Khaldoun Darwich’s research while affiliated with Damascus University and other places
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With the innovation of three-dimensional imaging and printing techniques, computer-aided surgical planning, also known as virtual surgical planning (VSP), has revolutionized orthognathic surgery. Designing and manufacturing patient-specific surgical guides using three-dimensional printing techniques to improve surgical outcomes is now possible. This article presents an overview of VSP in orthognathic surgery and discusses the advantages and accuracy of this technique compared to traditional surgical planning (TSP). A PubMed and Google Scholar search was conducted to find relevant articles published over the past 10 years. The search revealed 2,581 articles, of which 36 full-text articles specifically addressed the topic of this study. The review concludes that VSP in orthognathic surgery provides optimal functional and aesthetic results, enhances patient satisfaction, ensures precise translation of the treatment plan, and facilitates intraoperative manipulation.
Background: The study's objective was to assess the dimensional accuracy and reliability of dental digital models prepared by direct intraoral scanning and indirect scanning of the plaster models compared to the plaster models as the gold standard.
Materials and methods: This study included 20 patients. Nine had a class I malocclusion, seven had a class II malocclusion, and four had a class III malocclusion. Intraoral scanning was done for the upper and lower arches of all the patients enrolled in this study using an intraoral scanner (i700; Medit, Seoul, Korea). The next step was preparing the plaster model for the control group. Addition-silicone impressions were taken for each patient's arches. The impressions were poured according to American Board of Orthodontics (ABO) standards. Finally, the digital models of the indirect scanning group were prepared using a 3D desktop scanner (T710; Medit). In total, 26 measurements were made on the plaster and digital models. Paired t-tests were used to test for significant differences between the studied groups. The reliability of the studied techniques was tested using intraclass correlation coefficients (ICCs). Because of the multiple comparisons, the ɑ level was adjusted and set at 0.002.
Results: No significant differences were found between the intraoral scanning group (20 patients) and the plaster models group (20 patients; P>0.002). The ICCs ranged from 0.814 to 0.993, indicating excellent agreement between the direct digital and traditional plaster models. There were no significant differences between the digital and original plaster models (P>0.002). ICCs ranged from 0.834 to 0.995, indicating excellent agreement between the indirect digital and original plaster models. No significant differences were detected between the direct and indirect digital models (P>0.002). ICCs ranged between 0.813 and 0.999, indicating excellent agreement between direct and indirect digital models.
Conclusion: Both direct and indirect scanning techniques are accurate and reliable for digital model preparation and can be considered an alternative to traditional plaster models used in clinical orthodontics diagnostic applications. The intraoral scanning technique can be considered a valid alternative for indirect scanning of the plaster models to prepare digital working models during the digital design and fabrication of orthodontic appliances such as clear aligners.
Background and objectives:
Recently, both surgical and non-surgical interventions have gained popularity in accelerating orthodontic
tooth movement, but there is no randomized controlled trial (RCT) comparing both modalities in terms of
patient-reported outcome measures (PROMs) during maxillary canine retraction. Therefore, this trial aimed
to assess the PROMs associated with either low-level laser therapy (LLLT) or piezocision-assisted
acceleration in the context of maxillary canine retraction.
Materials and methods:
This was a single-blinded, single-center, three-arm RCT. A total of 54 patients (12 males, 42 females, mean
age 20.65 ± 2.85) whose treatment needed upper-first-premolar extraction to facilitate canine retraction
were enrolled and randomly divided into three groups: piezocision group (PG), LLLT group (LLLTG), and the
control group (CG). Standardized questionnaires using a visual analog scale were distributed to patients at
five assessment times: 1 (T1), 3 (T2), 7 (T3), 14 (T4), and 28 days following the canine retraction initiation
(T5). The patients’ pain, discomfort, swelling, chewing difficulty, satisfaction, and acceptance were recorded.
Results:
Regarding pain and discomfort, the levels were significantly lower in the LLLTG during the first two weeks of
canine retraction compared to the other two groups (p<0.017). At the same time, these levels were
significantly greater in the PG than the CG in the first week of canine retraction (p<0.017). Patients in the PG
had a "mild to moderate" perception of swelling at T1 and T2, which was significantly different than that of
the other two groups (p<0.001). Regarding chewing difficulty, the levels in the LLLTG were significantly
lower than those in PG at the first three assessment times (p<0.017). Patients’ satisfaction with canine speed
was significantly greater in the intervention groups compared to the CG (p<0.001). In contrast, no
statistically significant differences were found between the three groups regarding satisfaction with gum
appearance surrounding the canine (p=0.061) and acceptance (p=0.125).
