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Toothache

A toothache is in or around a , often resulting from dental cavities (), , or irritation of the or surrounding tissues. Common causes include the progression of untreated cavities, where plaque produce acids that erode and , eventually inflaming the dental and pressing on to cause . Bacterial leading to a —a pocket of at the root tip—can also produce severe, throbbing that may radiate to the , , or neck. Other contributors encompass gum disease (periodontitis), fractures or trauma, teeth grinding (), and even non-dental issues like sinus that refer to the upper teeth. Symptoms typically involve aching or sharp pain in the affected , heightened sensitivity to hot, cold, sweet, or acidic foods and drinks, and discomfort when biting or chewing. In cases of or advanced , additional signs may include swelling of the face or , fever, , and tender nodes. Persistent or severe toothache lasting more than one to two days, or accompanied by fever or swelling, warrants prompt professional evaluation to prevent complications such as or systemic . Diagnosis generally involves a dental , review of symptoms and , and possibly X-rays to identify underlying issues like or abscesses. Treatment depends on the cause but may include fillings for cavities, therapy to remove infected pulp, drainage of abscesses, antibiotics for , or tooth extraction in severe cases; over-the-counter pain relievers provide temporary relief. Prevention focuses on daily practices—brushing twice daily with , flossing, and limiting sugary foods—along with regular dental check-ups and professional cleanings.

Anatomy and Physiology

Tooth Structure

Teeth are complex structures composed of multiple layers and supporting tissues that provide protection, support, and sensory function. A typical consists of a crown, the visible portion above the gum line, and a embedded in the jawbone. In cross-section, the crown features an outer layer of surrounding the bulk of , with a central chamber; the root similarly has covered by externally, enclosing an extension of the pulp known as the , which narrows toward the . The outermost layer of the crown is enamel, the hardest substance in the , primarily composed of crystals and making up about 96% content. Enamel serves as a protective barrier against mechanical wear, acids, and temperature extremes, but it is acellular and cannot regenerate once damaged. Beneath the lies , which forms the main structural component of both the crown and , comprising approximately 60-70% mineralized matrix with fluid-filled tubules. Dentin provides flexibility to absorb masticatory forces and supports the overlying enamel, while its tubules can transmit stimuli such as thermal or chemical changes to the inner , contributing to . At the core of the tooth is the , a soft housed within the pulp chamber and . The contains , blood vessels, fibroblasts, and odontoblasts, which are responsible for formation and repair. It plays a crucial role in sensation by housing endings that detect , , and , and in protection by nourishing the surrounding through its vascular network. The receives its vascular supply primarily from branches of the maxillary and inferior alveolar arteries, entering via the at the root tip, while venous drainage occurs through the pterygoid venous plexus. Neural innervation arises from the (cranial nerve V), specifically its maxillary and mandibular divisions forming the superior and inferior dental plexuses, including myelinated Aδ and Aβ fibers for rapid, localized sensations and unmyelinated C-fibers for dull, throbbing . Covering the root surface is cementum, a thin, mineralized layer similar to but avascular, which anchors the to surrounding tissues. Cementum facilitates attachment to the periodontal ligament and provides a protective seal over the dentin at the root. The periodontal ligament, a fibrous , binds the to the alveolar , absorbing shock during chewing and allowing slight tooth movement for stability. Enclosing the root is the alveolar , a specialized portion of the jawbone that forms sockets (alveoli) to support the , with its compact lining providing structural integrity. These supporting structures collectively protect the from displacement and contribute indirectly to sensation by transmitting mechanical stimuli.

Mechanisms of Dental Pain

Dental pain arises primarily from the activation of nociceptors within the dental pulp and surrounding periodontal tissues, which are innervated by branches of the . These nociceptors detect potentially damaging stimuli and transmit signals to the , initiating the perception of pain. The pulp contains a rich network of fibers, predominantly A-delta and C-fibers, that respond to , , and chemical insults. A-delta fibers are thinly myelinated axons with a fast conduction of approximately 5-30 m/s, located superficially at the pulp-dentin junction. They have a low activation threshold, typically responding to hydrodynamic forces such as those generated by stimuli or dentinal fluid movement, with electrical thresholds around 9.9 ± 5.7 μA in intradental recordings. Activation of these fibers produces sharp, localized, and immediate sensations, often described as stabbing or electric-like, due to their direct projection to the via the trigeminothalamic tract. In contrast, C-fibers are unmyelinated, with slower conduction velocities of 0.5-2 m/s, and are situated deeper in the central . They exhibit higher activation thresholds, such as around 37.4 ± 14.5 μA electrically or response to intense above 45°C, leading to dull, throbbing, and diffuse that persists longer. These fibers are polymodal, responding to a broader range of noxious stimuli including inflammation-induced chemicals, and their activation signals more severe or prolonged tissue damage. Pain from dental nociceptors can manifest as referred pain due to the somatotopic organization of the trigeminal nerve branches, where convergent inputs from multiple sites lead to mislocalization. For instance, pain from maxillary posterior teeth often refers to the ipsilateral temple, forehead, or zygomatic region via the maxillary division (V2), while mandibular molar pain commonly projects to the ear or preauricular area through the mandibular division (V3). This phenomenon occurs because second- and third-order trigeminal neurons receive overlapping inputs, resulting in up to 45% of odontogenic pain cases exhibiting referral patterns, particularly in irreversible pulpitis. Neurotransmitters play a crucial role in amplifying and transmitting these pain signals at peripheral and central levels. , a released from C-fiber terminals upon noxious stimulation, binds to neurokinin-1 (NK1) receptors on nociceptors and immune cells, triggering intracellular calcium mobilization and sensitizing adjacent fibers to lower their activation thresholds. Its levels increase dramatically—up to 1000-fold—in inflamed dental pulp, promoting neurogenic inflammation through , release (e.g., IL-1, TNF-α), and . Prostaglandins, particularly PGE2 synthesized via (COX-2) in response to injury, further modulate dental pain by sensitizing endings to mechanical and thermal stimuli, enhancing the effects of and other mediators. They lower activation thresholds of both A-delta and C-fibers, contributing to in and periodontal inflammation, and are key targets for non-steroidal drugs in .

