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of the patients with adverse local tissue reactions and could be use as diagnostic marker. In conclusion we define the cells of the hip joint as key players in triggering the adverse reactions to hip implants and providing biomarkers for early diagnosis of adverse reactions to hip implants.Hard tissue engineering has evolved over the past decades, with multiple approaches being explored and developed. Despite the rapid development and success of advanced 3D cell culture, 3D printing technologies and material developments, a gold standard approach to engineering and regenerating hard tissue substitutes such as bone, dentin and cementum, has not yet been realised. One such strategy that differs from conventional regenerative medicine approach of other tissues, is the in vitro mineralisation of collagen templates in the absence of cells. Collagen is the most abundant protein within the human body and forms the basis of all hard tissues. Once mineralised, collagen provides important support and protection to humans, for example in the case of bone tissue. Multiple in vitro fabrication strategies and mineralisation approaches have been developed and their success in facilitating mineral deposition on collagen to achieve bone-like scaffolds evaluated. Critical to the success of such fabrication and bt is selected, the extraction techniques used and the native fibril forming potential retained to create reconstituted collagen scaffolds. This review synthesises current best practises in material sourcing, processing, mineralisation strategies and fabrication techniques, and offers insights into how these can best be exploited in future studies to successfully mineralise collagen templates.In living tissues, mechanical stiffness and biological function are intrinsically linked. Alterations in the stiffness of tissues can induce pathological interactions that affect cellular activity and tissue function. Underlying connections between tissue stiffness and disease highlights the importance of accurate quantitative characterizations of soft tissue mechanics, which can improve our understanding of disease and inform therapeutic development. In particular, accurate measurement of lung mechanical properties has been especially challenging due to the anatomical and mechanobiological complexities of the lung. Discrepancies between measured mechanical properties of dissected lung tissue samples and intact lung tissues in vivo has limited the ability to accurately characterize integral lung mechanics. Here, we report a non-destructive vacuum-assisted method to evaluate mechanical properties of soft biomaterials, including intact tissues and hydrogels. Using this approach, we measured elastic moduli of rato correlate lung tissue mechanics with tissue disruption, and to assess the stiffness of biomaterials. This method can be used to inform the development of tissue-mimetic materials for use in therapeutics and disease models, and could potentially be applied for in-situ evaluation of tissue stiffness as a diagnostic or prognostic tool.Cell sheet technology and magnetic based tissue engineering hold the potential to become instrumental in developing magnetically responsive living tissues analogues that can be potentially used both for modeling and therapeutical purposes. Cell sheet constructions more closely recreate physiological niches, through the preservation of contiguous cells and cell-ECM interactions, which assist the cellular guidance in regenerative processes. We herein propose to use magnetically assisted cell sheets (magCSs) constructed with human tendon-derived cells (hTDCs) and magnetic nanoparticles to study inflammation activity upon magCSs exposure to IL-1β, anticipating its added value for tendon disease modeling. Our results show that IL-1β induces an inflammatory profile in magCSs, supporting its in vitro use to enlighten inflammation mediated events in tendon cells. Moreover, the response of magCSs to IL-1β is modulated by pulsed electromagnetic field (PEMF) stimulation, favoring the expression of anti-inflammatory gene-magCSs hold evidence for immunomodulatory properties and to become a living tendon model envisioning tendon regenerative therapies.Nanostructures decorated with antibodies (Abs) are applied in bioimaging and therapeutics. However, most covalent conjugation strategies affect Abs functionality. In this study, we aimed to create protein-based nanoparticles to which intact Abs can be attached through tight, specific, and noncovalent interactions. Initially considered waste products, bacterial inclusion bodies (IBs) have been used in biotechnology and biomedicine. However, the amyloid-like nature of IBs limits their functionality and raises safety concerns. To bypass these obstacles, we have recently developed highly functional α-helix-rich IBs exploiting the natural self-assembly capacity of coiled-coil domains. We used this approach to create spherical, submicrometric, biocompatible and fluorescent protein nanoparticles capable of capturing Abs with high affinity. We showed that these IBs can be exploited for Ab-directed cell targeting. Simultaneous decoration of the nanoparticles with two different Abs in a controllable ratio enabled the construction of a bispecific antibody mimic that redirected T lymphocytes specifically to cancer cells. Overall, we describe an easy and cost-effective strategy to produce multivalent, traceable protein nanostructures with the potential to be used for biomedical applications. STATEMENT OF SIGNIFICANCE Functional inclusion bodies (IBs) are promising platforms for biomedical and biotechnological applications. These nanoparticles are usually sustained by amyloid-like interactions, which imposes some limitations on their use. In this work, we exploit the natural coiled-coil self-assembly properties to create highly functional, nonamyloid, and fluorescent IBs capable of capturing antibodies. These protein-based nanoparticles are successfully used to specifically and simultaneously target two unrelated cell types and bring them close together, becoming a technology with potential application in bioimaging and immunotherapy.Diseases of small diameter blood vessels encompass the largest portion of cardiovascular diseases, with over 4.2 million people undergoing autologous vascular grafting every year. However, approximately one third of patients are ineligible for autologous vascular grafting due to lack of suitable donor vasculature. Acellular extracellular matrix (ECM) scaffolds derived from xenogeneic vascular tissue have potential to serve as ideal biomaterials for production of off-the-shelf vascular grafts capable of eliminating the need for autologous vessel harvest. A modified antigen removal (AR) tissue process, employing aminosulfabetaine-16 (ASB-16) was used to create off-the-shelf small diameter ( less then 3 mm) vascular graft from bovine saphenous vein ECM scaffolds with significantly reduced antigenic content, while retaining native vascular ECM protein structure and function. Elimination of native tissue antigen content conferred graft-specific adaptive immune avoidance, while retention of native ECM protein macrous tissue poses significant complications due to tissue harvest and limited availability. Developing an alternative vessel for use for the treatment of small diameter vessel diseases can potentially increase the success rate of autologous vascular grafting by eliminating complications related to the use of autologous vessel and increased availability. This manuscript demonstrates the potential of non-antigenic extracellular matrix (ECM) scaffolds derived from xenogeneic vascular tissue as off-the-shelf vascular grafts for the treatment of small diameter vascular diseases.

