This study assessed the stability of crown lengthening procedures over a 6-month period. 25 patients underwent crown lengthening surgery on 43 teeth. Measurements of crown height were taken before and after surgery, and at 1, 3, and 6 months post-op. The results showed a gain in crown height of over 2 mm immediately after surgery, which decreased slightly over time but did not fully stabilize by 6 months. More tissue rebound occurred when the surgical flap was closed closer to the alveolar crest. The amount of bone removed during surgery was also measured and related to the stability of the new crown height over time.
The document discusses the treatment plan for periodontal therapy. It defines the treatment plan as the blueprint for case management that includes all procedures needed to establish and maintain oral health. The goals of treatment are to eliminate inflammation, correct conditions that cause it, and establish healthy gum contours. Treatment involves nonsurgical procedures, possible surgery, restorations, and a maintenance phase with periodic checkups. The treatment plan guides the phases of therapy and overall management of the patient's periodontal condition.
The treatment plan is a blueprint that outlines the procedures needed to establish and maintain oral health. It includes decisions about emergency treatment, extractions, periodontal therapy, endodontic treatment, restorations, and the sequence of therapy. The plan has immediate goals like eliminating infections, intermediate goals like reconstructing a healthy dentition, and long-term goals like maintaining health through prevention. Therapy follows phases including emergency treatment, non-surgical treatment, surgical treatment, restorative treatment, and maintenance. The ultimate goal is bringing the mouth to a state of health and maintaining it long term.
The document outlines the key components and goals of a treatment plan, including:
1. A treatment plan is created after diagnosis and prognosis to establish a blueprint for case management including all procedures needed for oral health.
2. The goals are to reconstruct a healthy dentition that meets functional and aesthetic needs, considering long term needs like prosthetics and implants.
3. The master plan coordinates all short and long term goals to create a well-functioning dentition in a healthy environment.
The document discusses treatment planning in periodontics. It begins by defining treatment planning and outlining the short and long-term goals. These include eliminating infection and inflammation and reconstructing a healthy dentition. The treatment plan is the blueprint and involves decisions about emergency treatment, extractions, nonsurgical and surgical therapies, restorations, and maintenance. Phases of treatment are discussed including preliminary, nonsurgical, surgical, and maintenance phases. Factors in deciding whether to extract or preserve a tooth are also outlined.
The document describes a new trimeric model of periodontal treatment planning. The model includes four phases: I) initial therapy to control disease through nonsurgical means like scaling and root planing; II) surgical therapy if needed to further treat pockets; III) restorative therapy to restore defects; and IV) long-term maintenance through supportive periodontal therapy and recall visits to preserve periodontal health. The trimeric model aims to achieve long-term oral health through a comprehensive treatment approach addressing both periodontal and restorative needs.
This document discusses supportive periodontal therapy (SPT). It begins with an introduction and overview of SPT. It then discusses the rationale and objectives of SPT, which include preventing disease recurrence and progression. Compliance is important for effective SPT. The document outlines the typical parts of an SPT visit, including examination, motivation and instrumentation, treatment of reinfected sites, and determination of recall interval. Research shows that regular SPT every 3-6 months is effective at preventing further attachment and bone loss. The document also discusses classifying post-treatment patients, referring patients to specialists, assessing risk of disease recurrence, and complications of SPT.
This document discusses treatment planning in dentistry. It explains that treatment planning involves developing both short and long-term strategies to address a patient's dental needs holistically, while also gaining their cooperation. Treatment plans should be separated into phases including systemic care, acute issues, disease control, definitive treatment, and maintenance. When presenting plans, dentists should ensure patients understand all diagnosis, alternatives, risks, costs and provide opportunities for questions. Informed consent must be obtained that documents all discussed aspects of the proposed treatment plan.
The document discusses the treatment plan for periodontal therapy. It defines the treatment plan as the blueprint for case management that includes all procedures needed to establish and maintain oral health. The goals of treatment are to eliminate inflammation, correct conditions that cause it, and establish healthy gum contours. Treatment involves nonsurgical procedures, possible surgery, restorations, and a maintenance phase with periodic checkups. The treatment plan guides the phases of therapy and overall management of the patient's periodontal condition.
The treatment plan is a blueprint that outlines the procedures needed to establish and maintain oral health. It includes decisions about emergency treatment, extractions, periodontal therapy, endodontic treatment, restorations, and the sequence of therapy. The plan has immediate goals like eliminating infections, intermediate goals like reconstructing a healthy dentition, and long-term goals like maintaining health through prevention. Therapy follows phases including emergency treatment, non-surgical treatment, surgical treatment, restorative treatment, and maintenance. The ultimate goal is bringing the mouth to a state of health and maintaining it long term.
The document outlines the key components and goals of a treatment plan, including:
1. A treatment plan is created after diagnosis and prognosis to establish a blueprint for case management including all procedures needed for oral health.
2. The goals are to reconstruct a healthy dentition that meets functional and aesthetic needs, considering long term needs like prosthetics and implants.
3. The master plan coordinates all short and long term goals to create a well-functioning dentition in a healthy environment.
The document discusses treatment planning in periodontics. It begins by defining treatment planning and outlining the short and long-term goals. These include eliminating infection and inflammation and reconstructing a healthy dentition. The treatment plan is the blueprint and involves decisions about emergency treatment, extractions, nonsurgical and surgical therapies, restorations, and maintenance. Phases of treatment are discussed including preliminary, nonsurgical, surgical, and maintenance phases. Factors in deciding whether to extract or preserve a tooth are also outlined.
The document describes a new trimeric model of periodontal treatment planning. The model includes four phases: I) initial therapy to control disease through nonsurgical means like scaling and root planing; II) surgical therapy if needed to further treat pockets; III) restorative therapy to restore defects; and IV) long-term maintenance through supportive periodontal therapy and recall visits to preserve periodontal health. The trimeric model aims to achieve long-term oral health through a comprehensive treatment approach addressing both periodontal and restorative needs.
This document discusses supportive periodontal therapy (SPT). It begins with an introduction and overview of SPT. It then discusses the rationale and objectives of SPT, which include preventing disease recurrence and progression. Compliance is important for effective SPT. The document outlines the typical parts of an SPT visit, including examination, motivation and instrumentation, treatment of reinfected sites, and determination of recall interval. Research shows that regular SPT every 3-6 months is effective at preventing further attachment and bone loss. The document also discusses classifying post-treatment patients, referring patients to specialists, assessing risk of disease recurrence, and complications of SPT.
This document discusses treatment planning in dentistry. It explains that treatment planning involves developing both short and long-term strategies to address a patient's dental needs holistically, while also gaining their cooperation. Treatment plans should be separated into phases including systemic care, acute issues, disease control, definitive treatment, and maintenance. When presenting plans, dentists should ensure patients understand all diagnosis, alternatives, risks, costs and provide opportunities for questions. Informed consent must be obtained that documents all discussed aspects of the proposed treatment plan.
The document outlines the phases and procedures involved in developing and implementing a treatment plan for periodontal therapy. It discusses establishing diagnoses and prognoses, designing a master plan that sequences nonsurgical and surgical treatments, restorative work, maintenance, and addressing systemic factors. The goal is to create a healthy periodontium and functioning dentition through elimination of irritants and correction of underlying issues causing inflammation and tissue destruction.
The document discusses supportive periodontal therapy (SPT). It defines SPT as therapeutic measures needed to support a patient's efforts to control periodontal infections and avoid reinfection. The document outlines the rationale for SPT, noting that no definitive periodontal treatment exists and continuous monitoring and treatment is needed to prevent disease recurrence. It describes patients susceptible to periodontitis as being at high risk of reinfection and progression without SPT. Regular SPT including subgingival scaling is important for long-term benefits of periodontal treatment.
This document discusses supportive periodontal treatment (SPT). It outlines the goals and phases of periodontal treatment, including preliminary, non-surgical, surgical, restorative, and maintenance phases. SPT, also called periodontal maintenance therapy, involves procedures performed at regular intervals to help patients maintain oral health after initial periodontal treatment. The document emphasizes that SPT is important to prevent recurrence of periodontal disease by supporting patients' efforts to control infections through regular professional cleanings and monitoring. Compliance with the SPT recall system and maintaining good oral hygiene are also highlighted as important factors that influence disease progression risk.
Diagnosis and treament planning in fixed partial denturesSoumyadev Satpathy
The document provides guidance on diagnosis and treatment planning for prosthodontic cases. It discusses collecting a thorough patient history, performing extraoral and intraoral examinations, taking diagnostic casts and radiographs, and developing a treatment plan. The diagnostic process aims to determine the nature of the patient's dental needs and establish a logical sequence of procedures to address identified issues before undertaking fixed prosthodontic treatment. Developing an accurate diagnosis and treatment plan requires a systematic, multidisciplinary approach.
