
Research article
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In type 1 diabetes, the β-cells that secrete insulin have been destroyed such that daily exogenous insulin administration is required for the control of blood glucose in individuals with the disease. After the development of reliable techniques for the isolation of islets from the human pancreas, islet transplantation has emerged as a therapeutic option, albeit for only a few selected patients largely because there are not enough islets for the millions of patients requiring the treatment, and there is also the need to use immunosuppressive drugs to prevent transplant rejection. In 1980, the concept of islet immunoisolation by microencapsulation was introduced as a technique to overcome these 2 major barriers to islet transplantation. Microencapsulation of islets and transplantation in the peritoneal cavity was then described as a bioartificial pancreas. However, it is difficult to retrieve encapsulated islets transplanted in the peritoneal cavity, thus making it difficult to meet all the criteria for a bioartificial pancreas. A new design of a bioartificial pancreas comprising islets co-encapsulated with angiogenic protein in permselective multilayer alginate-poly-L-ornithine-alginate microcapsules and transplanted in an omentum pouch is described in this paper.
The multilayer alginate-poly-L-ornithine-alginate microcapsules are made with ultrapure alginate using poly-L-ornithine as a semipermeable membrane separating the 2 alginate layers. The inner alginate layer is used to encapsulate the islets, and the outer layer is used to encapsulate angiogenic protein, which would induce neovascularization around the graft within the omentum pouch.
In in vitro studies, we found that both the wild-type and the heparin-binding growth-associated molecule (HBGAM)-fibroblast growth factor-1 chimera can be encapsulated and released in a controlled and sustained manner from the outer alginate layer with a mean diameter in the range of 113 to 164 µm when 1.25% high guluronic acid alginate is used to formulate this outer layer.
We are currently performing in vivo experiments to determine the ability of angiogenic proteins released from this outer layer to induce neovascularization around the grafts in the omentum pouch. We will subsequently examine the effect of co-encapsulation of islets with angiogenic protein on blood glucose control in diabetic animals. It is hoped that addition of tissue engineering to encapsulated islet transplantation will result in long-term survival of the islets and their ability to control blood glucose in type 1 diabetes without the necessity to use risky immunosuppressive drugs to prevent transplant rejection.
Biocompatible, degradable polymer scaffolds combined with cells or biological signals are being investigated as alternatives to traditional options for tissue reconstruction and transplantation. These approaches are already in clinical use as engineered tissues that enhance wound healing and skin regeneration. The continued enhancement of these material strategies is highly dependent on the ability to promote rapid and stable neovascularization (new blood vessel formation) within the scaffold. Whereas neovascularization therapies have shown some promise for the treatment of ischemic tissues, vascularization of polymer scaffolds in tissue engineering strategies provides a unique challenge owing to the volume and the complexity of the tissues targeted. In this article, we examine recent advances in research focused on promoting neovascularization in polymer scaffolds for tissue engineering applications. These approaches include the use of growth factors, cells, and novel surgical approaches to both enhance and control the nature of the vascular networks formed. The continued development of these approaches may lead to new tissue engineering strategies for the generation of skin and other tissues or organs.
Vascular tissue engineering should provide more biocompatible and functional conduits than synthetic vascular grafts. Understanding cell-scaffold interactions and developing an efficient delivery system for growth factors and other biomolecules to control the signaling between the cells and the scaffold are fundamental issues in a wide range of tissue engineering research fields. Type 1 collagen is a natural scaffold extensively used in vascular tissue engineering and is a widely used vehicle in biomolecule delivery. In this article, we will discuss type 1 collagen as a vascular tissue engineering scaffold, describe strategies for elucidating the interaction between cells and type 1 collagen scaffolds using various imaging techniques, and summarize our work on the development of a chimeric collagen-binding growth factor-based local delivery system.
A recent report demonstrated that a laboratory-grown neobladder tissue could be successfully used for cystoplasty in young patients with myelomeningocele who were otherwise healthy. This remarkable achievement portends well for the application of tissue engineering/regenerative medicine technologies to the treatment of end-organ failure due to a variety of causes (ie, congenital, acquired, age or disease related). Nonetheless, the broader clinical use of these groundbreaking technologies awaits improved understanding of endogenous regenerative mechanisms, more detailed knowledge of the boundary conditions that define the current limits for tissue repair and replacement in vivo, and the parallel development of critical enabling technologies (ie, improved cell source, biomaterials, bioreactors). This brief report will review a number of the most salient features and recent developments in this rapidly advancing area of medical research and detail some of our own experience with bladder and skeletal muscle regeneration and replacement as examples that highlight both the promise and challenges facing regenerative medicine/tissue engineering.
Authors have reviewed literature about the management of patients with cardiologic disease occurring secondary to hematologic pathology itself or its therapy, with a focus on infiltration of myocardium in acute and chronic leukemia, lymphoma, multiple myeloma, and hypereosinophilic syndrome. Moreover, they evaluated chemotherapy-associated toxicity, particularly for new drugs such as monoclonal antibody therapy, tyrosine kinase inhibitors, arsenic trioxide, bortezomib, and epigenetic therapy. In fact, cardiac toxicity may range from asymptomatic subclinical abnormalities, such as electrocardiographic changes and left ventricular ejection decline, to life-threatening events and lead to chemotherapy dose reduction and delay and, in some cases, for patients with severe side effects, discontinuation of treatment.
