (ie, removing tooth first, then repairing lip).

Some patients require pretreatment:

Antibiotic prophylaxis for endocarditis Prophylactic antibiotic regimens Infective endocarditis is infection of the endocardium, usually with bacteria (commonly, streptococci or staphylococci) or fungi. It may cause fever, heart murmurs, petechiae, anemia, embolic. read more should be given to certain high-risk patients High-risk patients Infective endocarditis is infection of the endocardium, usually with bacteria (commonly, streptococci or staphylococci) or fungi. It may cause fever, heart murmurs, petechiae, anemia, embolic. read more prior to dental extraction. Sedation may be needed for patients unable to cooperate with the procedure.

The floor of the maxillary sinus can be very thin, and roots of teeth may abut, or possibly enter, the sinus. The lateral wall of the maxilla is relatively thin. Thus, most maxillary teeth can be anesthetized by simple local infiltration over the apex (root tip) of the tooth, because the anesthetic solution readily diffuses through the thin lateral bone. Inferior alveolar nerve: Check an x-ray for proximity of lower molar roots to the nerve to avoid inadvertent nerve injury. Other dental nerves: To avoid nerve injury, avoid reflecting nearby mucosa (ie, lingual side of the mandible, buccal side of the mandible in the premolar region ), and use caution reflecting mucosa above the maxillary canine/premolars (infraorbital nerve). Temporomandibular joint (TMJ): Because excessive pressure on the mandible can injure the joint, support the mandible with one hand and use a bite block if available.

Position the patient inclined, with the patient’s head at the level of your elbows and the occiput supported. For the lower jaw, use a semi-recumbent sitting position, making the lower occlusal plane roughly parallel to the floor when the mouth is open. For the upper jaw, use a more supine position, making the upper occlusal plane roughly 60 to 90 degrees to the floor. Turn the head and extend the neck such that the tooth is clearly visible and accessible: In general, turn the head slightly away to remove teeth on the side on which the operator is standing and slightly toward the operator for teeth on the opposite side. Keep the head facing forward for the front teeth.

Prior to the procedure, do periapical or panographic x-rays to evaluate the tooth in question, surrounding alveolar bone, and nearby structures.

Wear nonsterile gloves and a mask and safety glasses, or a face shield.

Provide local anesthesia

Consider whether sedation is needed. If supplemental anesthesia is needed, do local infiltration (field block) around the tooth.

Extract the tooth

Place a partially unfolded 4″ x 4″ gauze posterior to the tooth to prevent inadvertent loss of the tooth in the throat; do this gently to prevent gagging.

The key steps are to

Release the cuff of gingiva attached to the tooth. Gain initial tooth mobility using an elevator. Further mobilize the tooth and then extract it using forceps. Irrigate and, if needed, curette the socket. Apply a gauze compression pad.

To release the cuff of gingiva, insert the pointed end of a #9 periosteal elevator between the gingival cuff and the tooth. Keep the point in contact with the root of the tooth and advance the elevator along the long axis toward the root tip; as it is inserted, the elevator gently reflects the gingival cuff away from the tooth.

  1. Do this circumferentially all the way around the tooth.
  2. Also, on the buccal side only, reflect the small triangular papilla of gingiva between the tooth to be removed and the tooth/teeth directly adjacent.
  3. Gain initial tooth mobility using a straight elevator (eg, #301 or #92).
  4. Gently insert the elevator perpendicular to the tooth into the space between the tooth to be removed and the adjacent tooth.

The elevator should be resting on the crest of the bone between the teeth. The elevator has 2 surfaces; the concave surface is the working side and should face the tooth being removed. One edge of the elevator is held against the alveolar bone between the teeth; this edge is kept in place and used as the fulcrum while the other edge is rotated toward the tooth being removed to mobilize the tooth and expand the socket.

DO NOT use the adjacent tooth as a fulcrum. Mobilization with the straight elevator is usually first done anterior to the tooth being removed and then posterior to the tooth. The straight elevator also can be inserted vertically along the long axis of the tooth between the root and the socket, and rotated to further expand the socket.

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Do not use the alveolar bone on the palatal or lingual side of the tooth as a fulcrum. Use the elevator repeatedly in these ways to continue mobilizing the tooth prior to using the forceps.

Can I pull my own tooth with pliers?

Pulling your own adult teeth out with tools such as pliers is exceedingly dangerous, and could lead to needing to go to hospital. But, we understand that for residents of rural Northland it doesn’t always feel like there’s an option – after all, so many of our towns don’t have dentists at all.

How long does it take to pull 1 tooth out?

How Long Does a Tooth Extraction Take? – If you’re just having one tooth extracted, the entire process can be completed in 20-40 minutes, However, if you’re having multiple teeth extracted, expect to spend a little more time in our office. Each additional tooth will take another 3-15 minutes of appointment time, depending on its location.

What is the easiest tooth to extract?