1. Supportive periodontal therapy (SPT) involves ongoing monitoring and treatment to prevent recurrence of periodontal disease in patients who have undergone initial treatment.
2. SPT includes examinations, treatment of reinfected sites, oral hygiene reinforcement, and scheduling of follow-up visits. Studies show patients who receive regular SPT have better periodontal health outcomes and are less likely to lose teeth over the long term compared to those who do not receive ongoing maintenance care.
3. While 3-month intervals between SPT visits are commonly recommended, some studies indicate recall intervals can be extended to up to 1 year for compliant patients with a history of limited periodontal disease susceptibility. The appropriate interval depends on the individual patient
This document outlines the phases of periodontal therapy, including:
1) Preliminary phase focusing on emergencies and extractions.
2) Nonsurgical phase involving plaque control, non-surgical treatments like scaling and root planing.
3) Surgical phase using various periodontal surgeries and other treatments like implants and endodontics.
4) Restorative phase for final restorations and prosthodontics.
5) Maintenance phase for long-term supportive periodontal therapy.
Surgical periodontal therapy aims to eliminate pathologic changes, create a stable periodontium, and promote regeneration through techniques like pocket reduction surgeries and correction of anatomic defects
The document discusses supportive periodontal therapy (SPT), which involves maintenance care after initial periodontal treatment. SPT aims to prevent recurrence of periodontal disease and maintain oral health achieved through active treatment. It includes risk assessment, examination, treatment if needed, and scheduling follow-up appointments. The risk assessment evaluates bleeding, pockets, tooth loss, bone loss, systemic factors, and smoking. Sites are assessed for bleeding, depth, attachment loss, and suppuration. Regular recall appointments including cleaning and exams help preserve periodontal health and reduce further loss of attachment.
Tetracyclines are broad-spectrum antibiotics introduced in the late 1940s that are primarily bacteriostatic. They interfere with bacterial protein synthesis and inhibit tissue collagenase activity. Tetracyclines are commonly used in managing periodontal diseases. They accumulate in teeth and bones and are excreted primarily through urine. Adverse effects include gastrointestinal issues and hepatotoxicity. Locally delivered tetracycline fibers and gels provide high drug concentrations in tissues while minimizing systemic exposure and side effects.
Supportive periodontal therapy (SPT) involves long-term maintenance programs following active periodontal treatment to maintain periodontal health. SPT involves periodic examination, motivation and instrumentation of sites showing inflammation, treatment of reinfected sites, and polishing. It begins after active treatment and is aimed at preventing recurrence through early detection of disease. The frequency of SPT visits depends on the patient's periodontal risk assessment but generally occurs every 3-4 months. It can be performed by general dentists or specialists depending on the extent of original periodontal destruction. Adjunctive use of antimicrobials may also be included in SPT.
Maintenance therapy after active periodontal treatment involves regular recall visits and re-evaluations by the dental team to prevent recurrence of periodontal disease. The goals are to maintain healthy teeth and gums for life through controlling factors like plaque, treating new issues early, and reinforcing proper home care. Regular recall visits every 3 months initially, extending longer as periodontal health improves, allow monitoring and early treatment if disease recurs due to causes like incomplete plaque removal or failure to follow the recall schedule.
The document summarizes a journal club presentation on a 3-year study evaluating the clinical performance of short expandable dental implants in highly atrophic alveolar bone. The study found a 94.7% implant success rate in the mandible and 83.6% in the maxilla over a mean follow-up of 42.6 months, with median 3-year crestal bone changes demonstrating maintenance of peri-implant alveolar bone. The conclusion was that the short expandable implant system provided reliable oral rehabilitation, especially for elderly patients with difficult implantation conditions.
Periodontal Treatment Planning & Phase I TherapyRiad Mahmud
The document discusses periodontal treatment planning and phase I therapy. It begins by outlining the importance of establishing treatment goals, including immediate, intermediate, and long-term goals. The goals of treatment are to eliminate infection and inflammation, reduce pocket depth, and establish periodontal health to maintain oral function and health over the long term. Nonsurgical therapy generally begins with scaling and root planing to reduce infection, followed by reevaluation and possible surgical therapy if needed. The maintenance of oral hygiene is essential for long-term periodontal health.
Periodontal disease requires ongoing supportive periodontal therapy (SPT) to maintain dental health. SPT involves regular professional cleanings and assessments to monitor risk factors and disease progression. The goals of SPT are to prevent recurrence of periodontal disease, reduce tooth loss, and catch other oral issues early. SPT assessments evaluate patient, tooth, and site-specific risks. Patients deemed high risk based on factors like bleeding, pockets, tooth loss, and smoking require more frequent preventive care. SPT aims to control inflammation through ongoing plaque removal to keep gingivitis and periodontitis at bay.
The long-term preservation of the dentition is closely associated with the frequency and quality of recall maintenance. The therapist should use risk assessment and educate the patient on the need for periodontal maintenance. Supportive periodontal therapy is a lifetime effort to prevent the disease from recurring. Patients who do not return for supportive periodontal therapy lose more teeth than compliant patients.
This document outlines a treatment plan for periodontal disease. It includes 5 phases: emergency, etiotropic (non-surgical), surgical, restorative, and maintenance. The etiotropic phase involves nonsurgical therapies like scaling, root planing, and oral hygiene instruction. The surgical phase uses various periodontal surgeries to further treat pockets and furcations. The restorative phase focuses on final restorations. Lastly, the maintenance phase provides periodic recall visits to monitor the patient's condition. The overall goal is to resolve inflammation and reduce pocket depths through a coordinated approach involving multiple dental specialists.
Surgical v/s Non surgical periodontal therapy Achi Joshi
Both surgical and nonsurgical therapy produced improvement in the periodontal health.
Treatment approach was based on the comfort level of the practitioner.
In the late 60’s and continuing into the 70’s and 80’s, many series of longitudinal studies were conducted, aimed to document the immediate and most importantly long term clinical results following several types of periodontal therapy.
Importance of diagnosis and treatment planning in fixedDr.Noreen
- The document outlines the process for conducting a thorough dental examination, including chief complaints, medical and dental history, extraoral and intraoral examination, diagnostic casts, diagnosis, and treatment planning.
- The examination involves assessing the chief complaint, medical history including medications, dental history, temporomandibular joint examination, palpation of muscles and lymph nodes, and intraoral soft tissue and dental evaluation.
- Diagnostic casts are useful for diagnosing problems, assessing edentulous spaces, abutment teeth, and developing a treatment plan. A comprehensive treatment plan is developed through a process of data collection, diagnosis, and integrating information to create a logical plan of care.
This randomized controlled study compared clinical outcomes of flapless implant surgery to traditional flap implant placement. 24 patients received implants in the maxillary anterior or premolar region, with 12 receiving flapless implants and 12 receiving traditional flap implants. Both groups had high success rates of around 92% after 15 months. The flapless group had slightly higher plaque scores initially but scores were similar after 15 months. The flapless group experienced less loss of keratinized gingiva. While both groups reported satisfaction, the flapless approach may provide benefits such as reduced treatment time and discomfort. Larger studies are still needed to confirm these results.
2011 clinical outcome of dental implants placed with high insertion torquesMuaiyed Mahmoud Buzayan
This study evaluated 42 dental implants placed with high insertion torques of 70 Ncm or greater. All implants successfully integrated clinically and were stable after 1 year of loading. Marginal bone loss after 1 year was similar between implants placed with high torques (mean 1.24 mm) and low torques (mean 1.09 mm), indicating that high insertion torques did not negatively impact osseointegration or bone stability. The use of high insertion torques up to 176 Ncm did not prevent osseointegration and resulted in similar bone stability outcomes compared to lower torque implants.
The document outlines the phases and procedures involved in developing and implementing a treatment plan for periodontal therapy. It discusses establishing diagnoses and prognoses, designing a master plan that sequences nonsurgical and surgical treatments, restorative work, maintenance, and addressing systemic factors. The goal is to create a healthy periodontium and functioning dentition through elimination of irritants and correction of underlying issues causing inflammation and tissue destruction.
The document discusses supportive periodontal therapy (SPT). It defines SPT as therapeutic measures needed to support a patient's efforts to control periodontal infections and avoid reinfection. The document outlines the rationale for SPT, noting that no definitive periodontal treatment exists and continuous monitoring and treatment is needed to prevent disease recurrence. It describes patients susceptible to periodontitis as being at high risk of reinfection and progression without SPT. Regular SPT including subgingival scaling is important for long-term benefits of periodontal treatment.
This document discusses supportive periodontal treatment (SPT). It outlines the goals and phases of periodontal treatment, including preliminary, non-surgical, surgical, restorative, and maintenance phases. SPT, also called periodontal maintenance therapy, involves procedures performed at regular intervals to help patients maintain oral health after initial periodontal treatment. The document emphasizes that SPT is important to prevent recurrence of periodontal disease by supporting patients' efforts to control infections through regular professional cleanings and monitoring. Compliance with the SPT recall system and maintaining good oral hygiene are also highlighted as important factors that influence disease progression risk.
