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Mitochondrial turnover in the form of mitophagy is emerging as a central process in maintaining cellular function. The degradation of damaged mitochondria through mitophagy is particularly important in cells/tissues that exhibit high energy demands. Skeletal muscle is one such tissue that requires precise turnover of mitochondria in several conditions in order to optimize energy production and prevent bioenergetic crisis. For instance, the formation of skeletal muscle (i.e., myogenesis) is accompanied by robust turnover of low-functioning mitochondria to eventually allow the formation of high-functioning mitochondria. In mature skeletal muscle, alterations in mitophagy-related signaling occur during exercise, aging, and various disease states. Nonetheless, several questions regarding the direct role of mitophagy in various skeletal muscle conditions remain unknown. Furthermore, given the heterogenous nature of skeletal muscle with respect to various cellular and molecular properties, and the plasticity in these properties in various conditions, the involvement and characterization of mitophagy requires more careful consideration in this tissue. Therefore, this review will highlight the known mechanisms of mitophagy in skeletal muscle, and discuss their involvement during myogenesis and various skeletal muscle conditions. This review also provides important considerations for the accurate measurement of mitophagy and interpretation of data in skeletal muscle.Among the variety of post-translational modifications to which microtubules are subjected, the detyrosination/re-tyrosination cycle is specific to tubulin. It is conserved by evolution and characterized by the enzymatic removal and re-addition of a gene-encoded tyrosine residue at the C-terminus of α-tubulin. Detyrosinated tubulin can be further converted to Δ2-tubulin by the removal of an additional C-terminal glutamate residue. Detyrosinated and Δ2-tubulin are carried by stable microtubules whereas tyrosinated microtubules are present on dynamic polymers. The cycle regulates trafficking of many cargo transporting molecular motors and is linked to the microtubule dynamics via regulation of microtubule interactions with specific cellular effectors such as kinesin-13. Here, we give an historical overview of the general features discovered for the cycle. We highlight the recent progress toward structure and functioning of the enzymes that keep the levels of tyrosinated and detyrosinated tubulin in cells, the long-known tubulin tyrosine ligase and the recently discovered vasohibin-SVBP complexes. We further describe how the cycle controls microtubule functions in healthy neurons and cardiomyocytes and how deregulations of the cycle are involved in dysfunctions of these highly differentiated cells, leading to neurodegeneration and heart failure in humans.

Three-dimensional (3D) cell cultures have many applications such as stem cell biology research, new drug discovery, cancer, and Chronic Rhinosinusitis with Nasal Polyps (CRSwNP). This disease is characterized by a significant impact on quality of life and productivity. The diversity of factors that act in the progression of CRSwNP point to the creation of a cell culture model that allows the integration of different cell types with extracellular matrix. This work aimed to create a cell culture model in 3 dimensions (spheroids) for the study of Nasal Polyposis.

Nasal polyp tissue from patients diagnosed with CRSwNP was mechanically dissociated using tweezers and a scalpel and the solution containing cells and small aggregates of nasal polyps was transferred to a Petri dish containing 5 mL of culture medium at the concentration of 10

cells/mL.

The spheroids were cultivated for 20 days, fixed and analyzed using confocal microscopy. In a 3D culture environment, the spheroids were formed both by clustering cells and from small tissue fragments. In the cultures analyzed, the ciliary beat was present from the dissociation of the cells up to 20 days in culture.

Our findings also point to these characteristics showing the environment generated in our study, the cells remained differentiated for a longer time and with ciliary beating. Thus, this work shows that nasal polyp-derived cells can be maintained in a 3D environment, enabling better strategies for understanding CRSwNP in situations similar to those found in vivo.

Laboratory studies.

