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101.

CAD/CAM Metallic Printing of a Skeletally Anchored Upper Molar Distalizer

DR. SIMON GRAF , DDS | DR. SIVABALAN VASUDAVAN , BDSc, MDSc, MPH | DR. BENEDICT WILMES , DMD, MDS, PhD

Volume 54 : Number 3 : Page 140 : Mar 2020

Laser melting is an innovative method of 3D printing that has been used to produce metal rapid palatal expanders. Drs. Graf, Vasudavan, and Wilmes show how to use computer-aided design for 3D metal printing of a molar distalizer with palatal mini-implant anchorage.

102.

Tandem Skeletal Expander and MAPA Protocol for Palatal Expansion in Adults

DR. B. GIULIANO MAINO , MD, DDS | MR. EMANUELE PAOLETTO , | DR. FRANCESCA CREMONINI , DDS | DR. ERIC LIOU , DDS | DR. LUCA LOMBARDO , DDS

Volume 54 : Number 11 : Page 690 : Nov 2020

Traditional rapid maxillary expansion may be inadequate in non-growing patients. In this article, two case examples illustrate how miniscrew-supported maxillary expansion and the MAPA System can resolve transverse deficiency in an adult while avoiding unwanted dental side effects or orthognathic surgery.

103.

Maxillary Space Closure Using Aligners and Palatal Mini-Implants in Patients with Congenitally Missing Lateral Incisors

DR. BENEDICT WILMES , DMD, MSD, PhD | DR. JÖRG SCHWARZE , DMD, MSD | DR. SIVABALAN VASUDAVAN , BDSc, MDSc, MPH | DR. DIETER DRESCHER , DMS, MSD, PhD

Volume 55 : Number 1 : Page 20 : Jan 2021

The Mesialslider allows the use of sliding mechanics anchored by mini-implants in the anterior palate. As Drs. Wilmes, Schwarze, Vasudavan, and Drescher demonstrate, this facilitates closure of upper edentulous spaces when used either simultaneously or consecutively with clear aligner treatment.

104.

Changes in Skeletal, Dental, and Upper-Airway Parameters after Implant-Supported Rapid Maxillary Expansion

DR. SINDHU MANOHARAN , MDS | DR. RAJARAM KRISHNARAJ , MDS | DR. SANGEETHA DURAISAMY , MDS | DR. EDEINTON ARUMUGAM , MDS | DR. KANNAN RAVI , MDS

Volume 56 : Number 2 : Page 96 : Feb 2022

A study by Dr. Manoharan and colleagues is designed to evaluate the effects of a four-mini-implant-supported maxillary expander using cone-beam computed tomography. Skeletal, dental, and airway measurements are compared against the results obtained with a conventional bonded Hyrax expander.

105.

"Bone First" Principle with CAD/CAM Insertion Guides for Mini-Implant-Assisted Rapid Palatal Expansion

DR. BENEDICT WILMES , DMD, MSD, PhD | DR. RENZO DE GABRIELE , DDS, MD | MR. GIANLUCA DALLATANA , DT | DR. NOUR TARRAF , BDS, MDSc, MRACDS Ortho, MOrth RCS | DR. BJÖRN LUDWIG , DMD, MSD

Volume 56 : Number 3 : Page 158 : Mar 2022

In this MARPE protocol, Dr. Wilmes and colleagues prioritize the selection of mini-implant insertion sites with the most available bone, rather than the placement of a prefabricated expander. The application of their Quadexpander is demonstrated in two non-growing patients.

106.

Palatal Plug Analysis

DR. JOEL M. SERVOSS , DDS | DR. J. PETER SANDE , DDS

Volume 8 : Number 9 : Page 506 : Sep 1974

Maxillary tooth movement may be assessed rather precisely from orthodontic study models. The area in the midline of the palate from a few millimeters behind the incisive foramen through the curvature ...

107.

Effects of First Bicuspid Extractions on Facial Height in High-Angle Cases

CHRISTIAN CUSIMANO, DDS , | RICHARD P. McLAUGHLIN, DDS , | JOSEPH H. ZERNIK, DMD, PHD ,

Volume 27 : Number 11 : Page 0 : Nov 1993

Some disagreement exists concerning the effect of bicuspid extractions on the vertical dimension. It has been suggested that orthodontic forward movement of the posterior teeth after bicuspid extracti...

108.

A New Telescopic Maxillary Expander

LEWIS KLAPPER, DMD, MSD, DSC , | RICHARD GEORGE, BA, BSME ,

Volume 29 : Number 2 : Page 0 : Feb 1995

Maxillary expansion screws have been a source of frustration to orthodontists for many years. The traditional jackscrews are difficult for patients to activate. Longer screws, which provide the most e...

109.

Modifications of the Distal Jet

DR. S. JAY BOWMAN , DMD, MSD

Volume 32 : Number 9 : Page 549 : Sep 1998

The Distal Jet is a fixed lingual appliance that can produce unilateral or bilateral molar distalization and rotation correction, typically in four to nine months, without relying on patient complianc...