Causes

Pulpal and Periapical Conditions

Pulpal and periapical conditions are primary causes of toothache originating from or within the dental or the tissues surrounding the tooth . The , consisting of nerves, blood vessels, and , is highly sensitive to stimuli, and when compromised, it triggers acute pain signals through neural pathways. These conditions often arise from bacterial invasion via caries progression or mechanical disruption, leading to localized that can extend to the periapical region if untreated. Pulpitis refers to of the dental , classified as reversible or irreversible based on the extent of and potential for healing. Reversible involves mild without , typically causing transient, sharp in response to thermal or osmotic stimuli like drinks or sweets, which resolves quickly upon removal of the irritant. This condition often stems from early-stage dental caries or minor that allows recovery with conservative , such as removing the irritant and placing a protective . In contrast, irreversible features severe, persistent with bacterial colonization and micro-abscess formation, resulting in spontaneous, throbbing that lingers after stimuli, often exacerbated by and unresponsive to analgesics. It is commonly caused by advanced caries exposing the to infection, necessitating therapy to prevent progression to . When irreversible pulpitis advances untreated, it leads to pulpal and subsequent periapical involvement, such as apical periodontitis or . Apical periodontitis is a local of the periapical tissues due to infected necrotic , manifesting as tenderness to percussion, on biting, and a sensation of elevation in its symptomatic form. The primary cause is bacterial spread from the beyond the , often following untreated caries or , which triggers an inflammatory response in the surrounding . If infection accumulates, an acute apical abscess may develop, characterized by severe throbbing , swelling, and possible systemic fever, requiring urgent drainage and antimicrobial intervention alongside endodontic treatment. Cracked tooth syndrome involves a fracture plane through the tooth structure, often in posterior teeth, leading to intermittent toothache from pulpal irritation. The most common symptom is sharp, sudden pain upon biting or release of pressure, as the crack widens and compresses the pulp, with additional sensitivity to temperature changes. Causes include high bite forces, thermal cycling, or grinding, which propagate cracks from the occlusal surface toward the pulp, potentially exposing it if untreated. Early diagnosis via transillumination or bite tests is crucial to prevent progression to irreversible pulpitis or periapical pathology. Dental trauma, such as crown fractures or luxations, can directly expose the , initiating immediate or delayed toothache from inflammatory responses. Exposed is vulnerable to bacterial contamination, causing sharp pain to stimuli and potential if not protected promptly. Common in sports-related injuries or accidents, these events disrupt pulpal blood supply and integrity, leading to symptoms like prolonged sensitivity or spontaneous aching within days to weeks. Management focuses on or vital therapy in immature teeth to preserve , as untreated exposure heightens risks of formation.

Periodontal Conditions

Periodontal conditions, which involve or of the gums (gingiva) and supporting (), frequently cause toothache through localized pain originating from the periodontal ligament, gingival tissues, or alveolar . These conditions arise from bacterial accumulation, , or impaired , leading to symptoms such as throbbing or sharp pain that may radiate to the or . Unlike pulpal pain, periodontal toothache often worsens with chewing or pressure on the affected area and may be accompanied by swelling, , or pus discharge. A forms when accumulates in a periodontal pocket due to advanced periodontitis or acute , resulting in intense, throbbing , gingival swelling, and tenderness to . The is typically localized to the affected but can become diffuse if the spreads, often exacerbated by biting or probing the area. Drainage of may provide temporary relief, but untreated cases can lead to bone loss or systemic involvement. Similarly, acute necrotizing ulcerative (ANUG), also known as trench mouth, presents with sudden-onset gingival , ulceration, and of the interdental papillae, causing a characteristic foul odor and bleeding. The throbbing in ANUG is severe enough to interfere with eating and speaking, often linked to bacterial overgrowth in stressed or immunocompromised individuals. Pericoronitis occurs when develops around a partially erupted , most commonly wisdom teeth, due to food debris and trapped under the overlying flap (operculum). This leads to localized throbbing pain, swelling of the tissue, and difficulty opening the mouth (), with symptoms intensifying during or . In severe cases, the infection can spread, causing facial swelling or fever, but mild episodes may resolve with improved ; however, recurrent often necessitates surgical removal of the operculum or the itself. Food impaction, where debris lodges between teeth due to open contacts or faulty restorations, irritates the gingival papillae and periodontal tissues, producing intermittent sharp or aching pain that persists until the particle is removed. This condition is common in areas of proximal bone loss from periodontitis and can lead to chronic inflammation if recurrent. , resulting from excessive biting forces such as or ill-fitting restorations, causes periodontal ligament strain and mobility, manifesting as dull, aching pain on mastication or to . The pain may be acute in primary or chronic in secondary cases superimposed on existing . Finally, , or dry socket, is a post-extraction complication where the blood clot in the socket dissolves prematurely, exposing bone and nerves to severe, radiating throbbing pain that peaks 2-4 days after and is notoriously resistant to over-the-counter analgesics. Risk factors include smoking and poor , with pain often described as the most intense dental discomfort short of acute . In combined periodontal-pulpal cases, symptoms may overlap, but periodontal sources predominate in these scenarios.

Non-Dental and Emerging Causes

Toothache can arise from non-dental sources that mimic dental pain through referred sensations or shared neural pathways. Maxillary sinusitis, an inflammation of the sinuses above the upper teeth, often causes pressure that irritates the roots of the maxillary molars and premolars, resulting in a dull, aching pain perceived as originating from the teeth. This condition is particularly common in acute sinus infections, where the proximity of the sinus floor to dental structures often leads to misdiagnosis as odontogenic pain. Trigeminal neuralgia, a chronic neuropathic disorder affecting the trigeminal nerve, frequently presents as sharp, electric-shock-like pain in the jaw, teeth, or gums, often triggered by chewing, speaking, or light touch to the face. This can lead to unnecessary dental interventions, as the pain is commonly mistaken for pulpitis or abscess, with case reports documenting endodontic treatments performed before correct diagnosis. Similarly, myocardial ischemia, particularly involving the inferior wall of the heart, may manifest solely as orofacial pain, including toothache, due to vagal nerve mediation and referred pain patterns. Systematic reviews indicate that such atypical cardiac presentations occur in a small but significant subset of patients, emphasizing the need for cardiovascular evaluation in unexplained dental-like pain. Temporomandibular disorders (TMD), involving dysfunction of the jaw joint and surrounding muscles, can cause toothache through from muscle tension or joint inflammation. Symptoms often include jaw stiffness, clicking, and aching that radiates to the teeth, particularly the molars, and may worsen with or . TMD is commonly misdiagnosed as dental pain, affecting up to 10-15% of adults, and requires evaluation by specialists in . Emerging causes of toothache include lifestyle and medical factors that indirectly compromise oral tissues. Vaping, through exposure to and other e-cigarette aerosols, induces (dry mouth) by reducing production, which diminishes the mouth's natural buffering against acids and increases erosion and . This dehydration effect heightens the risk of and decay, with studies linking chronic vaping to elevated incidences of wear comparable to traditional . Certain medications, such as used for and bone cancer, can cause oral complications like (ONJ), presenting as persistent, non-healing lesions with severe pain that simulates toothache or periapical infection. The incidence of ONJ is low, affecting less than 1% of oral users, but it often involves exposed bone in the or , leading to secondary infections and discomfort exacerbated by dental procedures. Post-COVID-19 conditions have been associated with persistent in up to 5-12% of survivors, stemming from viral impacts on salivary glands and autonomic function, which in turn promote demineralization and heightened . This salivary dysfunction, reported in observational studies of patients, correlates with increased oral discomfort and vulnerability to cariogenic bacteria.