Diagnosis and treament planning in fixed partial denturesSoumyadev Satpathy
The document provides guidance on diagnosis and treatment planning for prosthodontic cases. It discusses collecting a thorough patient history, performing extraoral and intraoral examinations, taking diagnostic casts and radiographs, and developing a treatment plan. The diagnostic process aims to determine the nature of the patient's dental needs and establish a logical sequence of procedures to address identified issues before undertaking fixed prosthodontic treatment. Developing an accurate diagnosis and treatment plan requires a systematic, multidisciplinary approach.
1. Supportive periodontal therapy (SPT) involves ongoing monitoring and treatment to prevent recurrence of periodontal disease in patients who have undergone initial treatment.
2. SPT includes examinations, treatment of reinfected sites, oral hygiene reinforcement, and scheduling of follow-up visits. Studies show patients who receive regular SPT have better periodontal health outcomes and are less likely to lose teeth over the long term compared to those who do not receive ongoing maintenance care.
3. While 3-month intervals between SPT visits are commonly recommended, some studies indicate recall intervals can be extended to up to 1 year for compliant patients with a history of limited periodontal disease susceptibility. The appropriate interval depends on the individual patient
This document outlines the phases of periodontal therapy, including:
1) Preliminary phase focusing on emergencies and extractions.
2) Nonsurgical phase involving plaque control, non-surgical treatments like scaling and root planing.
3) Surgical phase using various periodontal surgeries and other treatments like implants and endodontics.
4) Restorative phase for final restorations and prosthodontics.
5) Maintenance phase for long-term supportive periodontal therapy.
Surgical periodontal therapy aims to eliminate pathologic changes, create a stable periodontium, and promote regeneration through techniques like pocket reduction surgeries and correction of anatomic defects
The document discusses supportive periodontal therapy (SPT), which involves maintenance care after initial periodontal treatment. SPT aims to prevent recurrence of periodontal disease and maintain oral health achieved through active treatment. It includes risk assessment, examination, treatment if needed, and scheduling follow-up appointments. The risk assessment evaluates bleeding, pockets, tooth loss, bone loss, systemic factors, and smoking. Sites are assessed for bleeding, depth, attachment loss, and suppuration. Regular recall appointments including cleaning and exams help preserve periodontal health and reduce further loss of attachment.
Tetracyclines are broad-spectrum antibiotics introduced in the late 1940s that are primarily bacteriostatic. They interfere with bacterial protein synthesis and inhibit tissue collagenase activity. Tetracyclines are commonly used in managing periodontal diseases. They accumulate in teeth and bones and are excreted primarily through urine. Adverse effects include gastrointestinal issues and hepatotoxicity. Locally delivered tetracycline fibers and gels provide high drug concentrations in tissues while minimizing systemic exposure and side effects.
Supportive periodontal therapy (SPT) involves long-term maintenance programs following active periodontal treatment to maintain periodontal health. SPT involves periodic examination, motivation and instrumentation of sites showing inflammation, treatment of reinfected sites, and polishing. It begins after active treatment and is aimed at preventing recurrence through early detection of disease. The frequency of SPT visits depends on the patient's periodontal risk assessment but generally occurs every 3-4 months. It can be performed by general dentists or specialists depending on the extent of original periodontal destruction. Adjunctive use of antimicrobials may also be included in SPT.
Maintenance therapy after active periodontal treatment involves regular recall visits and re-evaluations by the dental team to prevent recurrence of periodontal disease. The goals are to maintain healthy teeth and gums for life through controlling factors like plaque, treating new issues early, and reinforcing proper home care. Regular recall visits every 3 months initially, extending longer as periodontal health improves, allow monitoring and early treatment if disease recurs due to causes like incomplete plaque removal or failure to follow the recall schedule.
The document summarizes a journal club presentation on a 3-year study evaluating the clinical performance of short expandable dental implants in highly atrophic alveolar bone. The study found a 94.7% implant success rate in the mandible and 83.6% in the maxilla over a mean follow-up of 42.6 months, with median 3-year crestal bone changes demonstrating maintenance of peri-implant alveolar bone. The conclusion was that the short expandable implant system provided reliable oral rehabilitation, especially for elderly patients with difficult implantation conditions.
Periodontal Treatment Planning & Phase I TherapyRiad Mahmud
The document discusses periodontal treatment planning and phase I therapy. It begins by outlining the importance of establishing treatment goals, including immediate, intermediate, and long-term goals. The goals of treatment are to eliminate infection and inflammation, reduce pocket depth, and establish periodontal health to maintain oral function and health over the long term. Nonsurgical therapy generally begins with scaling and root planing to reduce infection, followed by reevaluation and possible surgical therapy if needed. The maintenance of oral hygiene is essential for long-term periodontal health.
Periodontal disease requires ongoing supportive periodontal therapy (SPT) to maintain dental health. SPT involves regular professional cleanings and assessments to monitor risk factors and disease progression. The goals of SPT are to prevent recurrence of periodontal disease, reduce tooth loss, and catch other oral issues early. SPT assessments evaluate patient, tooth, and site-specific risks. Patients deemed high risk based on factors like bleeding, pockets, tooth loss, and smoking require more frequent preventive care. SPT aims to control inflammation through ongoing plaque removal to keep gingivitis and periodontitis at bay.
The long-term preservation of the dentition is closely associated with the frequency and quality of recall maintenance. The therapist should use risk assessment and educate the patient on the need for periodontal maintenance. Supportive periodontal therapy is a lifetime effort to prevent the disease from recurring. Patients who do not return for supportive periodontal therapy lose more teeth than compliant patients.
This document outlines a treatment plan for periodontal disease. It includes 5 phases: emergency, etiotropic (non-surgical), surgical, restorative, and maintenance. The etiotropic phase involves nonsurgical therapies like scaling, root planing, and oral hygiene instruction. The surgical phase uses various periodontal surgeries to further treat pockets and furcations. The restorative phase focuses on final restorations. Lastly, the maintenance phase provides periodic recall visits to monitor the patient's condition. The overall goal is to resolve inflammation and reduce pocket depths through a coordinated approach involving multiple dental specialists.
Surgical v/s Non surgical periodontal therapy Achi Joshi
Both surgical and nonsurgical therapy produced improvement in the periodontal health.
Treatment approach was based on the comfort level of the practitioner.
In the late 60’s and continuing into the 70’s and 80’s, many series of longitudinal studies were conducted, aimed to document the immediate and most importantly long term clinical results following several types of periodontal therapy.
Importance of diagnosis and treatment planning in fixedDr.Noreen
- The document outlines the process for conducting a thorough dental examination, including chief complaints, medical and dental history, extraoral and intraoral examination, diagnostic casts, diagnosis, and treatment planning.
- The examination involves assessing the chief complaint, medical history including medications, dental history, temporomandibular joint examination, palpation of muscles and lymph nodes, and intraoral soft tissue and dental evaluation.
- Diagnostic casts are useful for diagnosing problems, assessing edentulous spaces, abutment teeth, and developing a treatment plan. A comprehensive treatment plan is developed through a process of data collection, diagnosis, and integrating information to create a logical plan of care.
This randomized controlled study compared clinical outcomes of flapless implant surgery to traditional flap implant placement. 24 patients received implants in the maxillary anterior or premolar region, with 12 receiving flapless implants and 12 receiving traditional flap implants. Both groups had high success rates of around 92% after 15 months. The flapless group had slightly higher plaque scores initially but scores were similar after 15 months. The flapless group experienced less loss of keratinized gingiva. While both groups reported satisfaction, the flapless approach may provide benefits such as reduced treatment time and discomfort. Larger studies are still needed to confirm these results.
2011 clinical outcome of dental implants placed with high insertion torquesMuaiyed Mahmoud Buzayan
This study evaluated 42 dental implants placed with high insertion torques of 70 Ncm or greater. All implants successfully integrated clinically and were stable after 1 year of loading. Marginal bone loss after 1 year was similar between implants placed with high torques (mean 1.24 mm) and low torques (mean 1.09 mm), indicating that high insertion torques did not negatively impact osseointegration or bone stability. The use of high insertion torques up to 176 Ncm did not prevent osseointegration and resulted in similar bone stability outcomes compared to lower torque implants.
1) The document reviews gingival augmentation procedures and aims to answer 5 common clinical questions through a systematic review of literature.
2) It finds a lack of in-depth comparative studies and randomized clinical trials to draw strong conclusions but makes recommendations based on case reports and series.
3) For question 1, it finds that maintaining adequate gingiva, such as 2mm, is important for restorations with intracrevicular margins based on clinical observations.
