Clinical Records That Inform Effective Care

Clinical Records That Inform Effective Care

Understanding brackets: Types and functions in orthodontic treatment

In the realm of orthodontic treatment, clinical records play an indispensable role in ensuring effective care. These records serve as a comprehensive guide for orthodontists, helping them to diagnose issues accurately, plan treatments meticulously, and monitor progress over time. Orthodontic treatment plans are customized for each child's needs Child-friendly orthodontic solutions pediatric dentistry. Among the various types of clinical records, several stand out as particularly essential.


Dental and facial photographs offer a visual documentation of the patient'se dentition alignment before during treatment also post treatment . These images provide valuable insights into facial aesthetics balance , dental proportions allowing orthodontists assess improvements objectively . They also facilitate communication between healthcare providers patients themselves , enabling everyone involved understand goals outcomes procedure better . Photographics records include both extraoral (facial) photographs (front profile sides) alongwith Intraoral pictures which capture details specific areas within oral cavity . Taking standardized photographs consistent intervals helps track changes compare results different stages . However consistency lighting techniques poses important factor maintaining accuracy comparing images taken various times . Thus photographic records crucial tool orthodontic practice helping clinicians deliver quality patient centric care . X-rays another cornerstone orthodontic record keeping Providing internal structures teeth bones surrounding anatomy capturing underlying issues beyond surface level examinations reveal . Panoramic radiograph gives broad overview entire dentition highlight any pathologies impact overall health whereas Later Cephalogram focus specific area detail bone growth patterns etc assist accurate diagnosis tracking throughout course treatment digital technologies revolutionized way obtain store analyse x rays today making process efficient safer exposures compared traditional methods past decade Digital Scans represent cutting edge technology within field Orthodontics allowing capture highly detailed 3D models dental arches soft tissues mere seconds without need messy impressions previously required Study Models contrary remain gold standard tactile representation patients bite scenario enabling close inspection occlusal relationships measuring arch dimensions correctly although transition towards fully digitized practices may render physical models obsolete near future Studying these replicas enables professionals identify discrepancies tooth position misalignments crowded areas providing blueprint necessary adjustments tailored personalised approach each case Lastly thorough documentation must accompaniments written notes including medical history dental history list medications allergies previous procedures consent forms part broader holistic strategy towards best practices ethical standards This multifaceted array clinical records empowers orthodontists deliver topnotch care tailored individual needs ultimately resulting successful outcomes happier smiles satisfied patients journey completion transformative experience called Orthodontia truly life changing indeed . Combined synergistically these diverse elements form solid foundation upon which effective care rest sound professional judgement backed evidence based principles guiding pathway excellence .

Clinical records play an indispensable role in helping orthodontists accurately diagnose and treat malocclusions, especially in children, whose unique growth patterns require timely and appropriate interventions. The journey from initial consultation to successful treatment completion is intricately tied to the thorough understanding and interpretation of these records.


When a child patient presents with misaligned teeth or jaw issues, orthodontists rely on a comprehensive set of clinical records to paint a clear picture of the problem. These records include dental and facial photographs, X-rays (such as panoramic, cephalometric, and bitewing radiographs), study models or digital scans of the teeth, and detailed notes on medical and dental history. Each piece of information acts like a puzzle piece, fitting together to create a holistic view of the child's oral and facial structures, as well as their growth patterns.


In mixed dentition-when both primary and permanent teeth are present-clinical records help orthodontists anticipate how incoming permanent teeth will affect the occlusion. By evaluating X-rays and study models, orthodontists can predict crowding, impactions, or other potential issues, allowing for proactive measures like space maintainers or early interceptive treatments to guide proper eruption and alignment.


Jaw misalignment due to bone growing discrepancies is another crucial aspect where clinical records shine. Cephalometric X-rays provide insights into the relationship between the upper and lower jaws, helping orthodontists identify skeletal imbalances early on. Growth forecasts based on these records enable orthodontists to plan treatments that harmonize with the child's natural growth spurts, such as using functional appliances to redirect jaw growth or planning for future orthognathic surgery if necessary.


Accurate diagnosis through clinical records ensures that treatments are tailored to each child's specific needs and developmental stage. This precision minimizes complications later on by addressing root causes early rather than just symptoms. For instance, identifying a constricted maxillary arch can lead to timely palatal expansion, creating space for all permanent teeth to erupt properly and avoiding complex extractions or surgical interventions later.


Moreover, meticulous record-keeping allows orthodontists to monitor progress throughout treatment effectively. Comparative analysis of periodic records helps track changes over time, assess treatment efficacy, and make necessary adjustments promptly. This continuous evaluation ensures that treatments stay on course towards desired outcomes within projected timelines-enhancing patient satisfaction significantly.


