Gregersenbarton2920

Grinding increased the fatigue failure load, number of cycles to failure and survival rates of the second-generation zirconia statistically (control 1373.33 N  grinding 620 N). Thus, clinical adjustments with diamond burs damage the fatigue behavior of adhesively cemented third-generation zirconia. The successful development of cartilage repair treatments for the knee requires understanding of the biomechanical environment within the joint. Computational finite element models play an important role in non-invasively understanding knee mechanics, but it is important to compare model findings to experimental data. The purpose of this study was to develop a methodology for generating subject-specific finite element models of porcine tibiofemoral joints that was robust and valid over multiple different constraint scenarios. Computational model predictions of two knees were compared to experimental studies on corresponding specimens loaded under several different constraint scenarios using a custom designed experimental rig, with variations made to the femoral flexion angle and level of tibial freedom. For both in vitro specimens, changing the femoral flexion angle had a marked effect on the contact distribution observed experimentally. With the tibia fixed, the majority of the contact region shifted to the medial plateau as flexion was increased. This did not occur when the tibia was free to displace and rotate in response to applied load. These trends in contact distribution across the medial and lateral plateaus were replicated in the computational models. In an additional model with the meniscus removed, contact pressures were elevated by a similar magnitude to the increase seen when the meniscus was removed experimentally. Overall, the models were able to capture specimen-specific trends in contact distribution under a variety of different loads, providing the potential to investigate subject-specific outcomes for knee interventions. It aimed to evaluate if silica infiltration might influence the hydrothermal degradation of zirconia by determining the phases formed, hardness, microstructure, and flexural strength of a 3Y-TZP. Yttria partially stabilized zirconia discs (1.2 mm thickness x 13 mm diameter) (InCeram YZ, Vita Zanhfabrik) were produced and assigned into 6 groups, considering 2 factors silica infiltration in 2 levels (as-sintered or infiltration) and hydrothermal aging (LTD-Low Temperature Degradation) in 3 levels (baseline, aging at 132 °C for 35 h or 140 h). All the groups were subjected to the biaxial flexural test (n = 30), and Vickers hardness (n = 42). Weibull analysis was performed to determine the Weibull moduli (m) and characteristic strenghts (σ0). The specimens were characterized by scanning electron microscopy (SEM) to evaluate microstructure and X-ray diffraction (XRD) for phases percentages determination. For as-sintered condition there was saturation of the amount of monoclinic zirconia after 35 h of hydrothermal aging, with 66% of monoclinic zirconia formed on the surface. LTD generated a progressive reduction in hardness over time; flexural strength was increased by the 35-h treatment (baseline 974 MPa; 35 h 1161.5 MPa), but, the 140 °C treatment was deleterious (698.5 MPa). On the other hand, the infiltrated specimens had an increase in the amount of cubic zirconia on the surface and showed 26% (35h) and 31% (140h) of monoclinic zirconia after the hydrothermal aging ; the strength was kept unaltered after LTD-35 h (935.9 MPa) and an increase was observed after LTD-140 h (1033.6 MPa); the hardness values had no statistically significant changes during the process. Thus, one can concludes that the silica infiltration can prevent the decrease in the mechanical properties due to the LTD on partially stabilized zirconia materials. Collagen fibre degradation is a strain-dependent process, whereby the magnitude of experienced strain dictates the rate of enzymatic cleavage. Studies have identified conflicting findings as to whether strain inhibits or enhances collagen degradation, which may be explained by the tissue type and tissue scale investigated, as well as the strain range considered. The aim of this study is to identify, for the first time, the strain-dependent degradation response of intact arterial vessels experiencing physiological pressures and apply these findings to a computational model to better understand degenerative arterial diseases, such as aneurysms. To achieve this, a series of quasi-static pressure inflation experiments were carried out on intact arteries in the presence of purified bacterial collagenase at physiologically relevant pressures to investigate collagen matrix degradation in the vascular wall. A complementary computational model was developed to explore the complex role of pressure, non-collagenous matrix contribution, and collagen fibre crimp in the ultimate degradation response of the vessel. selleck Pressure induced inflation-degradation results identified an increased rate of vessel expansion and reduced time to failure with increasing pressure in the vessels. Interestingly, our computational model was able to capture this same response, including the elevated rates of degradation which occur at low pressures. These findings highlight the critical role of strain in collagen degradation, particularly in cases of arterial disease, such as aneurysm formation, whereby structural integrity may be compromised. Trabecular bone is a cellular composite material comprising primarily of mineral and organic phases and its mechanical response to loads is