Laboratory studies.Fat necrosis (FN) is a common complication after autologous breast reconstruction (ABR) using a free flap, which can influence reconstruction outcome and patient satisfaction. Intraoperative near-infrared fluorescence imaging using indocyanine green (ICG) permits the visualization of flap perfusion. The aim of this study was to assess the effect of near-infrared fluorescence on FN incidence in patients undergoing an ABR with a deep inferior epigastric perforator flap (DIEP) and to propose a standard working protocol for this technique. In this prospective study, patients undergoing one-sided ABR with a DIEP were included. The standard DIEP procedure was complemented with near-infrared fluorescence imaging using the fluorescent tracer ICG to evaluate flap perfusion. This cohort was compared to a retrospective cohort of DIEP procedures without near-infrared fluorescence imaging. Patients and surgery characteristics, as well as postoperative complications, were registered and compared. In both cohorts, 24 patients were included. No significant differences were present between patients and surgery characteristics, including no difference in duration of surgery. In the prospective and retrospective group, the incidence of FN was 4.2% and 33%, respectively (p-value = 0.023). Moreover, microsurgeons were positive about using near-infrared fluorescence as it either provided additional information about perfusion or confirmed the clinical assessment. Our pilot study showed a significant decrease of FN in patients undergoing an ABR with a DIEP when near-infrared fluorescence imaging was used to assess flap perfusion. This study provides a standardized working protocol for near-infrared fluorescence imaging. In the future, large multicenter studies should focus on the quantification of near-infrared fluorescence imaging.Bilateral hand amputation (BHA) is a life-changing event that can result in a great degree of loss of function. Prosthetic limb replacement and composite tissue allotransplantation are the treatment options. Understanding the BHA in terms of economic utility will help direct future research and upgrading in healthcare delivery. This is a cross-sectional study in 32 BHA who have completed a minimum of six months after wound healing. The primary objective was to assess the convergent validity of three different health utility (HU) derivation methods, namely the time trade-off (TTO), EuroQol questionnaire (EQ-5D-5L), and EuroQol visual analog scale (EQ-VAS) among BHA. The secondary objective was to correlate the disabilities of arm, shoulder and hand (DASH) scores with the HU scores and see whether the DASH score predicts the HU scores derived by different methods. The mean (SD) HU scores for TTO, VAS, and EQ-5D-5L were 0.34 (0.25), 0.61 (0.25), and 0.46 (0.20), respectively. HU derived by the TTO method displayed a weak correlation with EuroQol-based derivatives (EQ-VAS & EQ-5D-5L). But there was a moderate correlation between values by EQ-VAS & EQ-5D-5L. Hence, the EuroQol HU derivative is preferable to TTO. The mean (SD) of the DASH score was 48.4 (22.9). There was a strong correlation between the DASH scores and HU derived by different methods. Also, the DASH score is seen to be a good predictor of HU scores. This study is the first to derive HU and correlate the DASH with HU scores in the BHA scenario .Decision making about breast reconstruction (BR) is complex. The Patients' Expectations and Goals Assisting Shared Understanding of Surgery (PEGASUS) intervention aims to support shared decision making by helping women and clinicians clarify and discuss their expectations around reconstructive surgery. We conducted a multi-centred sequential trial comparing PEGASUS (n = 52) with usual care (UC) (n = 86) in women considering reconstruction, who completed outcome measures at baseline, and 3, 6 and 12 months post-surgery. The primary outcome was BR-specific quality of life (Breast-Q) 6 months post-intervention. Secondary outcomes were health-related quality of life (EQ-5D-5L), capabilities (ICECAP-A) and decisional regret, compared using t-tests and Cohen's d. Comparative analyses revealed no significant differences between groups in Breast-Q scores at any time point, except for a favourable effect for UC on psychological well-being at 3 months (t = -2.41, p = .019, d= -0.59). Intervention participants reported significantly higher, therefore improved, ICECAP-A (t = -2.13, p = .037, d = -0.45) and EQ VAS (t = -2.28, p = .026, d = -0.49) scores at 12 months compared to UC. Decisional regret was significantly lower in the PEGASUS group compared to the UC group at 6 months (t =2.06, p = .044, d= -0.51), but this was not sustained at 12 months. In conclusion, the PEGASUS intervention offers some benefits to women considering BR. At times, women experienced less decisional regret, improved health-related quality of life and capability well-being. Findings are discussed in the light of fidelity testing and embedding PEGASUS into practice.

Breast augmentation is one of the most frequently performed cosmetic surgery worldwide. Some of the most severe short-term complications after breast augmentation are hematoma and deep surgical site infection. However, these complications are relatively rare; therefore, large patient populations are required to perform statistical analyses. In this study, we provide a detailed analysis of the complications after primary breast augmentation with an emphasis on deep surgical site infection and hematoma.

We retrospectively reviewed the medical records of women who underwent primary breast augmentation without the use of pocket irrigation between 2012 and 2019 in a single private clinic. A cumulative hazard function and a multivariate analysis on the risk of hematoma were performed.

We included 1128 patients in the study. Thirty patients (2.7%) developed postoperative hematoma after a median time of 14h (IQR 5h-9 days). Six patients (0.5%) contracted a deep surgical site infection after a median time of 14 cket irrigation and other risk factors.Free tissue transfer has become routine practice in modern plastic surgery. check details The technique permits surgeons the flexibility to transfer the most suitable tissue for reconstruction. This has become possible largely due to the continued advances in microscope technology. There are however several drawbacks with even the newest traditional operating microscopes. They are usually large, heavy and although highly adjustable often require surgeons to adopt an unnatural and uncomfortable position which many of us have simply learned to live with. We describe the use of a new high-definition 3D camera system (Stortz VITOM 3D) in place of a traditional microscope to perform DIEP flap breast reconstructions in two patients. The use of this equipment has been described in other surgical specialities where a number of its benefits, including improved ergonomics for surgical team, have been highlighted. We explore the specific benefits and considerations for its use in free flap reconstruction of the breast .