The importance of clinical records extends beyond just technical aspects; they also serve as essential communication tools between healthcare providers involved in a child's care-from pediatricians to general dentists-ensuring coordinated efforts towards optimal health outcomes. Furthermore, well-documented records protect both patients and practitioners legally by providing an accurate account of diagnosis, treatment plans, consent processes, and progress notes.


In conclusion, clinical records are pivotal in enabling orthodontists to deliver effective care for children with malocclusions. They facilitate precise diagnosis, informed decision-making about treatment approaches and timing relative to growth phases, ongoing evaluation during active therapy sessions resulting in successful completion without unnecessary complications or delays-ultimately leading to

Citations and other links

Crossbite
Unilateral posterior crossbite
Specialty Orthodontics

In dentistry, crossbite is a form of malocclusion where a tooth (or teeth) has a more buccal or lingual position (that is, the tooth is either closer to the cheek or to the tongue) than its corresponding antagonist tooth in the upper or lower dental arch. In other words, crossbite is a lateral misalignment of the dental arches.[1][2]

Anterior crossbite

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Class 1 with anterior crossbite

An anterior crossbite can be referred as negative overjet, and is typical of class III skeletal relations (prognathism).

Primary/mixed dentitions

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An anterior crossbite in a child with baby teeth or mixed dentition may happen due to either dental misalignment or skeletal misalignment. Dental causes may be due to displacement of one or two teeth, where skeletal causes involve either mandibular hyperplasia, maxillary hypoplasia or combination of both.

Dental crossbite

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An anterior crossbite due to dental component involves displacement of either maxillary central or lateral incisors lingual to their original erupting positions. This may happen due to delayed eruption of the primary teeth leading to permanent teeth moving lingual to their primary predecessors. This will lead to anterior crossbite where upon biting, upper teeth are behind the lower front teeth and may involve few or all frontal incisors. In this type of crossbite, the maxillary and mandibular proportions are normal to each other and to the cranial base. Another reason that may lead to a dental crossbite is crowding in the maxillary arch. Permanent teeth will tend to erupt lingual to the primary teeth in presence of crowding. Side-effects caused by dental crossbite can be increased recession on the buccal of lower incisors and higher chance of inflammation in the same area. Another term for an anterior crossbite due to dental interferences is Pseudo Class III Crossbite or Malocclusion.

Single tooth crossbite

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Single tooth crossbites can occur due to uneruption of a primary teeth in a timely manner which causes permanent tooth to erupt in a different eruption pattern which is lingual to the primary tooth.[3] Single tooth crossbites are often fixed by using a finger-spring based appliances.[4][5] This type of spring can be attached to a removable appliance which is used by patient every day to correct the tooth position.

Skeletal crossbite

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An anterior crossbite due to skeletal reasons will involve a deficient maxilla and a more hyperplastic or overgrown mandible. People with this type of crossbite will have dental compensation which involves proclined maxillary incisors and retroclined mandibular incisors. A proper diagnosis can be made by having a person bite into their centric relation will show mandibular incisors ahead of the maxillary incisors, which will show the skeletal discrepancy between the two jaws.[6]

Posterior crossbite

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Bjork defined posterior crossbite as a malocclusion where the buccal cusps of canine, premolar and molar of upper teeth occlude lingually to the buccal cusps of canine, premolar and molar of lower teeth.[7] Posterior crossbite is often correlated to a narrow maxilla and upper dental arch. A posterior crossbite can be unilateral, bilateral, single-tooth or entire segment crossbite. Posterior crossbite has been reported to occur between 7–23% of the population.[8][9] The most common type of posterior crossbite to occur is the unilateral crossbite which occurs in 80% to 97% of the posterior crossbite cases.[10][3] Posterior crossbites also occur most commonly in primary and mixed dentition. This type of crossbite usually presents with a functional shift of the mandible towards the side of the crossbite. Posterior crossbite can occur due to either skeletal, dental or functional abnormalities. One of the common reasons for development of posterior crossbite is the size difference between maxilla and mandible, where maxilla is smaller than mandible.[11] Posterior crossbite can result due to

  • Upper Airway Obstruction where people with "adenoid faces" who have trouble breathing through their nose. They have an open bite malocclusion and present with development of posterior crossbite.[12]
  • Prolong digit or suckling habits which can lead to constriction of maxilla posteriorly[13]
  • Prolong pacifier use (beyond age 4)[13]

Connections with TMD

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Unilateral posterior crossbite

