Background: This study was performed to investigate gender differences in gluteal subcutaneous architecture and biomechanics to better understand the pathophysiology underlying the mattress-like appearance of cellulite. Methods: Ten male and 10 female body donors [mean age, 76 ± 16.47 years (range, 36 to 92 years); mean body mass index, 25.27 ± 6.24 kg/m2 (range, 16.69 to 40.76 kg/m2)] were used to generate full-thickness longitudinal and transverse gluteal slices. In the superficial and deep fatty layers, fat lobule number, height, and width were investigated. The force needed to cause septal breakage between the dermis and superficial fascia was measured using biomechanical testing. Results: Increased age was significantly related to decreased dermal thickness, independent of sex (OR, 0.997, 95 percent CI, 0.996 to 0.998; p < 0.0001). The mean number of subdermal fat lobules was significantly higher in male body donors (10.05 ± 2.3) than in female body donors (7.51 ± 2.7; p = 0.003), indicating more septal connections between the superficial fascia and dermis in men. Female sex and increased body mass index were associated with increased height of superficial fat lobules. The force needed to cause septal breakage in male body donors (38.46 ± 26.3 N) was significantly greater than in female body donors (23.26 ± 10.2 N; p = 0.021). Conclusions: The interplay of dermal support, septal morphology, and underlying fat architecture contributes to the biomechanical properties of the subdermal junction. This is influenced by sex, age, and body mass index. Cellulite can be understood as an imbalance between containment and extrusion forces at the subdermal junction; aged women with high body mass index have the greatest risk of developing (or worsening of) cellulite.
The layered arrangement of the jawline predisposes this region for subdermal and subcutaneous treatment options located superficial to the platysma. Subdermal subcision procedures might have a beneficial effect on the labiomandibular sulcus as the boundary between the different types of subcutaneous arrangement, which form the sulcus, is being smoothened.
The posterior temporal supraSMAS minimally invasive lifting procedure seems to be a valid technique to treat temporal volume loss and to reduce the signs of age-related changes in the middle and lower face, ie "marionett line" and jowl deformity.
Background: There is no consensus on the optimal operative treatment of isolated closed metacarpal fractures as every technique is associated with advantages and shortcomings. This retrospective study aims to compare the outcomes of single metacarpal, extra-articular fractures treated with closed reduction and percutaneous pinning (CRPP) versus open reduction and internal fixation (ORIF). Methods: The charts of all patients who underwent surgical repair of closed metacarpal fractures at our institutions from 2009 to 2016 were reviewed. 70 patients met the inclusion criteria, 44 had undergone CRPP and 26 ORIF with plate or lag screws. Subgroup analyses of all patients stratified by both fracture pattern and fracture location were performed. Additionally, subgroup analyses of outcomes based on the time from injury to surgery were conducted. Clinical outcomes included immobilization time, total active motion, stiffness, complication and reoperation rates, as well as occupational therapy referral rates and duration. Functional outcomes were determined using the Quick-DASH (Disabilities of the Arm, Shoulder and Hand) score via telephone questionnaire administered retrospectively. Results: Overall, there was no significant difference in functional outcome parameters including total active motion (CRPP 91% of normal vs. ORIF 87% of normal), stiffness, therapy referrals, and complications between treatment groups. Patients treated with CRPP, regardless of fracture pattern or location, were operated on earlier than those treated with ORIF (avg. 7 days vs. 15 days). The immobilization time for patients treated with ORIF was significantly less than those treated with CRPP (19.7 vs. 30.7 days; p=0.001). This difference in the immobilization time also reflected the outcomes of the subgroup analyses based on the post-injury time of surgery. When transverse shaft fractures were examined independently as a subgroup, ORIF resulted in improved post-operative range of motion vs. CRPP (100% normal vs. 91% normal). The mean DASH score for each group was satisfactory and the difference was not statistically significant (16.3 for the CRPP and 18.7 for the ORIF group, p=0.805). Conclusion: Both CRPP and ORIF are viable techniques with good clinical outcomes and low complication rates. ORIF of closed metacarpal fractures allowed for earlier mobilization when compared with CRPP without compromising fracture stability, clinical or functional short-term outcomes.
Background Soft tissue filler injections are performed using either sharp‐tip needles or blunt‐tip cannulas. Product can change planes in an uncontrolled manner during needle injections, potentially leading to unintentional intra‐arterial placement. There is a paucity of data on the influence of injection angle on the dispersion patterns of soft tissue fillers. Materials and Methods A total of 126 injection procedures were conducted in seven Caucasian body donors (four males, three females) with a mean age of 75.29 ± 4.95 years and a mean body mass index of 23.53 ± 3.96 kg/m2. Injection procedures were performed in various facial regions (forehead, scalp, zygomatic arch, mandibular angle), utilizing different needle sizes (25G, 27G, 30G) and different angles (90°, 45°, 10°). Layer‐by‐layer dissections were performed to verify the location of the injected product. Dissections were facilitated by the colored material. Results Utilizing a 30G needle (compared to a 25G needle) reduces the superficial spread with OR 0.70 (95% CI, 0.48‐0.99) and P = 0.049, whereas injecting at 90° (vs 10° with the bevel down) increases the odds for superficial spread with OR 10.0 (95% CI, 7.11‐14.09) and P < 0.001. Conclusion Precision during soft tissue filler injections, defined as the product remaining in the plane of intended implantation, can be enhanced by changing the needle size and the injection angle. Utilizing a 30G needle and injecting at a 10° angle with bevel facing down reduces the uncontrolled product distribution into superficial fascial layers.
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