Myomectomy is the gold standard treatment for patients with symptomatic fibroids who desire fertility preservation. Given the relatively recent application of robotic surgery in the field of gynecology, there is only a small amount of data describing fertility outcomes after robotic-assisted laparoscopic myomectomy (RALM). The objective of this study was to determine the pregnancy rate in patients trying to conceive after RALM.

A single-center, retrospective case series.

Department of Obstetrics and Gynecology, St. Michael's Hospital, Toronto, Ontario, Canada.

All patients who underwent RALM between October 2008 and September 2015 and who consented to a telephone interview were included.

None. read more The primary outcome was pregnancy rate after RALM. Secondary outcomes included whether patients underwent fertility treatment, rate of live births after RALM, rate of spontaneous abortion mode of delivery in pregnancies following RALM, obstetric complications, and symptoms experienced postoperatively.

A tota outcomes after RALM and should aim to identify variables that predict pregnancy.

To identify drivers of disparities among patients undergoing surgical management of fibroids when stratified by self-identified patient race.

This is a retrospective IRB-approved chart review of all patients who underwent a myomectomy at a large academic center. Surgical approach to myomectomy was classified as abdominal, laparoscopic, or robotic-assisted laparoscopic. Fibroid burden was quantified preoperatively using uterine volume, intra-operatively by number of fibroids listed on operative report, and postoperatively by fibroid weight from pathology reports.

A large tertiary care hospital containing a comprehensive fibroid treatment center.

265 white patients and 121 African American patients who underwent a myomectomy between January 2012 and October 2018 were included in the study population.

Abdominal, laparoscopic, and robotic-assisted myomectomy. Laparoscopic and robotic-assisted myomectomy were classified as minimally invasive myomectomy. Multivariable logistic regression models and a propnt when controlling for fibroid burden measured by preoperative, intraoperative, or postoperative methods of measurement. Further studies are needed to better characterize this disparity at other hospitals, and to investigate ways to increase access and equity among patients undergoing minimally invasive myomectomy.

In this population, African American women had a higher fibroid burden as compared to white women. When matched for fibroid burden, however, there was no statistically significant difference between rates of minimally invasive myomectomy and abdominal myomectomy. This finding was consistent when controlling for fibroid burden measured by preoperative, intraoperative, or postoperative methods of measurement. Further studies are needed to better characterize this disparity at other hospitals, and to investigate ways to increase access and equity among patients undergoing minimally invasive myomectomy.

Indications and techniques of rehabilitation differ widely across types of lumbar surgery, including timing (before or after surgery) and prescriptions (surgeons but also medical or paramedical professionals).

This project aimed to build consensual recommendations for practice in this context.

The SOFMER methodology was used to establish recommendations for physical medicine and rehabilitation a steering committee defined the types of lumbar surgery involved and developed the main questions to be addressed; a scientific committee performed a literature review for grading evidence and proposed the first version of recommendations, which were discussed during a dedicated session at the national Physical and Rehabilitation Medicine congress; then an e-Delphi method with cross-professional experts was used to finalise recommendations and reach a multidisciplinary consensus.

The main questions developed were the value of rehabilitation before and after surgery, timing and type of rehabilitation, benefit of supervision and instrumental rehabilitation, value of patient education, and complementary interventions concerning rehabilitation for discectomy, fusion, and disc prosthesis (excluding decompression for spinal stenosis).

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