110.

An Extrusion Spring for Palatally Impacted Cuspids

DR. GREGORY OPPENHUIZEN , DDS, MSD

Volume 37 : Number 8 : Page 434 : Aug 2003

To move a palatally impacted cuspid into occlusion, I have found it best to first extrude the cuspid to a level just out of the occlusal plane, and only then move the tooth laterally into the arch. Th...

111.

THE EDITOR'S CORNER

A New Approach to an Old Problem

DR. ROBERT G. KEIM , DDS, EdD, PhD

Volume 40 : Number 11 : Page 0 : Nov 2006

Palatal expansion has been an indispensable component of orthodontic treatment since the early history of the profession. Although the technique has traditionally been used to correct posterior crossb...

112.

A New Palatal Implant with Interchangeable Upper Units

DR. YASUHIRO ITSUKI , DDS, PhD | DR. EISAKU IMAMURA , DDS

Volume 43 : Number 5 : Page 318 : May 2009

Although self-drilling miniscrews can be inserted without making an incision, resulting in a relatively low risk of infection, they have a high rate of failure. Miniplates can be used for molar distal...

113.

Stress on Bone from Placement and Removal of Orthodontic Miniscrews at Different Angulations

DR. JAMES NOBLE , BSC, DDS, MSC, FRCD(C) | DR. NICHOLAS E. KARAISKOS , BSC, DMD, MSC, FRCD(C) | DR. THOMAS H. HASSARD , BSC, PhD | DR. FRANK J. HECHTER , DMD, MSC, MED, PhD | DR. WILLIAM A. WILTSHIRE , BCHD(Hons), MDent, MCHD, DSC, FRCD(C)

Volume 43 : Number 5 : Page 332 : May 2009

The present study was conducted to measure the stress on bone from insertion and removal of TADs at two common sites using different angulations of insertion. The force required for mechanical failure...

114.

THE EDITOR'S CORNER

The Value of Case Reports

DR. ROBERT G. KEIM , DDS, EdD, PhD

Volume 46 : Number 7 : Page 385 : Jul 2012

This issue departs somewhat from our usual format in that it places a special emphasis on case reports. On numerous occasions at orthodontic meetings in the United States and Europe, and even at gradu...

115.

THE EDITOR'S CORNER

Long-Term Assets

DR. ROBERT G. KEIM , DDS, EdD, PhD

Volume 46 : Number 11 : Page 657 : Nov 2012

During almost a quarter-century in orthodontic education, one thing I have consistently noticed in both orthodontic students and new graduates is their propensity to try everything new that comes alon...

116.

The Horseshoe Jet for Miniscrew-Supported Molar Distalization

DR. S. JAY BOWMAN , DMD, MSD

Volume 52 : Number 4 : Page 196 : Apr 2018

This versatile modification of the Distal Jet relies on skeletal anchorage to avoid unwanted reciprocal forces. After molar distalization, the self-limiting appliance converts to a palatal holding arch. Dr. Jay Bowman illustrates a variety of clinical applications, including a combination with AcceleDent.

117.

THE EDITOR'S CORNER

What Everyone Else Is Doing

DR. ROBERT G. KEIM , DDS, EdD, PhD

Volume 54 : Number 12 : Page 728 : Dec 2020

This issue contains the last article in our three-part series presenting the results of our 2020 JCO Study of Orthodontic Diagnosis and Treatment Procedures. Since the survey is quite “granular,” to u...

118.

DIGITAL ORTHO LAB

Boneborne Rapid Palatal Expansion—the Virtual Way

DR. BJÖRN LUDWIG , DMD, MS, PhD | DR. ADITH VENUGOPAL , BDS, MS, PhD | DR. DIRK WIECHMANN , BDS, MS, PhD | DR. RAVINDRA NANDA , BDS, MDS, PhD

Volume 56 : Number 4 : Page 239 : Apr 2022

In a new JCO feature, Drs. Ludwig, Venugopal, Wiechmann, and Nanda outline the procedure for computer-aided design and manufacturing of a boneborne palatal expander. An online video demonstrates the technique, and a link is provided to download an accompanying STL file.

119.

Classification of Temporary Anchorage Devices in Orthodontics

DR. NICOLA DERTON , DDS, MS | DR. FRANCESCA CREMONINI , DDS | DR. NIKI ARVEDA , DDS, MS | DR. LUCA LOMBARDO , DDS, MS | DR. MARIO PALONE , DDS, MS

Volume 57 : Number 6 : Page 353 : Jun 2023

The authors propose a system for identifying the means of placement and precise locations of miniscrews. Guided TADs are positioned using surgical guides; unguided TADs are inserted freehand. Insertion sites are further subdivided into maxillary and mandibular areas.

120.

Removable Orthodontic Appliances

DR. SPIRO J. CHACONAS , DDS, MS

Volume 5 : Number 7 : Page 363 : Jul 1971

Appliance Design and Construction The design and construction of any removable orthodontic appliance must begin with a detailed plan of the tooth movement that is to be carried out in the course of th...