Crestal approach for maxillary sinus augmentation in patients with less than ...droliv
This study evaluated the success of a crestal approach sinus lift procedure combined with immediate implant placement in patients with varying amounts of residual alveolar bone (RAB). 102 patients received 109 implants across three clinical sites. Patients were divided into two groups based on RAB height: group 1 had 24 mm RAB and group 2 had >4 mm RAB. The success rate was 100% for group 1 and 98.5% for group 2 after 6-100 months. Both groups experienced minimal crestal bone loss on average (0.55 mm for group 1 and 0.07 mm for group 2) with no significant difference between groups. The study concludes the crestal approach is a viable technique for patients with as little as
immediate vs delayed implant placement in anterior single tooth extraction.rakhi chaudhry
This study compared immediate versus delayed dental implant placement in 124 patients requiring single tooth extractions. Immediate implants placed at the time of extraction required bone augmentation more often than implants placed 12 weeks later (72% vs 43.9%). Delayed implants were less likely to have wound failures and exhibited better soft tissue outcomes. Based on the need for more frequent bone grafting and poorer aesthetic results, the study concludes delayed implant placement may be preferable to immediate placement in the aesthetic zone.
Clinical assessment
Radiographs
Clinical assessment
Radiographs
Clinical assessment
Radiographs
Clinical assessment
Radiographs
Clinical assessment
Radiographs every 2-3 years
This study placed 2,261 implants in 467 patients using angled abutments ranging from 0 to 45 degrees. Over an average observation period of 28.8 months, the estimated 5-year survival rate was greater than 98.6%. Statistical analysis showed no significant difference in survival rates between implants with abutments angled 0-15 degrees and 20-45 degrees. Good esthetic and functional outcomes were observed.
(1) The study analyzed bone biopsy samples from 8 patients who underwent corticotomy to accelerate tooth movement as part of orthodontic treatment.
(2) Bone samples were taken before surgery and 90 days after from both the corticotomized and non-corticotomized sites and analyzed histologically.
(3) The results found higher levels of primary bone formation and osteocyte counts in the corticotomized sites 90 days after surgery compared to the non-corticotomized sites, suggesting corticotomy promotes reversible bone injury and remodeling without long-term harm.
This document discusses crown lengthening procedures. It describes different surgical techniques for crown lengthening including external bevel gingivectomy, internal bevel gingivectomy with or without ostectomy, and apically positioned flap techniques. It discusses factors to consider like the amount of bone removal needed, ideal flap design, and management of soft and hard tissues. Proper biologic width dimensions, flap suturing, and esthetic goals are important considerations for achieving good outcomes with crown lengthening surgery.
Introduction. The differences in the supporting structure of the implant make them more susceptible to inflammation and bone
loss when plaque accumulates as compared to the teeth. Therefore, a comprehensive maintenance protocol should be followed
to ensure the longevity of the implant. Material and Method. A research to provide scientific evidence supporting the feasibility
of various implant care methods was carried out using various online resources to retrieve relevant studies published since 1985.
Results.The electronic search yielded 708 titles, out of which a total of 42 articles were considered appropriate and finally included
for the preparation of this review article. Discussion. A typicalmaintenance visit for patients with dental implants should last 1 hour
and should be scheduled every 3 months to evaluate any changes in their oral and general history. It is essential to have a proper
instrument selection to prevent damage to the implant surface and trauma to the peri-implant tissues. Conclusion. As the number
of patients opting for dental implants is increasing, it becomes increasingly essential to know the differences between natural teeth
and implant care and accept the challenges of maintaining these restorations.
EFFICACY OF FIXED VERSUS REMOVAL RETAINER POST ORTHODONTIC TREATMENT: A COMP...DrHeena tiwari
This study compared the efficacy of fixed versus removable retainers for maintaining orthodontic treatment outcomes over 4 years. 48 participants from an original randomized controlled trial were evaluated. Those with fixed retainers had lower irregularity scores on average (0.85mm increase) compared to removable retainers (1.47mm increase). After adjusting for confounding factors, the difference in irregularity between groups was statistically significant, with removable retainers having 1.64mm more irregularity on average. No other significant differences were found between groups for other metrics like inter-canine width. Compliance with removable retainers decreased over time. Fixed retainers maintained their position better, though some required repair. In conclusion, fixed retainers appeared to
This document describes a technique for selectively intruding overerupted molars in adult patients using a combination of selective alveolar corticotomies and a modified full-coverage maxillary splint with nickel-titanium springs. Two case reports are presented where this approach successfully intruded overerupted maxillary molars within 2.5-4 months without side effects. The technique aims to take advantage of the regional acceleratory phenomenon caused by corticotomies to increase orthodontic treatment efficiency for adult patients who require molar intrusion.
1) A 10-year prospective study evaluated 121 oxidized titanium implants in 46 patients. 2) After 10 years, the survival rate was 99.2% with only 1 implant failing. 3) Marginal bone loss averaged 0.7 mm over 10 years, with 11.3% of implants showing over 2 mm of bone loss and 4.7% over 3 mm of bone loss. 4) Implants with over 3 mm bone loss showed bleeding and pus on probing, indicating peri-implantitis.
This document summarizes research on the stability and predictability of orthognathic surgery procedures. It finds that superior repositioning of the maxilla and mandibular advancement of less than 10mm are the most stable procedures. Mandibular setback, downward movement of the maxilla, and maxillary expansion are the least stable and have a high risk of significant postoperative change. Condylar remodeling often occurs after surgery and can be evaluated using cone-beam computed tomography scans. Long-term stability depends on the specific procedure and factors like rigid internal fixation.
Medcrave Group - Open Locked Nailing Using an Expandable NailMedCrave
A retrospective study was performed using the hospital records. The mechanism of injury, the time between injury and surgery, blood transfusion requirements, blood loss, surgical times, time taken to weight bear (for the femoral/
tibial fractures), time for commencement of upper limb use (for humeral fractures), complication rates and the average follow up times were documented. Fifty-seven long bone fractures in 57 patients were included in this study. Complete results including preoperative X-Rays were available for 27 patients. In 30 cases, the actual X-Rays were not located but documentation by the treating surgeons was available.
This case report describes a patient who underwent orthognathic surgery to correct vertical maxillary excess using a combination of rigid and non-rigid fixation techniques. Specifically, miniplates were used for rigid fixation on the pyriform region bilaterally, while wiring was used for non-rigid fixation on the zygomatic buttresses. This combination approach achieved excellent postoperative stability in correcting the patient's maxillary deformity. The case report discusses debates around rigid versus non-rigid fixation and aims to demonstrate that combining both techniques can optimize stability outcomes for orthognathic surgeries like Le Fort I advancements.
This case report describes a patient who underwent orthognathic surgery to correct vertical maxillary excess using a combination of rigid and non-rigid fixation techniques. Specifically, miniplates were used for rigid fixation on the pyriform region bilaterally, while wiring was used for non-rigid fixation on the zygomatic buttresses. This combination approach was employed to achieve stability by fixing the appropriate vertical and horizontal buttresses. The surgery resulted in correction of the patient's gummy smile, lip incompetence, and dental malocclusion. Post-operatively, normal overjet and overbite were achieved and excellent stability was obtained through the combined rigid and non-rigid fixation method.
2 Stage Crown Lengthening VS 1 Stage Journal PresentationDr. B.V.Parvathy
This randomized controlled trial aimed to assess the efficacy of a two-
stage crown lengthening intervention (SCL) in the aesthetic zone
compared with a one-stage crown lengthening procedure (CCL).
How to Build a Module in Odoo 17 Using the Scaffold MethodCeline George
Odoo provides an option for creating a module by using a single line command. By using this command the user can make a whole structure of a module. It is very easy for a beginner to make a module. There is no need to make each file manually. This slide will show how to create a module using the scaffold method.
A Strategic Approach: GenAI in EducationPeter Windle
Artificial Intelligence (AI) technologies such as Generative AI, Image Generators and Large Language Models have had a dramatic impact on teaching, learning and assessment over the past 18 months. The most immediate threat AI posed was to Academic Integrity with Higher Education Institutes (HEIs) focusing their efforts on combating the use of GenAI in assessment. Guidelines were developed for staff and students, policies put in place too. Innovative educators have forged paths in the use of Generative AI for teaching, learning and assessments leading to pockets of transformation springing up across HEIs, often with little or no top-down guidance, support or direction.
This Gasta posits a strategic approach to integrating AI into HEIs to prepare staff, students and the curriculum for an evolving world and workplace. We will highlight the advantages of working with these technologies beyond the realm of teaching, learning and assessment by considering prompt engineering skills, industry impact, curriculum changes, and the need for staff upskilling. In contrast, not engaging strategically with Generative AI poses risks, including falling behind peers, missed opportunities and failing to ensure our graduates remain employable. The rapid evolution of AI technologies necessitates a proactive and strategic approach if we are to remain relevant.