Simple Tooth Extraction? A Consultation with Dear Doctor, I injured a tooth years ago and now my dentist says it needs to be removed. She said, “It’s a simple extraction,” but is referring me to an oral surgeon. Does this sound simple to you? Dear Mark, It sounds like there may be a difference in perception of the word, “simple.” From the dentist’s perspective, this probably implies a routine extraction.

How To Pull Your Own Tooth Without Pain
The ease or difficulty of tooth removal is related to the size, length and the number of the roots as well as the location of the tooth in the mouth. This picture is for illustrative purposes only and not meant as an exhaustive guide.

From a procedural or professional standpoint, a simple extraction refers to removing a tooth in which the shape of the root or roots lends to easy removal. This usually involves teeth that have a single and straight root shape, which allow for a more or less straight path of removal.

  • In the case of an upper front tooth the root is generally cone-shaped, so there is not too much resistance to removal.
  • One source for this particular procedure’s name is from the dental insurance code ascribed to it, “simple uncomplicated extraction.” Removing teeth, while not a particularly pleasant experience, is a routine and uncomplicated procedure in the hands of an expert.

And for most oral surgeons it is a mainstay of oral surgical practice. What keeps a tooth in place in its native bone is a membrane or ligament that surrounds the tooth root called the periodontal ligament (“peri” – around; “odont” – root). The main fibers of the ligament surround the tooth at a slanted angle similar to a hammock and attach it to the bone.

  1. By carefully manipulating the tooth, these fibers can be fairly easily dislodged, allowing the tooth to be removed quite simply.
  2. Believe it or not, there is a real art and “feel” involved in tooth removal, making it both uncomplicated and relatively simple.
  3. It is certainly easier in experienced hands and therefore inconsequential for a patient on the receiving end.

To ensure the extraction is “simple” in the professional sense, involves proper assessment and diagnosis beforehand, in particular of the shape and status of the tooth or teeth to be removed, and the surrounding bone in which they are encased. Routine radiographic (x-ray) examination will allow that determination.

In addition the oral surgeon will also take a thorough medical and drug history, to both ensure that you are healthy enough to undergo this minor surgery, and that you have normal blood clotting and wound healing mechanisms. A simple extraction refers to removing a tooth in which the shape of the root or roots lends to easy removal.

It may also be likely that the surgeon will fill the socket (the space formerly occupied by the tooth), with a bone substitute or other grafting material if it is necessary. Most grafting materials today act as scaffolds upon which your body builds or replaces the grafting material with bone.

This ensures that any existing boney defect is reconstructed and the original bone mass or volume is reestablished. This is particularly necessary if a dental implant is contemplated to replace the tooth root. However, your oral surgeon should let you know whether or not your socket(s) will require grafting prior to your treatment.

Another important factor in making an extraction procedure “simple” is recognizing what to do if there are any minor complications. For example, if a tooth root is brittle it may fracture due to previous trauma and/or a root canal treatment. This may require some surrounding bone removal to access and remove the fractured root fragments.

While this complication may sound dramatic, it is not—and is routinely encountered and planned for by an experienced oral surgeon. Immediately after tooth removal it is normal to place sterile gauze over the socket for 10-20 minutes with gentle pressure to control bleeding while a clot forms. Some small sutures (stitches) may also be placed over the socket to help control bleeding.

As for your after surgery care, you will receive instructions for cleaning and caring for the extraction site. You may also be provided with any or all of the following: antibiotics, anti-inflammatory (swelling control) and analgesic (pain control) medication, usually of the aspirin/ibuprofen family of drugs as well as saline or antibacterial mouthrinses.

  1. Tooth extraction is usually carried out with local anesthesia, numbing the teeth to be removed together with the surrounding bone and gum tissues.
  2. In addition oral sedation medication, nitrous oxide and/or conscious sedation can be used to render the experience anxiety free, relaxing and amnesic (“a” – without; “mnesia” – memory).

This is usually required for more complicated or multiple tooth extraction. By the time the sedation medication has worn off you won’t even know it has been done. It is important that all the potential risks, benefits and possible outcomes of tooth removal are reviewed with you beforehand, so you know what to expect.

How fast does it take to pull a tooth?

2. How long does a tooth extraction take? – This procedure is quicker than you’d think. The entire process of pulling a tooth—from administering the anesthetic to applying stitches if needed—typically takes anywhere between 20-40 minutes. That said, the procedure will take longer if you require more than one tooth pulled.

How do you pull out a tooth fast?

6. Use Tweezers – Using clean tweezers to wiggle the loose tooth is the best and painless way to pull out a loose tooth. If it doesn’t come out easily, don’t apply more force, leave the tooth in its place and try the process again after a few days.

Can I pull my own tooth with pliers?

Pulling your own adult teeth out with tools such as pliers is exceedingly dangerous, and could lead to needing to go to hospital. But, we understand that for residents of rural Northland it doesn’t always feel like there’s an option – after all, so many of our towns don’t have dentists at all.