Cory M. Resnick

Cemento-osseous dysplasia, a radiological mimic of periapical dental abscess.

In the imaging evaluation of Emergency Department patients presenting with facial pain, there is a condition that can mimic the radiographic appearance of a periapical dental abscess. This condition, cemento-osseous dysplasia, may appear similar on dental X-rays, panoramic radiographs, and computed tomography examinations to and must be distinguished from the more common periapical abscess in order to avoid inappropriate intervention. This review highlights the easy confusion of these two entities based on radiographic appearance and the clinical implications of such a mistake and suggests some approaches to avoid this error.

Quantifying Temporomandibular Joint Synovitis in Children With Juvenile Idiopathic Arthritis

Juvenile idiopathic arthritis (JIA) frequently affects the temporomandibular joints (TMJs) and is often undetected by history, examination, and plain imaging. Qualitative assessment of gadolinium‐enhanced magnetic resonance images (MRIs) is currently the standard for diagnosis of TMJ synovitis associated with JIA. The purpose of this study is to apply a quantitative analysis of synovial enhancement to MRIs of patients with and without JIA to establish a disease threshold and sensitivity and specificity for the technique.

Maxillofacial and Axial/Appendicular Giant Cell Lesions: Unique Tumors or Variants of the Same Disease?—A Comparison of Phenotypic, Clinical, and Radiographic Characteristics

PURPOSE The relationship between giant cell lesions (GCLs) of the maxillofacial (MF) skeleton and those of the axial/appendicular (AA) skeleton has been long debated. The present study compared the clinical and radiographic characteristics of subjects with MF and AA GCLs. MATERIALS AND METHODS This was a retrospective cohort study of patients treated for GCLs at Massachusetts General Hospital from 1993 to 2008. The predictor variables included tumor location (MF or AA) and clinical behavior (aggressive or nonaggressive). The outcome variables included demographic, clinical, and radiographic parameters, treatments, and outcomes. Descriptive and bivariate statistics were computed, and P <or= .05 was considered significant. RESULTS The sample included 93 subjects: 45 with MF (38 with aggressive and 7 with nonaggressive) and 48 with AA (30 with aggressive and 18 with nonaggressive). Comparing the patients with MF and AA GCLs, those with MF lesions presented younger (P < .001), and the lesions were more commonly asymptomatic (P < .001), smaller (P < .001), and managed differently (P < .001) than AA lesions. When stratified by clinical behavior, aggressive tumors were diagnosed earlier than nonaggressive tumors (P < .001). Controlling for location and clinical behavior, patients with MF aggressive lesions were younger (P < .001) than those with AA aggressive lesions. MF nonaggressive lesions were more commonly asymptomatic (P = .04), smaller (P = .05), and less commonly locally destructive (P = .05) than AA nonaggressive lesions. CONCLUSIONS These results suggest that MF and AA GCLs represent a similar, if not the same, disease. Comparing the aggressive and nonaggressive subgroups, more similarities were found than when evaluating without stratification by clinical behavior. The remaining differences could be explained by the likelihood that MF tumors are diagnosed earlier than AA tumors because of facial exposure and dental screening examinations and radiographs.

Minimally invasive orthognathic surgery.

Minimally invasive surgery is defined as the discipline in which operative procedures are performed in novel ways to diminish the sequelae of standard surgical dissections. The goals of minimally invasive surgery are to reduce tissue trauma and to minimize bleeding, edema, and injury, thereby improving the rate and quality of healing. In orthognathic surgery, there are two minimally invasive techniques that can be used separately or in combination: (1) endoscopic exposure and (2) distraction osteogenesis. This article describes the historical developments of the fields of orthognathic surgery and minimally invasive surgery, as well as the integration of the two disciplines. Indications, techniques, and the most current outcome data for specific minimally invasive orthognathic surgical procedures are presented.

Effectiveness of Tongue-lip Adhesion for Obstructive Sleep Apnea in Infants With Robin Sequence Measured by Polysomnography

Objective Tongue-lip adhesion (TLA) is commonly used to relieve obstructive sleep apnea (OSA) in infants with Robin sequence (RS), but few studies have evaluated its efficacy with objective measures. The purpose of this study was to measure TLA outcomes using polysomnography. Our hypothesis was that TLA relieves OSA in most infants. Methods This is a retrospective study of infants with RS who underwent TLA from 2011 to 2014 and had at least a postoperative polysomnogram. Predictor variables included demographic and birth characteristics, surgeon, syndromic diagnosis, GILLS score, preoperative OSA severity, and clinical course. A successful outcome was defined as minimal OSA (apneahypopnea index score < 5) on postoperative polysomnogram and no need for additional airway intervention. Descriptive, bivariate, and regression statistics were computed, and statistical significance was set at P < .05. Results Eighteen subjects who had TLA at a mean age of 28 ± 4.7 days were included. Thirteen (72.2%) had a confirmed or suspected syndrome, and the mean GILLS score was 3 ± 0.3. All parameters trended toward improvement from the preoperative to postoperative polysomnograms, and improvement in OSA severity, oxygen saturation nadir, and arousals per hour was statistically significant (P < .02). This effect was significant across categories of surgeon, syndrome, and GILLS score. Nine subjects (50%) met the criteria for a successful outcome. Bivariate and regression analyses did not demonstrate a significant relationship between success and any predictor variable. Conclusions TLA improved airway obstruction in all infants with RS but resolved OSA in only nine patients, and success was unpredictable.