Pathophysiology

Inflammatory and Neural Processes

In toothache arising from pulpal , such as , the release of inflammatory mediators plays a central role in generating and intensifying . Key mediators include , which promotes , plasma extravasation, and recruitment of inflammatory cells to the site, thereby sensitizing and contributing to . Prostaglandins and further lower the activation threshold of endings in the and , inducing spontaneous neuronal firing and heightened responses to stimuli. Pro-inflammatory cytokines, such as interleukin-1β (IL-1β) and (TNF), amplify this process by enhancing local and directly modulating excitability, resulting in exaggerated perception. The dental pulp's enclosed anatomy exacerbates through hydrostatic buildup during . Inflammatory responses increase and cause within the non-compliant pulp chamber, leading to elevated intrapulpal that compresses neural and vascular structures. This induces ischemia in pulpal tissues, further sensitizing nociceptors and producing severe, throbbing that is often prolonged and unresponsive to initial stimuli. In acute cases, the combination of this mechanical compression with ongoing mediator release stimulates low-threshold C-fibers, intensifying the overall experience. In chronic toothache, such as persistent dentoalveolar , neural extends beyond peripheral mechanisms to involve central . Peripheral nociceptors undergo due to sustained exposure to inflammatory mediators, lowering their response thresholds and promoting ectopic firing. Centrally, this evolves into within the trigeminal system and higher brain centers, characterized by that amplifies nociceptive signals and manifests as or . Dysfunctional endogenous modulation, including impaired conditioned inhibition, further contributes to this central hyperexcitability, sustaining even after resolution of the initial peripheral insult.

Tissue Damage and Sensitization

Tissue damage in dental structures often initiates or exacerbates toothache through mechanisms that sensitize nociceptors and amplify pain signaling. When wears away due to , , or , underlying becomes exposed, revealing a network of dentinal tubules that connect to the . These tubules contain fluid and odontoblastic processes, and their exposure allows external stimuli to trigger pain via the hydrodynamic , first proposed by Brännström in 1960 and elaborated in subsequent work. According to this , stimuli such as thermal changes, from sweets, or tactile forces cause rapid movement of fluid within the tubules, displacing the fluid and stimulating mechanosensitive endings in the pulp-dentin complex, resulting in sharp, transient hypersensitivity pain. In advanced dental caries, tissue damage progresses to , where demineralization creates macroscopic holes in the and , facilitating direct bacterial invasion of the . This leads to , and if untreated, irreversible culminates in , where the vital tissue dies due to bacterial toxins and ischemia. Necrotic no longer responds to stimuli but generates a constant, dull ache from the accumulation of inflammatory mediators and pressure buildup in the confined space, often radiating to the or head; this persistent pain arises as bacterial byproducts diffuse through the , inciting periapical . Repeated injury from ongoing caries, trauma, or restorative procedures can induce , a state where non-noxious stimuli like light touch or normal evoke , due to peripheral and central of nociceptive pathways. In dental contexts, this manifests as mechanical allodynia in affected teeth during irreversible , where >50% of patients report heightened sensitivity to percussion, stemming from sustained nociceptive input that lowers thresholds via upregulation of ion channels and in trigeminal neurons. Central further amplifies this, spreading to contralateral teeth or adjacent tissues through repeated afferent bombardment.

Diagnosis

Symptoms and Patient History

Patients presenting with toothache typically describe pain localized to one or more teeth, often unilateral and confined to the affected area, though it may radiate to the , , or in cases of severe . The quality of the pain varies widely, ranging from sharp and intermittent to dull, throbbing, and constant, depending on the underlying cause such as or formation. Duration can be acute and short-lived, triggered by stimuli, or chronic and persistent, lasting more than a day or two without relief. Common triggers include exposure to hot, cold, or sweet substances, which provoke mild to sharp due to or pulpal irritation, and pressure from biting or chewing that exacerbates the discomfort. These symptom variations arise briefly from inflammatory and neural sensitization in dental tissues, altering . Associated symptoms often accompany the primary pain and provide clues to the . Swelling of the face, gums, or lymph nodes may occur with , signaling an or advanced . Systemic signs like fever and indicate possible spread of beyond the oral . to the , , or head is common in maxillary or mandibular involvement, mimicking other conditions without originating there. Patients may also report tooth sensitivity or mild discomfort that intensifies over time with untreated caries or . A thorough history is essential for identifying precipitating factors. Recent dental procedures, such as fillings, extractions, or root canals, can initiate or worsen through procedural complications or incomplete healing. to the or , including fractures from or grinding, frequently precedes odontogenic by exposing or causing cracks. Inquiry into systemic illnesses is critical, as conditions like , , or may heighten susceptibility to dental infections or alter presentation. Patients should be asked about the onset, progression, and any alleviating or aggravating factors to contextualize the toothache within their overall health profile.