Executive Directors Chat Leveraging AI for Diversity, Equity, and InclusionTechSoup
Let’s explore the intersection of technology and equity in the final session of our DEI series. Discover how AI tools, like ChatGPT, can be used to support and enhance your nonprofit's DEI initiatives. Participants will gain insights into practical AI applications and get tips for leveraging technology to advance their DEI goals.
A workshop hosted by the South African Journal of Science aimed at postgraduate students and early career researchers with little or no experience in writing and publishing journal articles.
Exploiting Artificial Intelligence for Empowering Researchers and Faculty, In...Dr. Vinod Kumar Kanvaria
Exploiting Artificial Intelligence for Empowering Researchers and Faculty,
International FDP on Fundamentals of Research in Social Sciences
at Integral University, Lucknow, 06.06.2024
By Dr. Vinod Kumar Kanvaria
June 3, 2024 Anti-Semitism Letter Sent to MIT President Kornbluth and MIT Cor...Levi Shapiro
Letter from the Congress of the United States regarding Anti-Semitism sent June 3rd to MIT President Sally Kornbluth, MIT Corp Chair, Mark Gorenberg
Dear Dr. Kornbluth and Mr. Gorenberg,
The US House of Representatives is deeply concerned by ongoing and pervasive acts of antisemitic
harassment and intimidation at the Massachusetts Institute of Technology (MIT). Failing to act decisively to ensure a safe learning environment for all students would be a grave dereliction of your responsibilities as President of MIT and Chair of the MIT Corporation.
This Congress will not stand idly by and allow an environment hostile to Jewish students to persist. The House believes that your institution is in violation of Title VI of the Civil Rights Act, and the inability or
unwillingness to rectify this violation through action requires accountability.
Postsecondary education is a unique opportunity for students to learn and have their ideas and beliefs challenged. However, universities receiving hundreds of millions of federal funds annually have denied
students that opportunity and have been hijacked to become venues for the promotion of terrorism, antisemitic harassment and intimidation, unlawful encampments, and in some cases, assaults and riots.
The House of Representatives will not countenance the use of federal funds to indoctrinate students into hateful, antisemitic, anti-American supporters of terrorism. Investigations into campus antisemitism by the Committee on Education and the Workforce and the Committee on Ways and Means have been expanded into a Congress-wide probe across all relevant jurisdictions to address this national crisis. The undersigned Committees will conduct oversight into the use of federal funds at MIT and its learning environment under authorities granted to each Committee.
• The Committee on Education and the Workforce has been investigating your institution since December 7, 2023. The Committee has broad jurisdiction over postsecondary education, including its compliance with Title VI of the Civil Rights Act, campus safety concerns over disruptions to the learning environment, and the awarding of federal student aid under the Higher Education Act.
• The Committee on Oversight and Accountability is investigating the sources of funding and other support flowing to groups espousing pro-Hamas propaganda and engaged in antisemitic harassment and intimidation of students. The Committee on Oversight and Accountability is the principal oversight committee of the US House of Representatives and has broad authority to investigate “any matter” at “any time” under House Rule X.
• The Committee on Ways and Means has been investigating several universities since November 15, 2023, when the Committee held a hearing entitled From Ivory Towers to Dark Corners: Investigating the Nexus Between Antisemitism, Tax-Exempt Universities, and Terror Financing. The Committee followed the hearing with letters to those institutions on January 10, 202
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Biological screening of herbal drugs: Introduction and Need for
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Natural Products, In vitro evaluation techniques for Antioxidants, Antimicrobial and Anticancer drugs. In vivo evaluation techniques
for Anti-inflammatory, Antiulcer, Anticancer, Wound healing, Antidiabetic, Hepatoprotective, Cardio protective, Diuretics and
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Macroeconomics- Movie Location
This will be used as part of your Personal Professional Portfolio once graded.
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Prepare a presentation or a paper using research, basic comparative analysis, data organization and application of economic information. You will make an informed assessment of an economic climate outside of the United States to accomplish an entertainment industry objective.
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it describes the bony anatomy including the femoral head , acetabulum, labrum . also discusses the capsule , ligaments . muscle that act on the hip joint and the range of motion are outlined. factors affecting hip joint stability and weight transmission through the joint are summarized.
1. 1288
Volume 75 • Number 9
Osseous Surgery for Crown Lengthening: A 6-Month
Clinical Study
David E. Deas,* Alan J. Moritz,* Howard T. McDonnell,* Charles A. Powell,* and Brian L. Mealey*
Case Series
Background: Despite the fact that surgical crown
lengthening is a commonly performed treatment, little
is known about the specific surgical endpoints of the
procedure or the stability of the newly attained crown
height over time. Recent clinical reports have ranged
across a spectrum from significant tissue rebound to
remarkable stability using similar surgical techniques.
The purpose of this study was to assess the stability of
surgical crown lengthening procedures performed by
various surgeons using specific guidelines to determine
surgical endpoints. Specifically, we sought to determine
the following: 1) What is the immediate increase in clin-
ical crown height following surgery? 2) How stable is
the established crown length over a 6-month period?
3) How much supporting bone is removed to establish
the new crown length? 4) How does the position of the
flap margin relative to the alveolar bone at surgical clo-
sure relate to the stability of crown height?
Methods: Twenty-five patients requiring crown length-
ening of 43 teeth were included in this study. Clinical
indices recorded at eight sites on each molar and six sites
on each premolar included plaque, bleeding on probing,
probing depth, and relative attachment level from a cus-
tomized probing stent. Surgical measurements at the
same sites included the distance from stent to alveolar
bone both before and after osseous surgery and the dis-
tance from flap margin to alveolar bone after suturing.
Clinical measurements were repeated at 1, 3, and 6
months after surgery. Sites were divided into three
groups. All sites on teeth targeted for crown lengthening
were labeled treated sites (TT). Interproximal sites on
neighboring teeth were labeled adjacent (AA) if they
shared a proximal surface with a treated tooth and non-
adjacent (AN) if they were on the opposite side, away
from the treated tooth.
Results: Throughout the entire 6-month healing
period, descriptive statistics revealed no significant time
or group differences in plaque and bleeding scores. At
treated sites, the mean gain of crown height at surgery
was 2.27 ± 1.1 mm. This was reduced to 1.91 ± 1.08 mm
at 1 month, 1.69 ± 1.02 mm at 3 months, and 1.57 ± 1.01
mm at 6 months. At adjacent sites, the gain of crown
length was 2.18 ± 0.98 mm, 1.61 ± 0.98 mm, 1.43 ±
0.96 mm, and 1.30 ± 0.96 mm at surgery, 1, 3, and
6 months, respectively. At non-adjacent sites the crown
height increased 1.06 ± 1.07 mm, 1.00 ± 0.93 mm,
0.84 ± 1.00 mm, and 0.76 ± 0.85 mm, respectively. These
mean measurements were significantly different for each
treatment group at each time interval and appeared not
to have stabilized between 3 and 6 months. The mean
osseous reduction at treated, adjacent, and non-adjacent
sites was 1.13 ± 0.90 mm, 0.78 ± 0.75 mm, and 0.065 ±
0.69 mm, respectively. Frequency distribution of osseous
reduction demonstrated that 23.6% of treated sites had
0 mm, 44.3% had 1 mm, 25.4% had 2 mm, 6.2% had
3 mm, and less than 1% had ≥4 mm of bone removed
to establish crown height. More bone removal was noted
at premolar than at molar sites; however, this was not
statistically significant. When tissue rebound following
surgery was plotted against post-surgical flap position,
it was noted that the closer the flap margin was sutured
to the alveolar crest, the greater the tissue rebound dur-
ing the post-surgical period. This rebound ranged from
1.33 ± 1.02 mm when the flap was sutured ≤1 mm from
the alveolar crest, to −0.16 ± 1.15 mm when the flap
was sutured ≥4 mm from the alveolar crest.
Conclusions: These data suggest that there is a sig-
nificant tissue rebound following crown-lengthening
surgery that has not fully stabilized by 6 months. The
amount of tissue rebound seems related to the posi-
tion of the flap relative to the alveolar crest at suturing.
These findings support the premise that clinicians
should establish proper crown height during surgery
without overreliance on flap placement at the osseous
crest. J Periodontol 2004;75:1288-1294.
KEY WORDS
Alveolar bone; follow-up studies; surgical flaps;
tooth/anatomy and histology; tooth crown/surgery.
* U.S. Air Force Periodontics Residency, Wilford Hall Medical Center,
Lackland Air Force Base, TX.
The views expressed in this article are those of the authors and are not to be
construed as official nor as reflecting the views of the United States Air
Force or Department of Defense.
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J Periodontol • September 2004 Deas, Moritz, McDonnell, Powell, Mealey
† Splint Biocryl, Great Lakes Orthodontics, Ltd., Tonawanda, NY.
‡ BioStar, Great Lakes Orthodontics, Ltd.