Accessory mandibular condyle at the coronoid process.

Coronoid process hyperplasia is a rare cause of mandibular hypomobility. It can result from temporalis muscle hyperactivity, trauma, and neoplasia, but often is idiopathic. Enlargement of the coronoid process leading to pseudojoint formation with the zygomatic arch is known as Jacobs disease. It results most commonly from an osteochondroma of the coronoid process. This is the first reported case of a non-neoplastic accessory mandibular condyle located at the coronoid process articulating with the zygoma.

What Is the Cost of Meaningful Use

The Medicare and Medicaid Electronic Health Care Record Incentive Program was established to encourage widespread adoption of an electronic health record (EHR) by providing incentive payments for showing meaningful use (MU) of EHR systems. The MU requirements were first introduced in 2011. A second phase of requirements was released in 2014, and a third is expected in 2016. EHR adoption has peaked at 59% since the introduction of MU, although only 5.8% of all hospitals meet all MU criteria.With the cost of EHR system implementation estimated at

Comparison of time required for traditional versus virtual orthognathic surgery treatment planning

250,000 per facility, projections show that only 27% of practices would achieve a return on investment. Nonetheless, little is known about the resource usage and financial costs of meeting MU criteria for an oral and maxillofacial surgery (OMS) practice. We conducted a micro-costing study to estimate these costs. The research protocol did not involve direct patient interaction or use of patient identifying material; therefore, it was exempt from institutional review board approval. For micro-costing analysis, the complete list of MU criteria was organized into a process of activities and the staff members involved in each respective activity. Average time (minutes) for each activity was determined by direct observation of 5 patient visits to an oral and maxillofacial surgeon in the Department of Plastic and Oral Surgery at Boston Children’s Hospital (Boston, MA). Time-driven activity-based micro-costing analysis was conducted to quantify the cost of meeting MU criteria. All costs were calculated from a provider’s

Accuracy of three-dimensional soft tissue prediction for Le Fort I osteotomy using Dolphin 3D software: a pilot study

Virtual surgical planning (VSP) is a tool for predicting complex surgical movements in three dimensions and it may reduce preoperative laboratory time. A prospective study to compare the time required for standard preoperative planning versus VSP was conducted at Massachusetts General Hospital from January 2014 through January 2015. Workflow data for bimaxillary cases planned by both standard techniques and VSP were recorded in real time. Time spent was divided into three parts: (1) obtaining impressions, face-bow mounting, and model preparation; (2) occlusal analysis and modification, model surgery, and splint fabrication; (3) online VSP session. Average times were compared between standard treatment planning (sum of parts 1 and 2) and VSP (sum of parts 1 and 3). Of 41 bimaxillary cases included, 20 were simple (symmetric) and 21 were complex (asymmetry and segmental osteotomies). Average times for parts 1, 2, and 3 were 4.43, 3.01, and 0.67h, respectively. The average time required for standard treatment planning was 7.45h and for VSP was 5.10h, a 31% time reduction (P<0.001). By eliminating all or some components of part 1, time savings may increase to as much as 91%. This study indicates that in an academic setting, VSP reduces the time required for treatment planning of bimaxillary orthognathic surgery cases.

Temporomandibular Joint Reconstruction in the Growing Child

Three-dimensional (3D) soft tissue prediction is replacing two-dimensional analysis in planning for orthognathic surgery. The accuracy of different computational models to predict soft tissue changes in 3D, however, is unclear. A retrospective pilot study was implemented to assess the accuracy of Dolphin 3D software in making these predictions. Seven patients who had a single-segment Le Fort I osteotomy and had preoperative (T0) and >6-month postoperative (T1) cone beam computed tomography (CBCT) scans and 3D photographs were included. The actual skeletal change was determined by subtracting the T0 from the T1 CBCT. 3D photographs were overlaid onto the T0 CBCT and virtual skeletal movements equivalent to the achieved repositioning were applied using Dolphin 3D planner. A 3D soft tissue prediction (TP) was generated and differences between the TP and T1 images (error) were measured at 14 points and at the nasolabial angle. A mean linear prediction error of 2.91±2.16mm was found. The mean error at the nasolabial angle was 8.1±5.6°. In conclusion, the ability to accurately predict 3D soft tissue changes after Le Fort I osteotomy using Dolphin 3D software is limited.