Clinical Examination

The clinical examination for toothache involves a systematic physical assessment to identify potential sources of dental pain, such as pulpal, periapical, or periodontal conditions, through non-invasive bedside methods. This process begins with gathering the patient's history of symptoms, such as localized or referred pain, to direct the focus of the evaluation. Visual inspection is a foundational step, utilizing tools like a dental mirror and explorer to examine the teeth and surrounding soft tissues for signs of pathology. Clinicians look for caries, which appear as discolored, cavitated lesions on the enamel or dentin; fractures, including cracks or chips in the tooth structure; and gingival inflammation, evidenced by redness, swelling, or ulceration. Periapical pathosis may manifest as soft tissue swelling or fistulas on the buccal or lingual mucosa. Tooth discoloration, such as gray or black hues, can indicate pulp necrosis. These observations help pinpoint areas of potential infection or trauma contributing to the toothache. Palpation assesses tenderness in the and neck regions, including the buccal and lingual sulci, alveolar mucosa, and attached gingiva, to detect or abscesses. Digital pressure over the apices, particularly in the where bone is thinner, can elicit indicative of periapical involvement. Percussion testing follows, where vertical or horizontal tapping on the occlusal or incisal surfaces of suspected teeth reproduces if there is pulpal , periapical , or . A positive response to percussion often suggests irreversible or acute apical periodontitis. For suspected periodontal involvement, mobility testing evaluates stability by applying gentle lateral or vertical force; increased may signal supporting loss or acute . Periodontal probing measures pocket depths around the teeth using a calibrated probe, with depths exceeding 3 mm indicating possible periodontitis or formation, where purulent drainage might be expressed upon probing. These tests distinguish periodontal from endodontic origins of pain.

Diagnostic Investigations

Diagnostic investigations for toothache involve and pulp vitality assessments to confirm the underlying , such as dental , abscesses, or pulpal , often prompted by clinical examination findings like localized tenderness or swelling. Periapical radiographs provide detailed views of individual teeth, including the crown, root, and surrounding periapical , enabling visualization of caries, periapical abscesses, or root fractures that may cause toothache. These images are particularly useful for detecting radiolucent areas indicative of pulpal or , with average accuracy rates of around 70% for periapical lesions as of recent systematic reviews, though they may underestimate lesion size due to two-dimensional limitations. Panoramic radiographs offer a broader overview of the and multiple teeth, aiding in the identification of extensive , impacted teeth, or extending beyond a single tooth, such as involvement or widespread periodontal issues contributing to . They are recommended for initial screening in cases of unexplained toothache to assess overall dental and skeletal structures with lower compared to multiple periapical views. Pulp vitality tests evaluate the health of the dental by assessing neural responses to stimuli, helping differentiate reversible from irreversible or in toothache cases. Thermal testing, using cold (e.g., ethyl chloride or ) or applications, stimulates intrapulpal nerves via fluid movement in dentinal tubules; a lingering response to cold suggests irreversible , while no response indicates pulpal . Electric pulp testing (EPT) delivers incremental electrical current to the via an , measuring the threshold at which the patient perceives sensation; vital pulps respond at lower thresholds, whereas non-vital pulps do not, though EPT may yield false positives in recently traumatized teeth. These tests are adjunctive and should be interpreted alongside radiographic findings, as they assess sensory function rather than true vascular vitality. For complex toothache cases where standard radiographs are inconclusive, cone-beam computed tomography (CBCT) provides three-dimensional of teeth, , and surrounding structures, revealing hidden pathologies like vertical fractures, missed canals, or periapical lesions obscured by superimposition. CBCT is superior to conventional for diagnosing cracked teeth or anatomical variations, with higher sensitivity in endodontic assessments, though it involves higher doses and is reserved for cases requiring precise preoperative planning. As of 2025, (AI) tools are increasingly integrated with radiographic imaging for automated detection of toothache-related pathologies, such as periapical lesions and caries, achieving sensitivities up to 92% on periapical radiographs and aiding in preliminary diagnosis. In 2025, telemedicine adaptations have expanded remote toothache assessments, particularly using intraoral camera apps integrated with mobile devices to capture high-resolution images of oral lesions or decay for review, bridging access gaps in underserved areas. These tools enable preliminary evaluations via secure video consultations, with studies showing diagnostic accuracy comparable to in-person exams for common conditions like caries when combined with patient history, though they cannot replace hands-on vitality testing.

Differential Diagnosis

Differential diagnosis of toothache is essential to avoid unnecessary dental interventions, as non-odontogenic causes can mimic dental pain and require different management approaches. A thorough patient history, including onset, duration, character, aggravating factors, and associated symptoms, combined with clinical and targeted tests, helps distinguish true odontogenic from mimics. Common non-odontogenic conditions include , (TMJ) disorders, and ear infections. often presents with maxillary tooth pain exacerbated by head position changes, such as leaning forward, accompanied by or facial pressure; diagnosis involves history of upper respiratory symptoms and imaging like sinus radiographs to identify mucosal thickening. TMJ disorders, particularly myofascial pain, cause dull, aching pain referred to the teeth, worsened by or of masticatory muscles; relief with local anesthetic injection into trigger points (rather than ) and absence of on exam confirm this. Ear infections ( or externa) may refer pain to the ipsilateral ear and teeth via shared neural pathways, typically with auditory symptoms like or discharge; otoscopic examination reveals or , differentiating it from isolated dental sensitivity. Rare mimics include herpes zoster and cardiac ischemia. Herpes zoster involving the can produce prodromal unilateral facial resembling before the vesicular rash appears; history of burning in a dermatomal distribution and eventual rash, confirmed by testing if needed, aid identification. Cardiac , such as , rarely manifests as isolated mandibular toothache, often left-sided and oppressive, radiating to the chest or arm, triggered by exertion; electrocardiogram (ECG) and cardiac enzymes rule this out, especially in patients with risk factors. The following table summarizes key differentiating features based on symptoms, history, and tests:
ConditionKey Symptoms/HistoryDiagnostic Tests/Findings
Facial pressure, nasal congestion, worsens with head bendingSinus imaging (e.g., ) shows mucosal thickening; no dental vitality response changes
TMJ DisorderDull ache, clicking, on /Muscle elicits ; intraoral ineffective on teeth but relieves muscle trigger points
Ear InfectionEar fullness, hearing issues, ipsilateral Otoscopy shows effusion or ; normal dental percussion/vitality
Herpes ZosterBurning, unilateral preceding rashDermatomal rash; Tzanck smear or for VZV if rash present
Cardiac IschemiaExertional, radiating to chest/, risk factors (e.g., )ECG abnormalities, troponin elevation; unresponsive to dental blocks
This decision-making framework guides clinicians to odontogenic versus non-odontogenic origins, preventing misdiagnosis.