Finally, they discussed on the identification of early markers of cardiac injury and on cardiac stem cell therapy as a promising approach to facilitate myocardial regeneration.
Ischemia-reperfusion (IR) is the restoration of blood flow to a tissue that was formerly deficient of blood flow. Tissue damage after IR is considered an IR injury (IRI). During IR, there is an increased level of cytosolic calcium ([Ca2+]i) due to the release of calcium from mitochondrial, sarcoendoplasmic reticulum, and nuclear organelles. Dantrolene sodium (dantrolene) is a 1-[[[5-(4-nitrophenol)-2-furanyl]methylene]amino]-2, 4-imidazolidinedione sodium salt with a nonspecific mechanism, inhibiting organelle release of Ca2+ into the cytosol. This work reviews the outcomes of administering dantrolene in brain, heart, liver, and kidney animal models of IRI.
An extensive PubMed, MEDLINE, and MEDLAR literature review during the last 30 years on the effect of dantrolene in IRI in animal models was analyzed to determine the clinical implications of this important study. Particular attention was given to dantrolene in heart, brain, liver, and kidney IRI.
Dantrolene shows protective effects in animal models of heart, brain, and potentially liver IRI, reinforcing the importance of calcium homeostasis during IRI. Variations of dose, timing of administration, route of administration, and outcomes between studies make definitive conclusions difficult. The nonspecific mechanism of action of dantrolene may also account for the variation among studies. Lack of studies in the liver and kidney makes any consensus in these organs premature, and thus, emphasis for this review was put on studies of the heart and brain.
Chemerin is a recently discovered metabolic regulator hormone. The pathophysiologic role of this hormone in humans remains unknown. In this study, we have compared plasma chemerin levels in patients with type 2 diabetes mellitus with or without hypertension and in control subjects. We also assessed the association of plasma chemerin with body composition and metabolic parameters in these subjects. Plasma chemerin levels were found to be markedly increased in patients with type 2 diabetes mellitus with hypertension as compared with patients with type 2 diabetes mellitus and normal controls (
Maternal depression affects between 10% and 15% of US mothers. Emerging evidence suggests that variability in symptoms is linked to different risk factors and different pathological subtypes. Building on this research, this study examines manifestations of depression symptoms and risk factors associated with different manifestations among a socioeconomically heterogeneous sample of African American mothers.
Data were collected via telephone interviews with a community sample of 208 self-identified African American women with children 2 to 18 months old. Mothers were screened for depression symptoms using the Center for Epidemiological Studies Depression scale and reported on several psychosocial factors including social support, history of depression, and demographic characteristics. Cluster analysis was used to determine whether there were distinct subtypes of depression symptoms in this sample.
A
Because of its cross-sectional design, this study could not explore the timing and the course of depression symptoms, which may be more closely related to risk and functional impairment than the severity distinction found in this research.
Researchers, pediatricians, and obstetricians working with African American mothers should screen for social support, with the understanding that those with low levels may be at increased risk for severe depression symptoms. Finally, the heterogeneity in symptoms suggests that clinicians should be aware of all depression symptoms among their patients rather than looking for specific, potentially stereotypical symptoms as cues.
The impact of epoetin beta (recombinant human erythropoietin) on brain infarction area (BIA) and neurological status in a rat model of acute ischemic stroke (IS) induced by distal left internal carotid artery occlusion was investigated.
Adult male Sprague-Dawley rats (n = 30) were categorized into group 2 (IS only) and group 3 (IS plus intraperitoneal erythropoietin 5000 IU/kg at 0, 12, and 24 hours after IS). Healthy Sprague-Dawley rats (n = 10) served as group 1.
Analysis of brain tissues showed larger BIA in group 2 than in group 3 (
Erythropoietin significantly limited BIA and improved sensorimotor dysfunction after acute IS.
To detect frequency changes in interleukin 17 (IL-17)+ CD4+ T cells and the amounts of IL-17 in supernatants between baseline and 30 weeks after Infliximab combined with methotrexate (MTX) or MTX-alone therapy.
Flow cytometry was used to analyze the frequency of IL-17+ CD4+ T cells in rheumatoid arthritis (RA) patients and control subjects at baseline and 30 weeks after therapy. Secretion of IL-17 by peripheral blood mononuclear cells was measured by enzyme-linked immunosorbent assay.
The percentages of IL-17+ CD4+T cells were increased in the peripheral blood mononuclear cells of patients with RA compared with healthy subjects. The percentages of IL-17+ CD4+T cells were correlated with the number of swelling joints and C-reactive protein of RA patients. Likewise, concentrations of IL-17 in supernatants from patients with RA were significantly higher compared with those from control subjects. After infliximab combined with MTX or MTX-alone therapy, the number of swelling joints, erythrocyte sedimentation rate, C-reactive protein, rheumatoid factor, and Disease Activity Score 28 decreased significantly compared with baseline. Only in the infliximab + MTX group that the frequency of TH17 cells and concentration of IL-17 decreased.
These data support the hypothesis that infliximab therapy can have an effect on TH17 cells and decrease disease activity.