A
ccording to the 2003 American Academy of
Periodontology Practice Profile Survey, one of
the most common reasons for periodontal
surgery is for purposes of crown lengthening.1 The crown
lengthening procedure is often necessary both to pro-
vide adequate retention and resistance form by gaining
supracrestal tooth length,2-5 as well as to prevent im-
pingement of restoration margins on the attachment
apparatus by reestablishing the biologic width.6,7 While
many restorative dentists are very specific in their re-
quests for crown lengthening, others simply trust the sur-
geon to return the patient to them with longer crowns that
will allow for adequate restoration. Without specific guid-
ance, the surgical goal may become nothing more than to
make the tooth “a little longer.” In addition, there is scant
information in the literature relating post-surgical flap
position at the alveolar crest to the stability of crown
lengthening over time. Knowing that an optimal flap
placement will enhance the outcome of these procedures
may be of significant benefit to the surgeon and restora-
tive dentist alike.
Consistent with studies of the dimensions of the peri-
odontal attachment apparatus described as the biologic
width,8,9 several authors have proposed that crown
lengthening procedures optimally create at least 3 mm
of tooth structure between the alveolar crest and future
restorative margin to allow for proper restoration.10-12
Ingber et al.,10 for example, proposed 3 mm to allow
1 mm for the connective tissue attachment, 1 mm for
the epithelial attachment, and 1 mm for placement of
a margin. Although some clinicians have favored an
amount >3 mm,4,13 the 3 mm distance from crest to
crown margin has over the years become fairly ingrained
in the dental literature. Attempting to attribute a fixed
measurement to the biologic width may indeed disre-
gard surface-to-surface, tooth-to-tooth, and patient-to-
patient variability; however, it is our observation that
many practitioners delivering surgical crown lengthen-
ing therapies commonly rely on the 3 mm figure.
While numerous technique and case report articles
are available, few controlled examinations of the post-
surgical changes following crown lengthening surgery
have been published. Of the controlled studies we
reviewed, two had as a surgical goal a 3 mm distance
between the alveolar crest and restorative margin14,15
and a third did not mention a surgical endpoint.16 Inter-
estingly, each of these studies reported that the desired
amount of crown lengthening was either not predictably
attained or was subject to change over time.
More recently, Lanning et al. described a technique of
measuring the biologic width by presurgical bone sound-
ing.17 That measurement was added to the amount of
supracrestal tooth structure needed for margin place-
ment and used as a guideline to determine the surgical
reduction of the alveolar crest. This resulted in ≥3 mm
of bone removal at 90% of treated sites, which is far in
excess of that reported in the prior studies. However,
the authors reported no significant change in the posi-
tion of the free gingival margin between 3 and 6 months
post-surgery.
The purpose of the present investigation was to fur-
ther assess the short-term stability of surgical crown
lengthening procedures using an osseous resective
technique and specific guidelines to determine the sur-
gical endpoint. This study sought to answer the follow-
ing questions: 1) What is the immediate increase in
crown height following surgery? 2) What happens to
this newly established crown height over time? 3) How
much supporting bone is removed during crown length-
ening surgery? 4) How does the position of the flap
margin relative to the alveolar crest at surgical closure
relate to the stability of surgically created crown height?
MATERIALS AND METHODS
The experimental protocol was approved by the Institu-
tional Review Board for human studies, Wilford Hall Med-
ical Center (WHMC), Lackland Air Force Base, San
Antonio, Texas. This study evaluated 25 consecutively
treated periodontally healthy patients (18 males, seven
females) referred to the Department of Periodontics at
WHMC for crown lengthening surgery on 43 posterior
teeth between December 2001 and August 2002. Med-
ical and dental histories were reviewed and no con-
traindications to surgical therapy were noted. All but one
patient required crown lengthening prior to complete cov-
erage crown or fixed partial denture fabrication; the other
patient required surgical access for placement of an amal-
gam restoration. All patients were restored by the end of
the study and prosthetic treatment was begun no sooner
than 6 weeks after surgery.
Each patient received an initial examination and treat-
ment planning session. Oral hygiene procedures were
reviewed, and scaling and/or prophylaxis were scheduled
if deemed necessary by the examining periodontist. After
treatment plan presentation, patients were provided infor-
mation about the study and indicated willingness to parti-
cipate by providing written informed consent. An alginate
impression was then made of each arch to be surgically
treated in order to fabricate customized probing stents.
Full-arch probing stents were made from a 2 mm clear
copolyester plastic† using a pressure form matrix ma-
chine.‡ To insure proper fit after restorative procedures, the
teeth to be restored were overwaxed by 1 mm. The stent
was then made from a duplicate of the waxed cast and
seated firmly on the remaining teeth on which no addi-
tional wax was applied. Stents were trimmed to the height
of contour of all teeth, and grooves were placed at the
sites to be measured with an 1169 fissure bur. To improve
visualization, the apical margin of the probing stent was
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Crown Lengthening: A 6-Month Clinical Study Volume 75 • Number 9
§ Hu-Friedy, Chicago, IL.
Peridex, Procter Gamble, Cincinnati, OH.
traced with a black permanent marker. All measurements
were taken by one of two calibrated examiners (DD, AM)
using a UNC-15 manual probe.§
Surgical procedures were accomplished under local
anesthesia with intravenous or oral sedation at patient
request. Clinicians included both faculty and residents
of the Department of Periodontics at Wilford Hall Med-
ical Center. Three guidelines were given to each surgeon
to determine the surgical endpoint for crown lengthen-
ing. The first guideline was to place the alveolar crest
at a level at least 3 mm from the anticipated crown
margin. To allow sufficient room for tooth preparation,
the second guideline required surgeons, where possible,
to leave at least 9 mm of clinical crown height coronal
to the osseous crest. This calculation was
derived from anticipating that a tooth in occlu-
sion and awaiting a crown restoration would
require 2 mm of occlusal reduction for restora-
tive space, 4 mm axial wall length, and 3 mm
distance from restorative margin to the
bone. The third surgical guideline was to place
flap margins either at or apical to the antici-
pated restorative margin following suturing.
Each case included intrasulcular and/or inter-
nally beveled incisions and elevation of full
thickness flaps on the buccal and lingual
aspects of the alveolar process. Where
required, flap thinning was performed in order
to minimize tissue thickness. After flap
reflection and supracrestal soft tissue removal,
osteoplasty and ostectomy were performed using rotat-
ing carbide steel burs and hand chisels. Subsequently,
all root surfaces were scaled and root planed with sharp
curets and/or ultrasonic instrumentation to remove any
possible remnants of connective tissue attachment
supracrestally.
Both treated and adjacent teeth were monitored for
this study and measured sites were divided into three
groups. All sites on teeth to be restored and the specific
targets of the crown lengthening procedures were iden-
tified as treated tooth (TT) sites. Interproximal sites on
adjacent teeth were labeled adjacent tooth/adjacent
surface (AA) sites if they shared a proximal surface
with a treated tooth and adjacent tooth/non-adjacent
surface (AN) sites if they were on the side away from
a treated tooth (Fig. 1). Measurements were recorded at
eight predetermined sites (mesio-facial, MF; mesio-
facial furcation, MFF; disto-facial furcation, DFF; disto-
facial, DF; disto-lingual, DL; disto-lingual furcation,
DLF; mesio-lingual furcation, MLF; mesio-lingual, ML)
on each treated molar and six sites (MF, F, DF, DL, L,
ML) on each treated premolar in the surgical field. On
adjacent teeth, four sites (MF, DF, DL, ML) were
recorded for both molars and premolars.
The sequence of clinical measurements is described
in Table 1. Using the probing stent, the following base-
line measurements were taken for each site at the sur-
gical appointment prior to administering local anesthe-
tic: 1) the presence or absence of plaque (PL); 2) probing
depth (PD); 3) the presence or absence of bleeding on
probing (BOP); 4) the distance from stent to gingival
margin (S-GM); and 5) relative attachment level from
base of sulcus to stent (RAL).
Following administration of anesthetic, flap reflection,
and debridement, a measurement was made from the
stent to the alveolar crest [S-AB(P)]. After osseous resec-
tion, a measurement was made at each site from the
stent to the post-resection osseous crest [S-AB(X)]. Flaps
were then sutured and pressure was applied for 3 min-
utes, after which a measurement was made from the
stent to the sutured marginal tissue position [S-GM(X)].
The probe was then placed under the tissue at each site,
and the distance from the sutured flap margin to the bony
crest was measured [GM-AB(X)]. The use of periodontal
dressing was at the discretion of the surgeon, but dress-
ing use was the exception rather than the rule following
surgery.
All patients were prescribed analgesics and twice
daily 0.12% chlorhexidine gluconate rinses for the first
Figure 1.
Measurement sites for treatment groups. Eight sites were measured
on each molar and six sites on each premolar.
Table 1.