Prevention

Oral Hygiene Practices

Maintaining effective practices is essential for preventing toothache, as these routines target the removal of plaque and that contribute to dental issues like caries. Daily habits such as proper brushing, flossing, and the use of products help strengthen and reduce the risk of . Incorporating dietary modifications further supports these efforts by minimizing and exposure that erodes teeth. Brushing should be performed twice daily for two minutes each time using a soft-bristled and to effectively remove plaque from all surfaces. The recommended technique involves placing the brush at a 45-degree angle to the and using short, gentle strokes in a circular or back-and-forth motion to cover the outer, inner, and chewing surfaces of the . For the inner surfaces of the front , tilt the brush vertically and use up-and-down strokes to ensure thorough cleaning without damaging the . Toothbrushes should be replaced every three to four months or sooner if bristles fray, as worn brushes are less effective at plaque removal. aids in remineralizing and preventing early , with the recommending products bearing its Seal of Acceptance for verified efficacy. Flossing once daily is crucial to clean between teeth where toothbrushes cannot reach, removing interdental plaque and particles that brushing alone misses. The proper entails using about 18 inches of wound around the middle fingers of each hand, then guiding it gently between teeth with a rubbing motion and curving it into a C-shape against the gumline to slide up and down each tooth surface. For individuals with wider spaces between teeth or those with braces, interdental brushes serve as an effective alternative or complement to , as they access tight areas to dislodge plaque more thoroughly than flossing in some cases. These tools, sized appropriately for the gaps, should be inserted gently and moved in and out to clean without irritating the gums. Additionally, over-the-counter mouthrinses can be used daily after brushing and flossing to provide extra protection by increasing levels in and plaque, thereby reducing caries incidence by up to 23% in . Dietary habits play a key role in supporting by limiting the frequency and duration of exposure to fermentable carbohydrates that fuel bacterial acid production. Individuals should minimize consumption of sugary foods, beverages, and acidic items like sodas and , opting instead for fluoridated and a balanced diet rich in fruits, , and to promote health. sugar-free gum after meals can also stimulate flow to neutralize acids and aid remineralization. Poor adherence to these practices can lead to plaque accumulation and subsequent caries development, a common precursor to toothache.

Professional Dental Interventions

Professional dental interventions play a crucial role in preventing toothache by addressing potential sources of dental pain, such as and , through proactive clinical measures performed by dentists. Regular dental check-ups and professional cleanings are foundational to this approach, allowing for the early detection and removal of plaque and that can lead to erosion and . The (ADA) recommends that individuals visit their dentist at least twice a year for these examinations and cleanings, which help maintain oral health and avert the progression to painful conditions like toothache. During these routine visits, dentists may apply preventive treatments tailored to individual risk levels, particularly for high-risk patients such as children, those with dry mouth, or individuals with a history of frequent caries. , a concentrated topical application painted directly onto the teeth, strengthen and inhibit bacterial acid production, reducing caries incidence by approximately 37% in primary teeth and 43% in when applied semiannually. The Centers for Disease Control and Prevention (CDC) endorses professional applications every three to six months for children and adults at elevated caries risk, as part of a comprehensive prevention strategy that builds on daily practices. sealants complement this by providing a physical barrier over the deep grooves of molars, where decay often initiates; the ADA guidelines indicate that sealants reduce the risk of caries in occlusal surfaces by 73% compared to alone, with optimal application in children and adolescents soon after permanent molars erupt. For early intervention, dentists may place sealants or conservative fillings on incipient lesions detected during check-ups, halting progression before pain develops. These measures are especially effective in high-risk groups, where combining sealants with applications can prevent up to 80% of caries over several years. Orthodontic corrections, such as braces or aligners to reduce overjet in cases of protruding incisors, further mitigate trauma-related toothache by decreasing the likelihood of from falls or ; a Cochrane found that early orthodontic treatment for Class II malocclusion lowers the incidence of incisal trauma by 44% compared to delayed treatment. Such interventions are typically recommended for children with overjets exceeding 6 mm, integrating seamlessly with routine dental to safeguard against both and mechanical damage.

Lifestyle and Risk Factor Modification

Modifying lifestyle factors plays a crucial role in reducing the risk of toothache by addressing underlying contributors such as and trauma. Quitting significantly lowers the incidence of , a of toothache, as smokers are twice as likely to develop gum disease compared to nonsmokers due to impaired and in oral tissues. Studies show that improves periodontal treatment outcomes, with reduced pocket depths and attachment loss observed within months of quitting, thereby decreasing chronic inflammation that can lead to tooth sensitivity and . Limiting vaping is equally important, as electronic cigarettes introduce nicotine and chemicals that promote plaque accumulation and gingival inflammation, elevating the risk of periodontitis similarly to traditional smoking. Research indicates that vapers exhibit higher rates of bleeding on probing and bone loss around teeth, which can manifest as toothache from exposed roots or abscesses. Effective management of systemic conditions like further mitigates toothache risk by enhancing overall oral health resilience. Individuals with well-controlled blood glucose levels experience fewer episodes of gum disease, as exacerbates bacterial growth and impairs healing in periodontal tissues. Regular monitoring and adherence to diabetes treatment protocols, including and , correlate with reduced prevalence of oral infections that trigger tooth pain. Wearing protective mouthguards during sports activities is essential for preventing traumatic dental injuries that often result in acute toothache. Custom-fitted mouthguards absorb impact forces, significantly lowering the risk of tooth fractures, avulsions, and lacerations in contact sports like or . Clinical evidence demonstrates that consistent use reduces orofacial injury rates by 50% in sports participants. Professional dental evaluation can ensure proper fit and ongoing monitoring of these lifestyle adjustments to sustain preventive benefits.

