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Craniofacial volumetric muscle loss (VML) injuries can occur as a result of severe trauma, surgical excision, inflammation, and congenital or other acquired conditions. Treatment of craniofacial VML involves surgical, functional muscle transfer. However, these procedures are unable to restore normal function, sensation, or expression, and more commonly, these conditions go untreated. Very little research has been conducted on skeletal muscle regeneration in animal models of craniofacial VML. This manuscript describes a rat model for the study of craniofacial VML injury and a protocol for the histological evaluation of biomaterials in the treatment of these injuries. Liquid hydrogel and freeze-dried scaffolds are applied at the time of surgical VML creation, and masseters are excised at terminal time points up to 12 weeks with high retention rates and negligible complications. Hematoxylin and eosin (HE), Masson's Trichrome, and immunohistochemical analysis are used to evaluate parameters of skeletal muscle regeneration as well as biocompatibility and immunomodulation. While we demonstrate the study of a hyaluronic-acid-based hydrogel, this model provides a means for evaluating subsequent iterations of materials in VML injuries.
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Modelos Animales de Enfermedad , Hidrogeles , Músculo Masetero , Animales , Ratas , Músculo Masetero/patología , Hidrogeles/química , Materiales Biocompatibles/química , Andamios del Tejido/química , Regeneración/fisiología , Ratas Sprague-Dawley , Bioingeniería/métodos , Ácido Hialurónico/química , MasculinoRESUMEN
Current treatment options for craniofacial volumetric muscle loss (VML) have disadvantages and cannot fully restore normal function. Bio-inspired semisynthetic acrylated hyaluronic acid (AcHyA) hydrogel, which fills irregularly shaped defects, resembles an extracellular matrix, and induces a minimal inflammatory response, has shown promise in experimental studies of extremity VML. We therefore sought to study AcHyA hydrogel in the treatment of craniofacial VML. For this, we used a novel model of masseter VML in the rat. Following the creation of a 5 mm × 5 mm injury to the superficial masseter and administration of AcHyA to the wound, masseters were explanted between 2 and 16 weeks postoperatively and were analyzed for evidence of muscle regeneration including fibrosis, defect size, and fiber cross-sectional area (FCSA). At 8 and 16 weeks, masseters treated with AcHyA showed significantly less fibrosis than nonrepaired controls and a smaller decrease in defect size. The mean FCSA among fibers near the defect was significantly greater among hydrogel-repaired than control masseters at 8 weeks, 12 weeks, and 16 weeks. These results show that the hydrogel mitigates the fibrotic healing response and wound contracture. Our findings also suggest that hydrogel-based treatments have potential use as a treatment for the regeneration of craniofacial VML and demonstrate a system for evaluating subsequent iterations of materials in VML injuries.
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Therapeutic plasma exchange (TPE) has traditionally been used to selectively remove pathologic contents including autoantibodies, abnormal proteins, immune complexes, or toxins from a patient's plasma. In addition to the removal of molecular contributors to disease, fluid replacement and infusion of beneficial plasma constituents including albumin can be tapered based on the pathophysiologic mechanisms of the offending disease. This treatment modality has shown efficacy in symptomatic relief and slowing of disease progression for various neurologic, immunologic, and hematologic diseases. This review outlines the rationale for TPE in the treatment of Alzheimer's Disease (AD) through a potential mechanism leveraging the concentration gradient of amyloid ß peptides and the infusion of albumin, and critically reviews the clinical evidence for treatment of AD using TPE and albumin replacement. This review also highlights potential sources of bias that must be considered in conjunction with the evidence of efficacy for the use of TPE in AD.
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Enfermedad de Alzheimer , Intercambio Plasmático , Humanos , Albúminas/uso terapéutico , Enfermedad de Alzheimer/terapia , Péptidos beta-Amiloides/metabolismo , PlasmaféresisRESUMEN
Most deaths (80%) from cervical cancer occur in regions lacking adequate screening infrastructures or ready access to them. In contrast, most developed countries now embrace human papillomavirus (HPV) analyses as standalone screening; this transition threatens to further widen the resource gap. Methods: We describe the development of a DNA-focused digital microholography platform for point-of-care HPV screening, with automated readouts driven by customized deep-learning algorithms. In the presence of high-risk HPV 16 or 18 DNA, microbeads were designed to bind the DNA targets and form microbead dimers. The resulting holographic signature of the microbeads was recorded and analyzed. Results: The HPV DNA assay showed excellent sensitivity (down to a single cell) and specificity (100% concordance) in detecting HPV 16 and 18 DNA from cell lines. Our deep learning approach was 120-folder faster than the traditional reconstruction method and completed the analysis in < 2 min using a single CPU. In a blinded clinical study using patient cervical brushings, we successfully benchmarked our platform's performance to an FDA-approved HPV assay. Conclusions: Reliable and decentralized HPV testing will facilitate cataloguing the high-risk HPV landscape in underserved populations, revealing HPV coverage gaps in existing vaccination strategies and informing future iterations.