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Unilateral crossbite involves one side of the arch. The most common cause of unilateral crossbite is a narrow maxillary dental arch. This can happen due to habits such as digit sucking, prolonged use of pacifier or upper airway obstruction. Due to the discrepancy between the maxillary and mandibular arch, neuromuscular guidance of the mandible causes mandible to shift towards the side of the crossbite.[14] This is also known as Functional mandibular shift. This shift can become structural if left untreated for a long time during growth, leading to skeletal asymmetries. Unilateral crossbites can present with following features in a child

  • Lower midline deviation[15] to the crossbite side
  • Class 2 Subdivision relationships
  • Temporomandibular disorders [16]

Treatment

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A child with posterior crossbite should be treated immediately if the child shifts their mandible on closing, which is often seen in a unilateral crossbite as mentioned above. The best age to treat a child with crossbite is in their mixed dentition when their palatal sutures have not fused to each other. Palatal expansion allows more space in an arch to relieve crowding and correct posterior crossbite. The correction can include any type of palatal expanders that will expand the palate which resolves the narrow constriction of the maxilla.[9] There are several therapies that can be used to correct a posterior crossbite: braces, 'Z' spring or cantilever spring, quad helix, removable plates, clear aligner therapy, or a Delaire mask. The correct therapy should be decided by the orthodontist depending on the type and severity of the crossbite.

One of the keys in diagnosing the anterior crossbite due to skeletal vs dental causes is diagnosing a CR-CO shift in a patient. An adolescent presenting with anterior crossbite may be positioning their mandible forward into centric occlusion (CO) due to the dental interferences. Thus finding their occlusion in centric relation (CR) is key in diagnosis. For anterior crossbite, if their CO matches their CR then the patient truly has a skeletal component to their crossbite. If the CR shows a less severe class 3 malocclusion or teeth not in anterior crossbite, this may mean that their anterior crossbite results due to dental interferences.[17]

Goal to treat unilateral crossbites should definitely include removal of occlusal interferences and elimination of the functional shift. Treating posterior crossbites early may help prevent the occurrence of Temporomandibular joint pathology.[18]

Unilateral crossbites can also be diagnosed and treated properly by using a Deprogramming splint. This splint has flat occlusal surface which causes the muscles to deprogram themselves and establish new sensory engrams. When the splint is removed, a proper centric relation bite can be diagnosed from the bite.[19]

Self-correction

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Literature states that very few crossbites tend to self-correct which often justify the treatment approach of correcting these bites as early as possible.[9] Only 0–9% of crossbites self-correct. Lindner et al. reported that 50% of crossbites were corrected in 76 four-year-old children.[20]

See also

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  • List of palatal expanders
  • Palatal expansion
  • Malocclusion