Management

Initial Pain Control

Initial pain control for toothache involves immediate, non-invasive strategies to alleviate acute discomfort arising from common dental issues such as , , or , providing temporary relief until professional dental evaluation can be sought. These approaches prioritize over-the-counter (OTC) medications and simple home measures to reduce pain and inflammation without addressing the underlying cause. Over-the-counter analgesics form the cornerstone of initial for acute dental . Nonsteroidal drugs (NSAIDs), particularly ibuprofen, are recommended as first-line therapy due to their superior in reducing both and associated compared to alternatives. Typical OTC dosing for adults includes 200-400 mg every 4-6 hours for mild or 400-600 mg every 6 hours for moderate , with a maximum daily limit of 3,200 mg to avoid gastrointestinal or renal risks. For enhanced relief, combining ibuprofen (400 mg) with acetaminophen (500-1,000 mg) every 6 hours has demonstrated better outcomes than single-agent or regimens in clinical studies, though acetaminophen alone may be preferred for those unable to tolerate NSAIDs. Aspirin should be swallowed rather than applied topically to the to prevent . Home remedies can offer supplementary symptomatic relief by cleaning the area, numbing sensations, or reducing localized swelling. Rinsing the mouth with warm water—a solution of ½ teaspoon in 8 ounces of —helps remove debris and plaque while providing mild effects to soothe irritated tissues. Applying a cold compress, such as an wrapped in cloth to the affected for 15-20 minutes at a time, can constrict blood vessels and diminish swelling and pain, especially following injury. oil, containing with documented properties, may be applied sparingly to the sore area using a for temporary numbing, as evidenced by studies showing its efficacy comparable to local anesthetics in reducing toothache pain. These remedies should be used cautiously, avoiding undiluted applications or ingestion, and are not substitutes for . Individuals experiencing severe symptoms warranting emergency care include those with facial swelling, fever, difficulty breathing or swallowing, persistent pain beyond 1-2 days, red or bleeding , or foul-tasting discharge, as these may indicate infection progression requiring immediate intervention. In such cases, seeking an emergency dentist or medical facility is essential to prevent complications like spread.

Definitive Dental Treatments

Definitive dental treatments address the underlying causes of toothache, such as , caries, periodontal infections, and abscesses, by restoring tooth structure, eliminating , or removing non-viable teeth. These procedures aim to preserve natural when possible while preventing recurrence of pain and complications. For irreversible , where inflammation of the dental causes severe pain, therapy (nonsurgical endodontic treatment) is the standard definitive procedure. This involves removing the infected or inflamed tissue, cleaning and disinfecting the system, and sealing it to prevent reinfection, often followed by a or crown for structural integrity. Pulpectomy, a partial form of this treatment, may be performed initially to alleviate acute symptoms before completing the full . Success rates for therapy exceed 90% in preserving the tooth long-term when performed by trained professionals. In cases of extensive caries where the tooth structure is compromised but salvageable, restorative procedures such as fillings or crowns are used to remove decayed and restore function. Composite or amalgam fillings seal the , preventing further bacterial invasion and , while larger defects may require indirect restorations like inlays or onlays for durability. These interventions directly resolve toothache from exposed or pulp involvement due to . For periodontal infections causing toothache through gingival or pocket formation, (deep cleaning) serves as the primary definitive nonsurgical treatment. Scaling removes plaque and from tooth surfaces and below the gumline, while root planing smooths root surfaces to promote healing and reattachment of gums, reducing infection and associated pain. This procedure is most effective in moderate periodontitis and can halt disease progression in over 80% of cases when combined with .00334-7/fulltext) Dental abscesses, often resulting from untreated or , require as a key definitive step to relieve and eliminate accumulation. This involves making a small incision in the swollen to the abscess, followed by irrigation and possible therapy or of the affected tooth to address the source. Prompt prevents spread of and resolves acute toothache symptoms. When teeth are untreatable due to severe structural damage, recurrent infections, or economic considerations, is the definitive option. This surgical removal of the eliminates the source immediately, with post-extraction care focusing on and potential via implants or bridges. Extraction is indicated in approximately 10-20% of advanced endodontic or periodontal cases where preservation is not feasible. Initial pain control measures serve as a bridge to these definitive interventions, ensuring patient comfort until professional care is accessed.

Pharmacological Therapies

Pharmacological therapies for toothache primarily involve to manage , antibiotics for associated bacterial , and adjunctive corticosteroids for severe . These treatments aim to provide symptomatic relief while definitive dental interventions address the underlying cause. Guidelines emphasize judicious use to minimize risks such as adverse effects and . Nonsteroidal anti-inflammatory drugs (NSAIDs), such as ibuprofen and naproxen, are first-line analgesics for acute dental due to their in reducing and providing superior relief compared to or acetaminophen alone. Ibuprofen dosing typically starts at 400-600 mg every 6 hours for moderate to severe , not exceeding 3200 mg daily, while naproxen is administered at 500-1000 mg initially followed by 250 mg every 6-8 hours. These agents inhibit enzymes, decreasing synthesis that contributes to and swelling in conditions like or periodontitis. NSAIDs are preferred over opioids for most cases, offering better tolerability with lower risks of or . However, they carry risks of gastrointestinal , , and renal , particularly in patients with comorbidities. For severe toothache unresponsive to NSAIDs, combination therapy with acetaminophen and opioids like hydrocodone or oxycodone may be considered, though opioids are reserved for short-term use due to their potential for addiction and respiratory depression. A typical regimen includes 400-600 mg ibuprofen plus 650 mg acetaminophen and 5-10 mg hydrocodone every 6 hours for 24-48 hours, transitioning to non-opioid analgesics thereafter. The American Dental Association recommends against routine opioid prescribing, favoring multimodal non-opioid approaches to align with pain stewardship principles. These analgesics support dental procedures by enabling patient comfort during examinations or extractions. Antibiotics are indicated for toothache associated with bacterial infections, such as dental abscesses involving formation or systemic symptoms like fever, but not for uncomplicated pulpal where dental alone suffices. Amoxicillin, often combined with clavulanate to overcome beta-lactamase-mediated resistance, is the first-line agent, dosed at 875 mg orally every 12 hours for 3-7 days in adults. Penicillin resistance in oral flora, including and anaerobes, necessitates this augmentation, with alternatives like clindamycin (300 mg every 6 hours) for penicillin-allergic patients. Guidelines stress completing the course only until symptoms resolve, typically 24 hours post-resolution, to curb resistance development. Overuse contributes to global , underscoring the need for microbiological evaluation when possible. Corticosteroids, such as dexamethasone or prednisolone, serve as adjuncts for toothache with significant , particularly in abscesses or post-procedural swelling, by suppressing immune responses and reducing release. Oral dexamethasone at 4-6 mg daily for 1-3 days can alleviate swelling and pain, though evidence is stronger for surgical contexts than isolated toothache. These agents are used sparingly due to risks including , , and delayed healing, with contraindications in active uncontrolled infections. Their role complements analgesics in managing inflammatory toothache components.