time-dependent. The contribution of the organic phase to the time-dependent behaviour of bone is not yet understood. We investigated the time-dependent response of demineralised trabecular bone through tensile multiple-load-creep-unload-recovery experiments. We found that demineralised trabecular bone's time-dependent response is nonlinearly related to the applied stress levels - it stiffens with increased stress levels. Our results also indicated that the time-dependent behaviour is associated with the original bone volume ratio (BV/TV). Irrecoverable strain exists, even at the low strain levels, but are not associated with BV/TV. Furthermore, we found that the nonlinear viscoelastic model can accurately predict the time-dependent behaviour of the trabecular bone's organic phase, which can be incorporated together with the properties of mineral to generate a composite model of bone. This study will help to provide a better understanding of this natural composite material. BACKGROUND This survey aimed to investigate clinicians' perceptions and current practice patterns of Korean medicine (KM) treatment for female infertility. METHODS A questionnaire on clinical practice patterns of KM treatment for female infertility was constructed and distributed to 703 KM doctors (KMDs). RESULTS A total of 20.5% of physicians (n = 144/703) completed the survey and delivered integrative care for female infertility patients. Integrative care mainly consisted of acupuncture, herbal medicine, and moxibustion. The participants largely relied on radiological findings on ultrasonography and hormone tests for diagnosis. The most frequently prescribed herbal medication was Jogyeongjongok-tang (Tiaojing Zhongyu decoction), and the most frequently applied acupoints were SP6, CV4 and ST36. CONCLUSIONS This study provides expert opinions and information on actual clinical practice patterns of KM for treating female infertility. However, we cannot completely discount the possibility that biased selection of subjects and the low response rate limit the interpretations of the study results. BACKGROUND Hemiplegia after stroke is one of the main dysfunctions in stroke patients. Acupuncture had been widely used for poststroke spastic hemiplegia (PSSH), but the efficiency was unclear. This study aimed to examine the efficiency and safety of acupuncture for individuals with PSSH. METHODS We searched nine databases from their inception to 27th July 2019. Randomized controlled trials (RCTs) of acupuncture for the treatment of PSSH met the screening criteria. The quality of methodology was evaluated by Cochrane's risk of bias tool. RevMan 5.3 was used to perform the meta-analysis. The primary outcome was the Fugl-Myer Assessment (FMA) score, and the secondary outcomes were the Ashworth Scale for Spasticity (ASS) and Barthel Index (BI) scores. To evaluated the safety of acupuncture therapy, researchers scanned the full text to collect adverse events. RESULTS Researchers retrieved 2452 articles in total, after screening, thirty-eight studies with 2628 participants of were included. In this meta-analysis, ess, there were methodological limitations in the included RCTs, and well-designed and large-scale studies should be carried out to confirm our results. BACKGROUND AND PURPOSE The present study aimed to investigate the effect of self-healing training on self-compassion, body image concern, and recovery process in patients with skin cancer. MATERIALS AND METHODS The sample consisted of 34 volunteers who were purposefully selected and then randomly divided into experimental (n = 16) and control (n = 18) groups. The research instrument included the Self-Compassion Scale and Body Image Concern Inventory. The self-healing training intervention was then performed on the experimental group for twelve 90-min sessions. Finally, both groups underwent the post-test. Follow-up was performed two and four months after the post-test. RESULTS Self-healing training significantly increased self-compassion, including self-kindness, self-judgment, and sense of common humanity (p  less then  0.01), and decreased the level of body image concern, isolation, and over-identification (p  less then  0.05). CONCLUSION The self-healing is an appropriate intervention method to increase self-compassion and reduce body image concern and thus accelerate the process of skin cancer recovery. BACKGROUND AND PURPOSE This was a preliminary investigation to investigate potential benefits of group yoga, as past work has indicated that one-on-one yoga can improve functional deficits in adults with brain injury. MATERIALS AND METHODS Participants served as their own controls. Nine participants with chronic brain injury were recruited, and seven (four female) completed the study. Performance measures of balance and mobility and self-reported measures of balance confidence, pain, and occupational performance and satisfaction were used. Data were collected 3 times baseline (study onset), pre-yoga (after an 8-week no-contact period), and post-yoga (after 8 weeks of yoga). Group yoga was led by a yoga instructor/occupational therapist, and sessions lasted 1 h and occurred twice a week. RESULTS No participants withdrew due to adverse effects from yoga. There were no significant changes between baseline and pre-yoga. Significant improvement was observed post-yoga in balance (p = 0.05), mobility (p = 0.03), and self-reported occupational performance (p = 0.04). CONCLUSION We observed significant improvements in balance, mobility, and self-reported occupational performance in adults with chronic brain injury.