Sequence of Clinical Measurements
Baseline Pre- Post-
(presurgery) Osseous Suturing 1 Month 3 Months 6 Months
Pl S-AB(P) S-GM(X) Pl Pl Pl
PD S-AB(X) PD PD PD
BOP GM-AB(X) BOP BOP BOP
SGM SGM SGM SGM
RAL RAL RAL RAL
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J Periodontol • September 2004 Deas, Moritz, McDonnell, Powell, Mealey
2 weeks following surgery. Patients were seen for suture
removal and prophylaxis between 7 and 10 days and
a plaque control regimen was instituted. Additional
postoperative visits (including prophylaxis) were per-
formed at 2 and 4 weeks to assess healing and rein-
force early oral hygiene measures. Baseline measure-
ments of PL, PD, BOP, S-GM, and RAL were repeated
at 1, 3, and 6 months following surgery.
Statistical Analysis
Data obtained for each type of site per patient were aver-
aged and assessed for differences between baseline to
post-surgery and to 1, 3, and 6 months. Data were ana-
lyzed by repeated measures analysis of variance (ANOVA)
to determine presence of an overall effect and Tukey’s
honestly significant differences (HSD) post-hoc test for
multiple comparisons was used to determine which site
pairs differed significantly and the extent of those dif-
ferences. Differences in probing depths and attachment
levels at each time point were examined using paired and
one sample t tests.
RESULTS
Twenty-four of the original 25 patients completed the
study and no post-surgical complications were
observed. One treated tooth was extracted after 1
month due to non-restorable caries. One patient moved
from the area after the 3-month post-surgical appoint-
ment and was lost to further follow up. Thus, 1- and
3-month data are reported for 25 patients, while 3-
and 6-month data are reported for 24 patients.
Clinical Indices
The mean percentage of TT sites with BOP was 26.6%
at baseline. This decreased slightly to 18.6% at 1 month,
then rebounded to 23.5% and 22.0% at 3 and 6 months.
These differences were not significant at any time point.
Similarly, the percentage of TT sites with plaque was
26.3% at baseline, increased slightly to 32.5% and 34.4%
at 1 and 3 months, then reduced to 25.7% at 6 months.
There was no significant difference between the percent-
age of TT sites with plaque at
any time point. Similarly, no
significant changes in PL or BOP
were noted at AA or AN sites.
Mean PD measurements for
all three treatment groups are
reported in Table 2. TT, AA, and
AN sites experienced an initial
decrease in PD followed by a
gradual return toward baseline
by 6 months. The decrease in
probing depth was statistically
significant from baseline to 1, 3,
and 6 months for all three groups
(P 0.05).
Table 2.
Probing Depth
Time Treated (TT) Adjacent (AA) Non-Adjacent (AN)
Baseline 2.29 ± 0.80 2.43 ± 0.71 2.60 ± 0.71
1 month 1.71 ± 0.74 1.94 ± 0.72 2.21 ± 0.84
3 months 1.86 ± 0.68 2.05 ± 0.75 2.28 ± 0.84
6 months 1.95 ± 0.69 2.11 ± 0.75 2.29 ± 0.69
Within each group, PD decreased significantly from baseline to 1, 3, and
6 months (P 0.05).
Table 3.
Crown Lengthening: Treated and Adjacent Teeth
Treated (TT) Adjacent (AA) Non-Adjacent (AN)
Time N Change ± SD N Change ± SD N Change ± SD
Baseline/post-surgery 322 2.27 ± 1.1 82 2.18 ± 0.98 77 1.06 ± 1.07
Baseline/1 month 322 1.91 ± 1.08 82 1.61 ± 0.98 77 1.00 ± 0.93
Baseline/3 months 315 1.69 ± 1.02 82 1.43 ± 0.96 77 0.84 ± 1.00
Baseline/6 months 287 1.57 ± 1.01 80 1.30 ± 0.96 75 0.76 ± 0.85
Changes in crown length were significant (P 0.005) for each treatment group at each time interval.
Attachment loss was noted for each of the three
treatment groups, as expected, and was noted to be
significant for each group compared to presurgical
baseline (P 0.05). By 6 months, attachment loss at TT,
AA, and AN sites was 1.24 ± 1.09 mm, 0.99 ± 1.14
mm, and 0.49 ± 0.83 mm, respectively.
Change in Crown Length
The mean change in the distance from the probing
stent to the free gingival margin from surgery to months
1, 3, and 6 is presented in Table 3. At TT sites, the
mean increase in crown length following surgery was
2.27 ± 1.1 mm. This newly established crown height
was reduced to 1.91 ± 1.08 mm by 1 month, 1.69 ±
1.02 mm by 3 months, and 1.57 ± 1.01 mm by 6
months. At each time point there was a significant
increase in crown height compared to baseline, but the
trend toward reduced crown height over time was con-
firmed by the fact that the mean measurements at 1,
3, and 6 months were all significantly less than the
immediate post-surgical values (P 0.005). The amount
of crown lengthening post-surgically at TT molar sites
was not significantly different from that at TT premolar
sites (2.28 ± 1.14 mm versus 2.19 ± 0.80 mm).
For AA sites, an initial mean crown height increase
of 2.18 ± 0.98 mm was reduced to 1.61 ± 0.98 mm
by 1 month, 1.43 ± 0.96 mm by 3 months, and 1.30 ±
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Crown Lengthening: A 6-Month Clinical Study Volume 75 • Number 9
osseous reduction was achieved at 25.4% of TT sites
and ≥3 mm reduction was noted for 6.5% of sites. For
treated teeth, osseous reduction at premolar sites was
greater than at molar sites (1.37 ± 0.99 mm versus
1.08 ± 0.88 mm), but the differences were not statisti-
cally significant.
Tissue Rebound Following Surgery
In order to investigate the phenomenon of tissue rebound
following crown lengthening surgery, the change in crown
length from post-surgery to 6 months was plotted against
the flap position relative to the alveolar crest immedi-
ately after suturing [GM-AB(X)]. After reviewing the num-
ber and distribution of data points, it was decided to group
the [GM-AB(X)] measurements into four levels: ≤1 mm,
2 mm, 3 mm, and ≥4 mm. As noted in Table 6, the mean
amount of tissue rebound by 6 months was great-
est when the flaps were positioned within 1 mm of
the alveolar crest and was least when the flap posi-
tion was initially more coronal. This relationship held
true regardless of treatment group, or whether the
sites were interproximal or facial/lingual (Tables 7
and 8). No significant difference in tissue rebound
was found between premolars and molars in any of
the groups. The overall Pearson correlation coefficient
between post-suturing flap to bony crest position
and post-surgical tissue rebound was −0.422 (P
0.01).
DISCUSSION
The results of this clinical investigation demonstrated
that 6 months following surgical crown lengthening pro-
cedures, teeth may exhibit a progressive marginal soft
tissue rebound which reduces the surgically established
crown height. This coronal shift of the soft tissues
appears to be related to the positioning of the sutured
flap post-surgery relative to the newly created alveo-
lar crestal position both interproximally as well as
facial/lingually. Overall, 14.5% of sites were sutured
within 1 mm of the post-surgical alveolar crest and
rebounded coronally a mean 1.33 ± 1.02 mm by 6
months. Similarly, 43.7% of sites were sutured at 2 mm
from the bone margin, 28.7% at 3 mm, and 13.1% at
≥4 mm; these sites were found at 6 months to have
rebounded 0.90 ± 0.89 mm, 0.47 ± 0.79 mm, and
−0.16 ± 1.15 mm, respectively. There was a significant
inverse correlation between the distance from flap to
bony crest at the time of suturing and the amount of
tissue rebound, indicating a greater rebound when the
flap margin was positioned closer to the bony crest.
These findings reflect the tendency of the healing peri-
odontium to reform a new supracrestal gingival unit in
order to regain that dimension referred to as the bio-
logic width. Most recently, Lanning et al.17 confirmed
the suggestion from prior studies4,10-13 that the bio-
logic width will reestablish itself after crown length-
Table 4.
Osseous Reduction
Treated (TT) Adjacent (AA) Non-Adjacent (AN)
N Sites Change ± SD N Sites Change ± SD N Sites Change ± SD
322 1.13 ± 0.90 82 0.78 ± 0.75 77 0.065 ± 0.69
A significant reduction in bone height was achieved at treated and adjacent sites
(P 0.001) but not at non-adjacent sites.
Table 6.
Tissue Rebound at 6 Months Related
to Post-Suturing Flap Position
All Sites
GM/AB(X) N Change ± SD
≤1 mm 64 1.33 ± 1.02
2 mm 193 0.90 ± 0.89
3 mm 127 0.47 ± 0.79
≥4 mm 58 −0.16 ± 1.15
Table 5.
Osseous Reduction at Treated Sites
Reduction N Percentage
0 mm 76 23.6
1 mm 143 44.3
2 mm 82 25.4
3 mm 20 6.2
≥4 mm 1 0.3
0.96 mm by 6 months. At AN sites the crown length
was increased by 1.06 ± 1.07 mm at surgery, which
decreased to 0.76 ± 0.85 mm by 6 months. For both
groups, the mean crown heights at all time points were
also significantly different (P 0.005).