Advanced and Regenerative Approaches

represents a in treating toothache associated with necrotic immature permanent teeth in young patients, aiming to restore pulp vitality and promote root development rather than merely filling the canal. , a key technique, involves disinfecting the with agents like and EDTA, then inducing bleeding from the apical tissues to form a natural clot scaffold that recruits cells from the apical (SCAPs). This approach has shown success in alleviating pain and achieving root maturation, with clinical studies reporting apical closure and wall thickening in up to 85% of cases over 24-month follow-ups, particularly effective in patients under 18 years old. Recent 2025 advancements include the integration of injectable hydrogels laden with antibiotics like for enhanced infection control and 3D-printed scaffolds to mimic the , improving outcomes in procedures. Stem cell therapies leverage dental pulp stem cells (DPSCs) and SCAPs to regenerate the pulp-dentin complex, addressing irreversible pulpitis or necrosis that causes persistent toothache. Autologous or allogeneic DPSCs, often combined with scaffolds such as collagen or chitosan hydrogels and growth factors like stromal cell-derived factor-1 (SDF-1), are transplanted into the root canal to promote vascularized pulp-like tissue formation and dentin bridge deposition. A 2025 multicenter randomized trial demonstrated that allogeneic DPSC injections (1 × 10⁷ cells) significantly improved periodontal attachment (26.81% gain) and reduced probing depth in stage III periodontitis-related defects, with no serious adverse events, highlighting their safety for tissue repair. Bioactive materials, including mineral trioxide aggregate (MTA) and Biodentine (tricalcium silicate-based), enhance these therapies by releasing calcium and phosphate ions to induce biomineralization and hydroxyapatite formation, fostering dentin regeneration and sealing dentinal tubules to mitigate pain. These materials chemically bond to tooth structures, promoting osteoblast differentiation and reducing secondary caries risk, with clinical applications showing up to 90% success in pulp capping for vital pulp preservation. Laser therapy offers a minimally invasive option for toothache by reducing and bacterial load without mechanical instrumentation. (LLLT), using diode at wavelengths of 660–810 nm, modulates cellular activity to decrease postoperative pain following endodontic procedures, with systematic reviews indicating significant reductions in pain scores within the first 8 hours ( 1.92 at 4–6 hours). In retreatment cases, LLLT provides early relief but limited long-term benefits compared to , emphasizing its role in adjunctive, non-surgical pain control. These therapies minimize tissue trauma, accelerate healing, and often eliminate the need for , making them suitable for sensitive patients with acute toothache. Pharmacological support, such as agents, may complement laser protocols in advanced settings.

Prognosis and Complications

Short-Term Outcomes

Following definitive treatments such as root canal therapy for irreversible pulpitis, pain resolution occurs rapidly in most cases, with prevalence dropping from 81% pre-treatment to 40% at 24 hours and further to 11% at one week post-treatment, indicating approximately 89% pain-free outcomes by the end of the first week. Success rates for complete symptom resolution, including pain relief, reach 85% to 87% within the initial weeks, with no significant difference between single-visit and multiple-visit approaches despite slightly higher pain scores at 24 hours in single-visit cases. Tooth extraction for acute abscess or pulpitis similarly yields high short-term pain relief, with the majority of patients experiencing substantial reduction within 48 to 72 hours when combined with analgesics, though residual discomfort may persist briefly due to surgical trauma. Common short-term complications include postoperative sensitivity or tenderness in root canal-treated teeth, affecting up to 40% of patients at 24 hours but typically resolving without intervention by one to two weeks. After , issues such as swelling, bleeding, and infection recurrence occur in a minority of cases, while dry socket develops in 2% to 5% of third molar extractions, leading to intensified pain around days 2 to 4 if preventive measures are overlooked. These complications are generally mild and self-limiting with proper care, though they can delay full recovery if untreated. Factors influencing quick recovery encompass patient compliance with postoperative instructions, including adherence to prescribed antibiotics, analgesics, and soft diets, which reduces complication risks by promoting healing. Preoperative anxiety and habits like smoking can elevate short-term pain and infection rates, whereas effective initial pain control through management strategies enhances overall outcomes by minimizing inflammation during the acute phase.

Long-Term Prognosis

The long-term prognosis for toothache, often stemming from untreated dental caries or leading to formation, is poor if left unmanaged, frequently resulting in due to progressive and structural compromise of the affected . In severe cases, untreated infections can spread systemically, disseminating bacteria through fascial planes or the bloodstream to cause life-threatening conditions such as mediastinitis, , or , with mortality rates reaching up to 40% in cases of descending neck infections. With appropriate endodontic treatment, such as therapy, the survival rate of affected teeth remains favorable over extended periods, typically ranging from 85% to 95% at 10 years post-treatment, depending on factors like quality and compliance. Short-term treatment successes, including resolution of acute symptoms, often serve as reliable indicators of these sustained outcomes. Over longer horizons, such as 20 to 30 years, survival rates may decline to around 70-80%, primarily due to secondary or restorative failures rather than initial endodontic issues. Comorbidities significantly influence the enduring oral health following toothache , with systemic conditions impairing and healing. For instance, diabetes mellitus reduces the success of endodontic treatments by approximately 50%, increasing the risk of persistent apical periodontitis and tooth non-retention due to delayed periradicular lesion resolution and heightened susceptibility to secondary infections. In contrast, conditions like or show minimal impact on long-term periapical healing in treated teeth, though overall oral health maintenance may require adjusted protocols to mitigate broader risks. Effective control of these comorbidities, alongside rigorous post-treatment , is essential to prevent recurrence and preserve dental integrity over time.

Epidemiology

Prevalence and Distribution

Toothache, often manifesting as acute dental , affects a substantial portion of the global , with estimates indicating widespread occurrence tied to oral health burdens. A of worldwide studies reported a pooled prevalence of 24% for toothache among adults, varying significantly by region: 43.2% in , 30.6% in , 24.6% in , 17.0% in , and 15.0% in . The (WHO) estimates that oral diseases, which frequently lead to toothache, impact 3.5 billion people globally, representing nearly half the world's . Prevalence is notably higher among children and adolescents, where dental serves as a common indicator of untreated conditions. A found an overall pooled of 36.2% for toothache in this demographic, with rates ranging from 1.33% to 87.8% across studies, often linked to caries and . In schoolchildren aged 6 to 12 years, global estimates suggest a of around 32.7%, with two out of ten children under 5 years and four out of ten aged 6 to 11 years experiencing dental annually. These figures underscore toothache as a leading oral health issue in younger populations, where access to preventive care is critical. Socioeconomic disparities amplify toothache prevalence, particularly in low-income regions. The WHO reports a strong association between lower , , and —and higher rates of oral diseases causing toothache, with three-quarters of affected individuals residing in middle- or low-income countries. In low- and middle-income countries (LMICs), oral health problems like untreated caries, a primary cause of toothache, are more prevalent, with three-quarters of people affected by oral diseases living in these countries compared to higher-income settings. For instance, untreated cavities are nearly three times more common among children in low-income households, exacerbating pain episodes. Urban-rural divides further influence toothache incidence through access barriers, leading to higher untreated cases in rural areas. Rural populations experience elevated rates of and related dental pain due to limited dental services, with availability at 4.7 per 10,000 people versus 7.8 in urban areas. Studies indicate a higher of caries—a key precursor to toothache—in rural communities compared to ones, with children in rural areas showing approximately twice the odds of caries experience, compounded by geographic . Additionally, 34% of rural residents rate their oral health as fair or poor, versus 27% in urban areas, reflecting disparities that sustain higher toothache burdens.