References

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  1. ^ "Elsevier: Proffit: Contemporary Orthodontics · Welcome". www.contemporaryorthodontics.com. Retrieved 2016-12-11.
  2. ^ Borzabadi-Farahani A, Borzabadi-Farahani A, Eslamipour F (October 2009). "Malocclusion and occlusal traits in an urban Iranian population. An epidemiological study of 11- to 14-year-old children". European Journal of Orthodontics. 31 (5): 477–84. doi:10.1093/ejo/cjp031. PMID 19477970.
  3. ^ a b Kutin, George; Hawes, Roland R. (1969-11-01). "Posterior cross-bites in the deciduous and mixed dentitions". American Journal of Orthodontics. 56 (5): 491–504. doi:10.1016/0002-9416(69)90210-3. PMID 5261162.
  4. ^ Zietsman, S. T.; Visagé, W.; Coetzee, W. J. (2000-11-01). "Palatal finger springs in removable orthodontic appliances--an in vitro study". South African Dental Journal. 55 (11): 621–627. ISSN 1029-4864. PMID 12608226.
  5. ^ Ulusoy, Ayca Tuba; Bodrumlu, Ebru Hazar (2013-01-01). "Management of anterior dental crossbite with removable appliances". Contemporary Clinical Dentistry. 4 (2): 223–226. doi:10.4103/0976-237X.114855. ISSN 0976-237X. PMC 3757887. PMID 24015014.
  6. ^ Al-Hummayani, Fadia M. (2017-03-05). "Pseudo Class III malocclusion". Saudi Medical Journal. 37 (4): 450–456. doi:10.15537/smj.2016.4.13685. ISSN 0379-5284. PMC 4852025. PMID 27052290.
  7. ^ Bjoerk, A.; Krebs, A.; Solow, B. (1964-02-01). "A Method for Epidemiological Registration of Malocculusion". Acta Odontologica Scandinavica. 22: 27–41. doi:10.3109/00016356408993963. ISSN 0001-6357. PMID 14158468.
  8. ^ Moyers, Robert E. (1988-01-01). Handbook of orthodontics. Year Book Medical Publishers. ISBN 9780815160038.
  9. ^ a b c Thilander, Birgit; Lennartsson, Bertil (2002-09-01). "A study of children with unilateral posterior crossbite, treated and untreated, in the deciduous dentition--occlusal and skeletal characteristics of significance in predicting the long-term outcome". Journal of Orofacial Orthopedics. 63 (5): 371–383. doi:10.1007/s00056-002-0210-6. ISSN 1434-5293. PMID 12297966. S2CID 21857769.
  10. ^ Thilander, Birgit; Wahlund, Sonja; Lennartsson, Bertil (1984-01-01). "The effect of early interceptive treatment in children with posterior cross-bite". The European Journal of Orthodontics. 6 (1): 25–34. doi:10.1093/ejo/6.1.25. ISSN 0141-5387. PMID 6583062.
  11. ^ Allen, David; Rebellato, Joe; Sheats, Rose; Ceron, Ana M. (2003-10-01). "Skeletal and dental contributions to posterior crossbites". The Angle Orthodontist. 73 (5): 515–524. ISSN 0003-3219. PMID 14580018.
  12. ^ Bresolin, D.; Shapiro, P. A.; Shapiro, G. G.; Chapko, M. K.; Dassel, S. (1983-04-01). "Mouth breathing in allergic children: its relationship to dentofacial development". American Journal of Orthodontics. 83 (4): 334–340. doi:10.1016/0002-9416(83)90229-4. ISSN 0002-9416. PMID 6573147.
  13. ^ a b Ogaard, B.; Larsson, E.; Lindsten, R. (1994-08-01). "The effect of sucking habits, cohort, sex, intercanine arch widths, and breast or bottle feeding on posterior crossbite in Norwegian and Swedish 3-year-old children". American Journal of Orthodontics and Dentofacial Orthopedics. 106 (2): 161–166. doi:10.1016/S0889-5406(94)70034-6. ISSN 0889-5406. PMID 8059752.
  14. ^ Piancino, Maria Grazia; Kyrkanides, Stephanos (2016-04-18). Understanding Masticatory Function in Unilateral Crossbites. John Wiley & Sons. ISBN 9781118971871.
  15. ^ Brin, Ilana; Ben-Bassat, Yocheved; Blustein, Yoel; Ehrlich, Jacob; Hochman, Nira; Marmary, Yitzhak; Yaffe, Avinoam (1996-02-01). "Skeletal and functional effects of treatment for unilateral posterior crossbite". American Journal of Orthodontics and Dentofacial Orthopedics. 109 (2): 173–179. doi:10.1016/S0889-5406(96)70178-6. PMID 8638566.
  16. ^ Pullinger, A. G.; Seligman, D. A.; Gornbein, J. A. (1993-06-01). "A multiple logistic regression analysis of the risk and relative odds of temporomandibular disorders as a function of common occlusal features". Journal of Dental Research. 72 (6): 968–979. doi:10.1177/00220345930720061301. ISSN 0022-0345. PMID 8496480. S2CID 25351006.
  17. ^ COSTEA, CARMEN MARIA; BADEA, MÎNDRA EUGENIA; VASILACHE, SORIN; MESAROÅž, MICHAELA (2016-01-01). "Effects of CO-CR discrepancy in daily orthodontic treatment planning". Clujul Medical. 89 (2): 279–286. doi:10.15386/cjmed-538. ISSN 1222-2119. PMC 4849388. PMID 27152081.
  18. ^ Kennedy, David B.; Osepchook, Matthew (2005-09-01). "Unilateral posterior crossbite with mandibular shift: a review". Journal (Canadian Dental Association). 71 (8): 569–573. ISSN 1488-2159. PMID 16202196.
  19. ^ Nielsen, H. J.; Bakke, M.; Blixencrone-Møller, T. (1991-12-01). "[Functional and orthodontic treatment of a patient with an open bite craniomandibular disorder]". Tandlaegebladet. 95 (18): 877–881. ISSN 0039-9353. PMID 1817382.
  20. ^ Lindner, A. (1989-10-01). "Longitudinal study on the effect of early interceptive treatment in 4-year-old children with unilateral cross-bite". Scandinavian Journal of Dental Research. 97 (5): 432–438. doi:10.1111/j.1600-0722.1989.tb01457.x. ISSN 0029-845X. PMID 2617141.
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