Conclusion:
The LLLT-assisted canine retraction was associated with significantly lower negative patient-reported
outcomes during the first two weeks of retraction than piezocision-assisted retraction. However, the levels
of pain and discomfort were significantly greater in the piezocision-assisted retraction group than those in
the conventional canine retraction group, which in turn were greater than those with the LLLT-assisted
canine retraction group during the first week of retraction. Patient satisfaction and acceptance were high
with both piezocision and LLLT interventions.
(1) Background: This study aimed to compare patient-reported outcome measures when accelerating en masse retraction between the piezocision procedure and the subsequent application of low-level laser therapy (FC+LLLT), with the piezocision alone (FC), and in a control group (2) Methods: A three-arm randomized controlled trial (RCT) was conducted involving 60 patients (41 females and 19 males) with Class II division I malocclusion. The en masse retraction was performed using NiTi closed coil springs attached to miniscrews. The LLLT was performed using an 808 nm Ga-Al-As diode laser. Patient responses regarding pain, discomfort, swelling, and chewing difficulties were reported at ten assessment points. Results: The greatest pain levels were observed 24 h after the application of force during the first and third months of retraction. The mean pain, discomfort, swelling, and chewing difficulties were significantly smaller in the control group than in the FC and FC+LLLT groups. High satisfaction levels were reported in all three groups (p < 0.05). (4) Conclusions: The accelerated en masse retraction via piezocision, followed by a small course of LLLT, was accompanied by significantly fewer pain, discomfort, and chewing difficulties than the control group. LLLT is a valuable addition to piezocision, with an improved patient experience.
Malocclusion may affect interpersonal relationships, self-esteem (SE), and psychological well-being, weakening patients' psychological and social activities. Several studies investigated the effect of orthodontic treatment on these social and psychological aspects, such as SE. However, the direct relationship between SE and orthodontic treatment has not yet been confirmed. This systematic review aimed to evaluate the existing evidence in the literature concerning the influences of orthodontic treatment on patients’ SE systematically and critically. An electronic search in the following databases was done in September 2022: PubMed®, Web of Science™, Scopus®, Embase®, GoogleTM Scholar, Cochrane Library databases, Trip, and OpenGrey. Then, the reference list of each candidate study was checked for any potentially linked papers that the electronic search might not have turned up. Inclusion criteria were set according to the population/intervention/comparison/outcome/study design (PICOS) framework. For the data collection and analysis, two reviewers extracted data separately. The risk of bias 2 (RoB-2) and the risk of bias in non-randomized studies (ROBINS-I) tools were used to assess the risk of bias for randomized controlled trials (RCTs) and non-RCTs, respectively. The grading of recommendations assessment, development and evaluation (GRADE) approach was employed to evaluate the quality of the evidence for each finding. Sixteen studies (five RCTs, seven cohorts, and four cross-sectional) were included in this review. Unfortunately, the results could not be pooled into a meta-analysis. Only six studies have reported an increase in SE after orthodontic treatment (P<0.05 in these studies). No agreement between the included studies was observed regarding the influence of fixed orthodontic treatment, gender, or age on SE. The quality of evidence supporting these findings ranged from very low to low. There is low evidence indicating that fixed orthodontic treatment can improve patients' SE. In addition, unclear data are available about the influence of patients' gender and age on SE after orthodontic treatment. Therefore, high-quality RCTs are required to develop stronger evidence about this issue.
The aim of this study was to evaluate the clinical and radiographic outcomes of the All-on-4 technique in fully edentulous maxilla using R2GATE software for flapless, computer-guided surgery and immediate loading. Ten adult patients with fully edentulous maxilla, aged between 35 and 60 years, were included in the study between April 2021 and April 2022. The surgical procedure was performed under local anesthesia and followed the All-on-4 approach with immediate loading of implants using a screw-retained provisional acrylic resin prosthesis on the same day. Final prosthesis was delivered four months after the surgery. Clinical and radiographic outcomes were evaluated at four- and twelve-months post-operation. The study reported a 95% implant survival rate using the All-on-4 technique. The mean marginal bone level was recorded at 0.35 mm and 0.66 mm during the 4 and 12-month follow-up periods, respectively. Fixed provisional prosthesis fracture, abutment, and prosthesis screw loosening were the most frequent mechanical complications reported. Within the limitations of this study, the use of computer-guided surgery in the All-on-4 technique seemed to be a promising treatment option with high implant survival rates that may help reduce post-surgical discomfort and mechanical complications in the rehabilitation of the edentulous maxilla.
Background
Removal of impacted third molars is associated with postoperative complications such as pain, swelling, ecchymosis, trismus, infection, and hematoma. Thus, contemporary surgery aims to reduce complications by applying collagen or hyaluronic acid in the socket after extracting the impacted mandibular third molars. This study aimed to study the efficacy of hyaluronic acid (HA) addition to collagen, compared to collagen application alone, on the magnitude of swelling and trismus following impacted mandibular third molar surgery.