Risk Factors and Trends

Poor is a primary for toothache, as inadequate brushing and flossing allow plaque buildup, leading to dental caries and gingival that cause . Smoking exacerbates this risk by reducing production and impairing gum , increasing susceptibility to , a common source of toothache. Individuals with face heightened vulnerability due to elevated blood sugar levels that promote bacterial growth and delayed in the , resulting in more frequent cavities and abscesses. Emerging trends highlight post-COVID-19 as a growing contributor to toothache incidence, with studies reporting rates among affected patients ranging from 30% to 73.6%, often persisting beyond acute and elevating caries risk through reduced salivary protection. Similarly, vaping among correlates with elevated periodontal pain, as electronic nicotine delivery systems alter oral and induce ; research indicates users have up to 2.3 times higher odds of compared to non-users, particularly in adolescents where early damage can manifest as toothache. Global shifts in access have driven modest improvements in toothache-related conditions, with age-standardized of untreated caries in declining slightly from 28,331 to 27,543 per 100,000 between 1990 and 2021, attributed in part to expanded preventive care in higher-income regions. , oral metrics show progress since 2000, including reduced untreated among young children, though inequities persist and overall global caries burden remains high at over 2 billion cases in 2021.

History, Society, and Culture

Historical Perspectives

Throughout history, the understanding and of toothache have evolved from superstitious beliefs to scientific interventions, reflecting broader advancements in . In ancient civilizations, toothache was often attributed to causes or mythical creatures, most notably the "," a concept documented in texts as early as 5000 BCE and persisting across cultures including those of , , and . This misconception posited that invisible worms burrowed into teeth, causing decay and pain, leading to remedies aimed at expelling them, such as fumigation with herbs or incantations. The belief endured into the in , where texts like those of French surgeon Guy de Chauliac in the described worms as the primary culprits, influencing treatments like or with crude tools. Ancient remedies for toothache relied heavily on natural substances and rudimentary procedures, with evidence from Egyptian medical papyri dating to around 1600 BCE recommending mixtures such as honey, ochre, and ground emmer seeds for poultices to alleviate dental pain. Willow bark extractions, containing salicin—a precursor to modern aspirin—were used by Egyptians and Sumerians for pain relief, including dental ailments, as noted in early pharmacopeias for their anti-inflammatory properties. In other regions, such as ancient China around 2700 BCE, acupuncture was employed to target tooth pain, while Greeks like Hippocrates (c. 460–370 BCE) advocated chewing willow bark or using rinses from aromatic plants to soothe inflamed gums. These herbal approaches marked the earliest systematic attempts at palliation, though they offered only temporary relief without addressing underlying decay. The transition to modern dentistry began in the 18th century with , a French surgeon often called the "Father of Modern Dentistry," whose 1728 Le Chirurgien Dentiste systematically described oral , , and treatments, debunking myths like tooth worms through observation and rejecting barbaric practices like for toothache. Fauchard's work emphasized preventive care, , and prosthetic restorations, laying the foundation for as a distinct profession. By the , key milestones transformed toothache management: in 1844, American dentist pioneered the use of anesthesia during extractions, enabling pain-free procedures after observing its effects at a public demonstration. This breakthrough, later refined with by in 1846, revolutionized surgical interventions for dental infections. The 20th century brought further advances with the 1928 by , which introduced antibiotics to and dramatically reduced mortality from toothache-related infections like abscesses by targeting bacterial causes such as species. Prior to antibiotics, severe toothaches often led to systemic complications, but penicillin's clinical application from the 1940s onward allowed for effective treatment of and periodontal diseases, shifting focus from mere extraction to preservation. These developments contrast sharply with modern , where toothache has declined due to fluoridation and , yet historical insights underscore the importance of ongoing infection control.

Cultural and Societal Aspects

In various cultures, beliefs and taboos surrounding dental often lead to delayed professional treatment for toothaches. Among African-American communities, traditional home remedies such as placing aspirin-soaked balls or water rinses directly on affected teeth are commonly used to alleviate toothache , potentially postponing visits to dentists until symptoms worsen. In Chinese populations, reliance on , including herbal remedies and cooling teas, for managing oral frequently delays seeking biomedical dental , as these practices are viewed as sufficient for initial relief. Similarly, in Nigerian society, cultural misconceptions attribute to worms or , prompting with herbs, , or concoctions for toothache relief, which hinders timely professional intervention. The societal impacts of toothaches extend beyond individual suffering, imposing significant economic burdens and exacerbating access inequities. Globally, oral diseases, including those causing toothaches like caries and periodontitis, generate an annual exceeding $710 billion in treatment expenses and lost , disproportionately affecting low-income populations. Access to remains uneven, with disparities persisting across , , , and ; for instance, underserved communities often endure untreated toothaches due to barriers like cost and availability, perpetuating cycles of and poor health outcomes. Media portrayals have historically shaped negative attitudes toward toothache management by associating with intense suffering. Films such as Marathon Man (1976) depict dentists as sadistic figures drilling teeth without , reinforcing fears of excruciating and deterring individuals from addressing toothaches promptly. These negative tropes in contribute to widespread dental anxiety, with studies showing that over half of analyzed movies from 1980 to 2019 portray in a harmful , influencing public reluctance to seek for oral . Public health campaigns play a crucial role in countering these attitudes by promoting proactive behaviors around dental pain. initiatives, such as those by the American Dental Association's Action for Dental Health program, emphasize prevention and early intervention for toothaches, successfully increasing awareness and encouraging care-seeking among diverse populations. Evidence from scoping reviews indicates that population-wide campaigns improve oral health knowledge and behaviors by disseminating messages on and the benefits of professional care.