The amount of osseous reduction needed to achieve
this additional crown length is reported in Table 4. At
TT sites, a mean of 1.13 ± 0.90 mm of bone was re-
moved, compared to 0.78 ± 0.75 mm at AA sites and
0.065 ± 0.69 mm at AN sites. This reduction was sta-
tistically significant from baseline for both TT and AA
sites (P 0.001) but not at AN sites. The frequency with
which different amounts of bone removal at TT sites
was achieved is shown in Table 5. At 67.9% of all treated
sites, ≤1 mm of osseous reduction was performed
during the crown lengthening procedure. Two mm of
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J Periodontol • September 2004 Deas, Moritz, McDonnell, Powell, Mealey
they found that at 96% of sites, ≤2 mm of
bone was removed on test teeth and bone
removal of ≥3 mm was done in only 4% of
sites. This compares favorably to the pre-
sent study where 93% of sites had ≤2 mm
of bone resection and 7% had ≥3 mm. Addi-
tionally, they found that when the means of
all sites were examined, the 1.3 mm apical
displacement of the gingival margin after
surgery was maintained at the 6-month
examination (1.4 mm). This differs from the
current study in which the initial 2.27 mm
average apical displacement of the gingival
margin at the time of surgery was reduced
to 1.57 mm at 6 months.
In a study by Pontoriero et al., 84 teeth in 30 patients
receiving surgical crown lengthening were evaluated
over a 12-month period.16 There was no mention of a
surgical endpoint given in this study and adjacent teeth
were included with the data for crown-lengthened teeth.
Mean bone removal was 0.9 mm at interproximal and
1.0 mm at buccal/lingual sites and bone removal ≥2
mm was reported in only 8% of sites. Based on reported
data, surgical flaps were placed subcrestally at inter-
proximal sites, leaving the interdental areas denuded,
whereas buccal/lingual sites had flaps placed at the
bony crest. Such positioning seemed to promote a sig-
nificant coronal displacement of marginal tissues of 3.2
mm at interproximal and 2.9 mm at buccal/lingual sites,
with a resultant mean crown length difference between
baseline and 12-month examination of only 0.5 mm
interproximally and 1.2 mm at buccal/lingual sites.
These results have cast a doubt on the stability of crown
lengthening procedures over longer time periods and,
similar to our study, seem to indicate that gingival mar-
gin regrowth may still be occurring beyond 6 months.
Additionally, based on their findings, the authors16 pro-
pose that greater bone removal during crown length-
ening procedures should be considered in order to
maximize final crown length. Postoperative marginal
flap positioning is not discussed in their conclusions as
potentially contributing to the amount of rebound wit-
nessed.
In an effort to determine whether a target goal of 3 mm
from osseous crest to planned restorative margin was
routinely achieved, Herrero et al. evaluated crown length-
ening outcomes on 21 teeth in 16 patients treated by
surgeons of various skill levels.15 They noted that the
target objective of 3 mm was not routinely achieved. The
mean distance from prosthetic margin to alveolar crest
was 2.4 mm with the greatest removal at the facial
aspects of teeth (2.6 mm) and the least at the distal-lin-
gual aspect (2.2 mm).
More recently, in a 6-month study Lanning et al. fol-
lowed 72 treated sites in 18 patients receiving crown-
lengthening surgery.17 Individual presurgical biologic
Table 7.
Tissue Rebound at 6 Months Related to Post-Suturing
Flap Position (treated versus adjacent sites)
Treated (TT) Adjacent (AA) Non-Adjacent (AN)
GM/AB(X) N Change ± SD N Change ± SD N Change ± SD
≤1 mm 48 1.25 ± 1.06 11 1.55 ± 0.93 5 1.60 ± 0.89
2 mm 135 0.84 ± 0.87 40 1.05 ± 0.93 18 1.05 ± 1.0
3 mm 79 0.58 ± 0.78 19 0.32 ± 0.67 29 0.28 ± 0.84
≥4 mm 25 −0.12 ± 1.33 10 0.60 ± 0.97 23 −0.52 ± 0.85
Table 8.
Tissue Rebound at 6 Months Related to
Post-Suturing Flap Position (interproximal
versus facial/lingual sites)
Interproximal Facial/Lingual
GM/AB(X) N Change ± SD N Change ± SD
0 mm 0 N/A 2 1.00 ± 1.40
1 mm 42 1.29 ± 0.99 20 1.45 ± 1.10
2 mm 122 1.15 ± 0.85 71 0.48 ± 0.81
3 mm 94 0.51 ± 0.77 33 0.36 ± 0.82
≥4 mm 47 0.00 ± 1.10 11 −0.81 ± 1.17
ening procedures to its original vertical dimension by
6 months. The current study suggests that in anticipa-
tion of the reconstitution of the supracrestal attachment
and sulcus, suturing the post-surgical flap less than 3 mm
from the bone may of necessity result in significant mar-
ginal soft tissue rebound. One may thus clinically ques-
tion the practice of apically positioning the flap margins
to the level of the bony crest during crown lengthening
procedures. It would appear that positioning the flap
somewhat coronal to the alveolar crest might result in a
more predictable and stable amount of surgically created
crown length. This may require more aggressive osseous
resection if the restorative goal is to provide supragingi-
val crown margins.
Few studies in the literature on surgical crown length-
ening report results on the movement of the healing gin-
gival margin based on the initial sutured flap position
relative to the alveolar crest. Bragger et al. examined
changes in marginal soft tissue levels after 6 weeks and
6 months of healing.14 This study also sought to create
a distance of 3 mm from alveolar crest level to the future
restorative margin, and surgical flaps were positioned at
the osseous crest. Looking at 43 test teeth in 25 patients,
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Crown Lengthening: A 6-Month Clinical Study Volume 75 • Number 9
width measurements were used to customize the amount
of bone removal indicated from anticipated prosthetic
margins. Flaps were subsequently sutured at the alve-
olar crest; however, post-surgical flap position relative to
the bony crest was not measured. A greater amount of
osseous resection was done in this study than what has
previously been reported in the literature, with 90% of
treated sites having had ≥3 mm of bone removed. Addi-
tionally, 21% of non-adjacent sites and 39% of adjacent
sites on adjacent teeth had ≥3 mm of bone removed.
This resulted in a stable gingival margin between the 3-
and 6-month examinations, with total mean displace-
ment at 6 months for treated sites being 3.33 mm. The
authors17 concluded that the amount of bone removal
in their study may have been a significant factor con-
tributing to the stability of the gingival margin over time.
In the current study, it was noted that the request for
crown lengthening came most often for only one or two
tooth surfaces rather than the entire tooth. At surgery,
this request translated to an amount of osseous resec-
tion that was not uniform at all sites around the treated
teeth. In fact, it was common for two or three sites on
a given tooth to have ≥2 mm osseous reduction, while
the remaining sites had minimal or even no reduction.
This tended to make the mean osseous reduction (and
subsequent increased crown height) at TT sites smaller
than actually provided at required sites.
Many factors seem to contribute to the maintenance of
tooth structure gained through surgical crown lengthen-
ing procedures. Individual patient healing characteristics,
reformation of the biologic width, adequacy of positive
osseous architecture created during surgery, timing of
restorative procedures, and post-operative plaque control
may be among these factors. Another factor may be the
position of the flap margin after surgery, which was exam-
ined in the present study. Some degree of marginal tissue
rebound can be anticipated following crown lengthening
surgery. It is possible that earlier marginal tissue stabil-
ity can be achieved if the gingival margin is placed at the
time of suturing in a position that accounts for the refor-
mation of the biologic width.
In conclusion, the data presented in this study sug-
gest that there is a significant marginal soft tissue
rebound following crown-lengthening surgery that has not
fully stabilized by 6 months. The amount of coronal
rebound appears to be related to the position of the flap
relative to the alveolar crest at suturing. These findings
support the premise that clinicians should establish
proper crown height during surgery without overreliance
on flap placement at the osseous crest to gain neces-
sary crown length.
ACKNOWLEDGMENTS
The authors gratefully acknowledge the contribution of
Dr. Anneke Bush, Clinical Research Squadron, 59th Medi-
cal Wing, Lackland AFB, Texas, for statistical support
and Col. John Boyle, Dental Laboratory Flight Com-
mander, 1st Dental Squadron, Langley AFB, Virginia, for
his laboratory expertise. We would also like to thank SSgt.
Amy Swindells and SSgt. LaTonya Jefferson, 59th Dental
Squadron, Lackland AFB, for their technical assistance.
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Correspondence: Col. David E. Deas, 59th Medical Wing/MRDT,
2450 Pepperrell Street, Lackland Air Force Base, TX 78236.
Accepted for publication January 23, 2004.
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