Contribution of Stretch to the Change of Activation Properties of Muscle Fibers in the Diaphragm at the Transition from Fetal to Neonatal Life

The transition from fetal to postnatal life involves clearance of liquid from the lung and airways, and rapid formation of a functional residual capacity. Despite the importance of the diaphragm in this process, the impact of birth on the mechanical and functional activity of its muscle fibers is not known. This study determined the contractile characteristics of individual “skinned” diaphragm fibers from 70 days (0.47) gestation to after birth in sheep. Based on differential sensitivity to the divalent ions calcium (Ca2+) and strontium (Sr2+), all fibers in the fetal diaphragm were classified as “fast,” whereas fibers from the adult sheep diaphragm exhibited a “hybrid” phenotype where both “fast” and “slow” characteristics were present within each single fiber. Transition to the hybrid phenotype occurred at birth, was evident after only 40 min of spontaneous breathing, and could be induced by simple mechanical stretch of diaphragm fibers from near-term fetuses (∼147 days gestation). Both physical stretch of isolated fibers, and mechanical ventilation of the fetal diaphragm in situ, significantly increased sensitivity to Ca2+ and Sr2+, maximum force generating capacity, and decreased passive tension in near-term and preterm fetuses; however, only fibers from near-term fetuses showed a complete transition to a “hybrid” activation profile. These findings suggest that stretch associated with the transition from a liquid to air-filled lung at birth induces physical changes of proteins determining the activation and elastic properties of the diaphragm. These changes may allow the diaphragm to meet the increased mechanical demands of breathing immediately after birth

Second order SUSY transformations with `complex energies'

Second order supersymmetry transformations which involve a pair of complex conjugate factorization energies and lead to real non-singular potentials are analyzed. The generation of complex potentials with real spectra is also studied. The theory is applied to the free particle, one-soliton well and one-dimensional harmonic oscillator.Comment: 11 pages, 2 figures, submitted on 23 August 2002 to Phys. Lett.

Effective nephroprotection against acute kidney injury with a star-shaped polyglutamate-curcuminoid conjugate

The lack of efective pharmacological treatments for acute kidney injury (AKI) remains a signifcant public health problem. Given the involvement of apoptosis and regulated necrosis in the initiation and progression of AKI, the inhibition of cell death may contribute to AKI prevention/recovery. Curcuminoids are a family of plant polyphenols that exhibit attractive biological properties that make them potentially suitable for AKI treatment. Now, in cultured tubular cells, we demonstrated that a crosslinked self-assembled star-shaped polyglutamate (PGA) conjugate of bisdemethoxycurcumin (StPGA-CL-BDMC) inhibits apoptosis and necroptosis induced by Tweak/TNFα/IFNγ alone or concomitant to caspase inhibition. St-PGA-CL-BDMC also reduced NF-κB activation and subsequent gene transcription. In vivo, St-PGA-CL-BDMC prevented renal cell loss and preserved renal function in mice with folic acid-induced AKI. Mechanistically, St-PGA-CL-BDMC inhibited AKI-induced apoptosis and expression of ferroptosis markers and also decreased the kidney expression of genes involved in tubular damage and infammation, while preserving the kidney expression of the protective factor, Klotho. Thus, due to renal accumulation and attractive pharmacological properties, the application of PGAbased therapeutics may improve nephroprotective properties of current AKI treatmentsTis work was supported by grants from the Instituto de Salud Carlos III, FEDER funds: PI16/02057, PI16/01900, PI18/01133, PI19/00815, ISCIII RETIC REDINREN RD16/0009; Sociedad Española de Nefrología; FRIAT; Comunidad de Madrid en Biomedicina B2017/BMD-3686 CIFRA2-CM; ERA-PerMed-JTC2018 (AC18/00071; DTS18/00032); Spanish Ministry of Economy and Competitiveness (Grant numbers SAF2013-44848-R, SAF2016-80427-R). Partly co-funded by FEDER (PO FEDER Valencian Community - 2014–2020

iTools: A Framework for Classification, Categorization and Integration of Computational Biology Resources