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Cuello del Útero/virología , Aprendizaje Profundo , Neoplasias del Cuello Uterino/diagnóstico , Cuello del Útero/patología , Detección Precoz del Cáncer , Femenino , Papillomavirus Humano 16/patogenicidad , Papillomavirus Humano 18/patogenicidad , Humanos , Papillomaviridae/patogenicidad , Sistemas de Atención de PuntoRESUMEN
PURPOSE: Transamniotic stem cell therapy (TRASCET) with select mesenchymal stem cells (MSCs) has been shown to induce partial or complete skin coverage of spina bifida in rodents. Clinical translation of this emerging therapy hinges on its efficacy in larger animal models. We sought to study TRASCET in a model requiring intra-amniotic injections 60 times larger than those performed in the rat. METHODS: Rabbit fetuses (nâ¯=â¯65) with surgically created spina bifida were divided into three groups. One group (untreated) had no further manipulations. Two groups received volume-matched intra-amniotic injections of either saline or a concentrated suspension of amniotic fluid MSCs (afMSCs) at the time of operation. Infused afMSCs consisted of banked heterologous rabbit afMSCs with mesenchymal identity confirmed by flow cytometry, labeled with green fluorescent protein. Defect coverage at term was blindly categorized only if the presence of a distinctive neoskin was confirmed histologically. Statistical comparisons were by logistic regression and the likelihood ratio test. RESULTS: Among survivors with spina bifida (nâ¯=â¯19), there were statistically significant higher rates of defect coverage (all partial) in the afMSC group when compared with the saline and untreated groups (0-50%; pâ¯=â¯0.022-0.036), with no difference between the saline and untreated groups (pâ¯=â¯1.00). Donor afMSCs were identified locally, though sparsely and not in the neoskin. CONCLUSIONS: Concentrated intra-amniotic injection of amniotic mesenchymal stem cells can induce partial coverage of experimental spina bifida in a leporine model. Transamniotic stem cell therapy may become a feasible strategy in the prenatal management of spina bifida. LEVEL OF EVIDENCE: N/A (animal and laboratory study).
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Terapias Fetales/métodos , Trasplante de Células Madre Mesenquimatosas , Disrafia Espinal/terapia , Amnios , Líquido Amniótico/citología , Animales , Modelos Animales de Enfermedad , Femenino , Embarazo , Conejos , Trasplante HeterólogoRESUMEN
PURPOSE: We sought to examine donor mesenchymal stem cell (MSC) kinetics after transamniotic stem cell therapy (TRASCET) in experimental spina bifida. METHODS: Pregnant Sprague-Dawley dams exposed to retinoic acid for the induction of fetal neural tube defects received volume-matched intra-amniotic injections on gestational day 17 (E17; term=E22): either amniotic fluid MSCs (afMSCs) labeled with a luciferase reporter gene (n=78), or luciferase protein alone (n=66). Samples from twelve organ systems from each surviving fetus with spina bifida (total n=60) were screened via microplate luminometry at term. RESULTS: Donor afMSCs were identified exclusively in the placenta, umbilical cord, spleen, bone marrow, hip bones, defect, and brain. Luminometry was negative in control fetuses receiving luciferase alone (p<0.001). Signal intensity in relative light units (RLUs) was moderately correlated between the defect and the hip bones (rho=0.38, p=0.048), and between the placenta and the brain (rho=0.40, p=0.038). CONCLUSIONS: Amniotic mesenchymal stem cells engraft to specific sites after concentrated intra-amniotic injection in the setting of spina bifida. A hematogenous route encompassing the bone marrow as well as distant central nervous system homing are fundamental constituents of cell trafficking. These findings must be considered during eventual patient selection for transamniotic stem cell therapy in the prenatal management of spina bifida.
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Movimiento Celular , Células Madre Fetales/trasplante , Terapias Fetales/métodos , Trasplante de Células Madre Mesenquimatosas/métodos , Disrafia Espinal/terapia , Líquido Amniótico/citología , Animales , Femenino , Células Madre Fetales/fisiología , Células Madre Mesenquimatosas/fisiología , Embarazo , Ratas Endogámicas Lew , Ratas Sprague-Dawley , Disrafia Espinal/embriologíaRESUMEN
The identification of patients with aggressive cancer who require immediate therapy is a health challenge in low-income and middle-income countries. Limited pathology resources, high healthcare costs and large-case loads call for the development of advanced standalone diagnostics. Here, we report and validate an automated, low-cost point-of-care device for the molecular diagnosis of aggressive lymphomas. The device uses contrast-enhanced microholography and a deep-learning algorithm to directly analyse percutaneously obtained fine-needle aspirates. We show the feasibility and high accuracy of the device in cells, as well as the prospective validation of the results in 40 patients clinically referred for image-guided aspiration of nodal mass lesions suspicious for lymphoma. Automated analysis of human samples with the portable device should allow for the accurate classification of patients with benign and malignant adenopathy.
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BACKGROUND/PURPOSE: Transamniotic stem cell therapy (TRASCET) with amniotic fluid mesenchymal stem cells (afMSCs) has been shown to mitigate bowel damage in a rodent model of gastroschisis. As a prerequisite to clinical translation, we sought to study TRASCET in a larger animal model. METHODS: New Zealand rabbit fetuses (n=64) with surgically created gastroschisis were divided into three groups. One group (untreated) had no further manipulations. Two groups received volume-matched intraamniotic injections of either saline or a suspension of afMSCs. Nonmanipulated fetuses served as controls. Histomorphologic measurements of intestinal damage, along with biochemical profiling of inflammation markers, were performed at term. Statistical comparisons were by Fisher's exact test, ANOVA and the Wald test (P<0.05). RESULTS: Overall survival was 62.5%. Segmental and total intestinal wall thicknesses were significantly decreased in the afMSC group compared with the untreated and saline groups (all P<0.001), with no significant differences between untreated and saline groups (P=0.24 to 1.00, depending on layer). Muscularis and serosal layers were significantly thicker in the afMSC group than in normal controls (P=0.045 and P<0.001, respectively). CONCLUSIONS: Concentrated intraamniotic injection of afMSC lessens, yet does not prevent, intestinal damage in a leporine model of gastroschisis. TRASCET may become a valuable strategy in the management of gastroschisis. LEVEL OF EVIDENCE: N/A - animal/experimental studies.