Methods and materials
A total of 40 impacted molars of 20 participants who had completely bilateral impacted lower third molars were enrolled in this split-mouth, randomized, clinical trial. Randomization was carried out by two opaque envelops; two materials were applied topically in the socket collagen alone or with hyaluronic. The postoperative mouth-opening limitation and swelling rate were assessed on the third and seventh days after the extraction.
Results
The mean age was 22.7 ± 3.079 years (75% female and 25% male). Regarding the rate of trismus, the test sides had less values than the control sides on 3rd days (44.03 ± 12.8 vs. 52.14 ± 13.7) and 7th days (19.22 ± 12.8 vs. 32.45 ± 15.3) postoperatively but the difference is only significant on the seventh day (P = 0.005). The swelling scores of the hyaluronic acid addition group were significantly lesser than those of the collagen alone group on the third and the seventh day (P < 0.05) except for the lateral canthus to the angulus mandibulae on the third day (P = 0.133).
Conclusion
Adding hyaluronic acid to collagen could effectively reduce the severity of facial swelling and trismus following surgical extraction of impacted lower third molars.
Statement of clinical relevance
Swelling and trismus are the most sequela following impacted third molar surgical extraction. This study showed that applying hyaluronic acid with collagen can reduce the severity of facial swelling and trismus which could be useful in surgeons’ daily practice.
We should mention that this original article has a preprint edition (44).
The repair and reconstruction of defects in the craniomaxillofacial region can be particularly challenging due to the complex anatomy, individuality of each defect, and sensitivity of the involved systems. This study aims to enhance the facial appearance and contribute to the reconstruction of the zygomatic arch. This was achieved through virtual planning of the surgery and assessment of clinical matching, including orbital measurements and registration of numerical models. A three-dimensional design of a young female case was generated on a skull model using Mimics® software, and the orbit was isolated using 3-Matic® to assess the reconstructive effect. 3D-printed implants were then surgically placed on the injured region, and Netfabb® software was used to make a virtual registration between the numerical models before and after the intervention. This allowed for the calculation of a deviation of 7 mm, equivalent to 86.23% of the shape restoration rate, to assess the success of the surgery. The computerized method enabled a precise design of the needed plates and analysis of the fixation places, resulting in a satisfactory cosmetic and functional outcome for the patient with minimal complications and good implant stability. Notably, a significant difference was observed in the orbital frontal area after 3 months of surgery (p < 0.001). Within the limitations of the study, these results suggest that virtual planning and customized titanium implants can serve as useful tools in the management of complex zygomatic-orbital injuries.
Background:
Surgical-assisted accelerated orthodontics (SAAO) has become very popular recently. Therefore, this study aimed to investigate the extent to which researchers adhere to Item 19 (harms) of the Consolidated Standards of Reporting Trials (CONSORT) in the published studies in the field of SAAO. In addition, the study evaluated the possible association between harm reporting and the human development index (HDI) of the recruited research sample country, CiteScore-based quartile (CSBQ) of the publishing journal, invasiveness of the surgical intervention (ISI), and the type of orthodontic tooth movement (TOTM). Moreover, it aimed to summarize the different possible harms and complications that maybe encountered in the course of SAAO.
Materials and methods:
Electronic searching of six databases was conducted for SAAO-related English RCTs published between January 2000 and April 2022. For the RCTs that did not report harms, information was sought by contacting the corresponding authors. Descriptive statistics of the evaluated variables were performed. The association between 'harm reporting' and the HDI of the research team, the BDRQ of the publication journal, the ISI, and the TOTM were investigated. Binary logistic regression was used, and the odds ratios (ORs) with 95% confidence interval (CIs) of the evaluated variables were obtained. Moreover, the risk of bias of the included RCTs was assessed using the RoB2 tool.
Results:
Among the 91 included RCTs, 54 RCTs (59.3%) did not adhere to reporting harm associated with the SAAO. The non-adherence was significantly associated with the ISI (OR 0.16; CI 0.03-0.73; p < 0.018) for invasive methods compared with minimally invasive ones). There was a significant positive correlation between harm reporting and both the CSBQ of the publishing journal and the HDI of the recruited research sample country (p = 0.001, p = 0.003, respectively). On the contrary, a non-significant association was found between harm reporting and the type of OTM (p = 0.695). The incidence of harms associated with SAAO was approximately 17.5%.
Limitations:
Assessment was restricted to English RCTs related to SAAO.
Conclusion and implications:
The adherence to reporting harms in the field of SAAO was deficient. Efforts should be made by authors, peer reviewers, and editors to improve compliance with the CONSORT guidelines regarding harms reporting. Additionally, there is a wide spectrum of harms that could be associated with SAAO that the practitioner should pay attention to and alert the patient to the possibility of their occurrence.
Virtual planning is ideally suited for maxillofacial operations as it allows the surgeon to assess the bony and critical neurovascular structures and enables him to plan osteotomies and fracture reductions. This study aims to propose the use of titanium-based patient-specific implants (PSI), along with virtual surgical planning to assess the advantages and the complications in a case of orbital reconstruction. A three-dimensional model of the skull was generated using computed tomography (CT) data of a female patient using Mimics software (version 19, Materialize, Leuven, Belgium). Numerical PSI models were designed using 3-Matic software (version 13, Materialize, Leuven, Belgium) and the non-affected orbit as a template. Surgical virtual planning showed the suitability of the use of the numerical models in traumatic surgical rehabilitation. Moreover, the digital printing process enabled the trial of the designed PSIs on the patient’s face before the surgery. Reconstruction Biomechanical studies are an essential part of understanding the limits of maxillofacial traumas. The surgical results confirmed the virtual predictions, and the orbital reconstruction seems to be more enhanced and facilitated.
... Data for the dental dimensions of the Spanish population is collected from the international database where we found numerous studies conducted with similar laser scanner [7][8][9]. ...
... No significant differences were observed at other assessment time points. The observed differences between the two groups immediately after appliance placement and the following day can be attributed to the MAA appliance containing a lingual component that may hinder tongue movement before the patient becomes accustomed to the appliance [33]. ...
... Pain is a major obstacle to orthodontic treatment, often leading to decreased patient cooperation and treatment discontinuation [8][9][10]. Effective pain management is crucial for successful outcomes, as nearly all patients experience pain during treatment [3,11]. The pain patterns associated with traditional fixed appliances are well-documented [12,13], with peak discomfort occurring approximately 24 hours after treatment initiation and gradually subsiding [14]. ...
... The systematic review included 12 clinical studies focusing on BoNT-A and HA dermal fillers in dentistry, with six studies dedicated to each [13][14][15][16][17][18][19][20][21][22][23][24]. Table 1 outlines the recommended treatment applications of BoNT-A and HA in various dental and aesthetic procedures. ...
... Three-dimensional (3D) scaffolds, which are porous temporary structures that are utilised in bone tissue engineering (BTE), are alternatives to bone grafts for replacement, repair, and regeneration of bone tissues in bone defects, trauma and injuries [3][4][5]. BTE scaffolds have been applied in various applications, such as large segmental defects in long bones [6], oral and maxillofacial defects [7], articular osteochondral defects (OCD) [8] and ipsilateral femoral bone defects [9]. These scaffolds provide support to withstand the applied mechanical loading, mass transport of nutrients, biofactors, cells, and the removal of wastes to achieve the goal of bone tissue regeneration. ...
... There are several uses of computational techniques in dentistry [20][21][22][23][24][25][26][27][28][29][30][31], and the computerguided implantation for the rehabilitation of a fully edentulous maxilla with the "All-on-4" concept is a promising approach that can shorten the procedure and facilitate the operation of patients and surgeons. The development of 3D imaging has raised expectations in implant dentistry, allowing for precise visualization of skeletal components in the craniofacial region. ...
... Most studies included in this review originated from research conducted in the Asian continent, which aligns with other research indicating that most clinical trials addressing the use of corticotomy in orthodontics are carried out in Asia [27]. Asian countries are known for being transparent in reporting the results of their research [28]. Over the last two decades, there has been a notable increase in the scientific contribution of Asian and South American countries to research on corticotomy-assisted orthodontics [27]. ...
... Since orthodontic treatment requires a prolonged treatment time, especially when fixed appliance treatment is intended, many efforts have been made to shorten the treatment time by accelerating the rate of tooth movement [2]. Several techniques have been investigated in the literature to accelerate orthodontic tooth movements (OTM), which can be divided into surgical and non-surgical methods [3]. Surgical techniques such as corticotomy [4], periodontally accelerated osteogenic orthodontics (PAOO) [5], corticision [6], piezocision [7], and laser-assisted flapless corticotomy [8], have been studied by numerous researchers previously. ...
... Periodontal accelerated osteogenic orthodontics (PAOO) integrates corticotomy, particulate grafting, and orthodontic forces [9]. Existing literature supports PAOO's efficacy in expanding tooth movement feasibility, augmenting alveolar bone volume, and fortifying the periodontium [10][11][12]. It has demonstrated superior outcomes compared to traditional orthodontic treatment due to its ability to increase tooth movement without elevating the risk of apical root resorption while simultaneously reshaping the alveolar bone [9]. ...