The advancement of the computational biology field hinges on progress in three fundamental directions – the development of new computational algorithms, the availability of informatics resource management infrastructures and the capability of tools to interoperate and synergize. There is an explosion in algorithms and tools for computational biology, which makes it difficult for biologists to find, compare and integrate such resources. We describe a new infrastructure, iTools, for managing the query, traversal and comparison of diverse computational biology resources. Specifically, iTools stores information about three types of resources–data, software tools and web-services. The iTools design, implementation and resource meta - data content reflect the broad research, computational, applied and scientific expertise available at the seven National Centers for Biomedical Computing. iTools provides a system for classification, categorization and integration of different computational biology resources across space-and-time scales, biomedical problems, computational infrastructures and mathematical foundations. A large number of resources are already iTools-accessible to the community and this infrastructure is rapidly growing. iTools includes human and machine interfaces to its resource meta-data repository. Investigators or computer programs may utilize these interfaces to search, compare, expand, revise and mine meta-data descriptions of existent computational biology resources. We propose two ways to browse and display the iTools dynamic collection of resources. The first one is based on an ontology of computational biology resources, and the second one is derived from hyperbolic projections of manifolds or complex structures onto planar discs. iTools is an open source project both in terms of the source code development as well as its meta-data content. iTools employs a decentralized, portable, scalable and lightweight framework for long-term resource management. We demonstrate several applications of iTools as a framework for integrated bioinformatics. iTools and the complete details about its specifications, usage and interfaces are available at the iTools web page http://iTools.ccb.ucla.edu

Werther

Johann Wolfgang Goethe'nin Malumat'ta yayımlanan Werther adlı romanının ilk ve son tefrikalarıTefrikanın devamına rastlanmamış, tefrika yarım kalmıştır

RICORS2040 : The need for collaborative research in chronic kidney disease

Chronic kidney disease (CKD) is a silent and poorly known killer. The current concept of CKD is relatively young and uptake by the public, physicians and health authorities is not widespread. Physicians still confuse CKD with chronic kidney insufficiency or failure. For the wider public and health authorities, CKD evokes kidney replacement therapy (KRT). In Spain, the prevalence of KRT is 0.13%. Thus health authorities may consider CKD a non-issue: very few persons eventually need KRT and, for those in whom kidneys fail, the problem is 'solved' by dialysis or kidney transplantation. However, KRT is the tip of the iceberg in the burden of CKD. The main burden of CKD is accelerated ageing and premature death. The cut-off points for kidney function and kidney damage indexes that define CKD also mark an increased risk for all-cause premature death. CKD is the most prevalent risk factor for lethal coronavirus disease 2019 (COVID-19) and the factor that most increases the risk of death in COVID-19, after old age. Men and women undergoing KRT still have an annual mortality that is 10- to 100-fold higher than similar-age peers, and life expectancy is shortened by ~40 years for young persons on dialysis and by 15 years for young persons with a functioning kidney graft. CKD is expected to become the fifth greatest global cause of death by 2040 and the second greatest cause of death in Spain before the end of the century, a time when one in four Spaniards will have CKD. However, by 2022, CKD will become the only top-15 global predicted cause of death that is not supported by a dedicated well-funded Centres for Biomedical Research (CIBER) network structure in Spain. Realizing the underestimation of the CKD burden of disease by health authorities, the Decade of the Kidney initiative for 2020-2030 was launched by the American Association of Kidney Patients and the European Kidney Health Alliance. Leading Spanish kidney researchers grouped in the kidney collaborative research network Red de Investigación Renal have now applied for the Redes de Investigación Cooperativa Orientadas a Resultados en Salud (RICORS) call for collaborative research in Spain with the support of the Spanish Society of Nephrology, Federación Nacional de Asociaciones para la Lucha Contra las Enfermedades del Riñón and ONT: RICORS2040 aims to prevent the dire predictions for the global 2040 burden of CKD from becoming true

What should the characteristics and attributes of an accredited nephrology training programme be? looking for high standards: table 1.

The Renal Section of the European Union of Medical Specialists is working towards harmonization and optimization of nephrology training across Europe and its Mediterranean borders. In addition to the need for harmonization of the heterogeneous time dedicated to training, it is necessary to ensure that the learning environment is of a sufficiently high standard to develop skilled specialists. Thus, there is a need to review the core educational infrastructure and resources that should be provided to trainees in order to be considered centres of excellence for nephrology training. This review addresses most of the characteristics and attributes that constitute a high-calibre training centre of excellence, considering that a training centre might not represent a single institution, but a network of institutions that provide a coordinated and complete curriculum to the trainee. The training institution should provide, apart from the classical current nephrological facilities (clinical nephrology, haemodialysis, peritoneal dialysis and transplantation), a number of other complementary facilities, including immunology, nephropathology-with a dedicated and expert renal pathologist-all the specialities of general medicine and general surgery and, in particular, vascular surgery, radiology and interventional radiology specialist services (renal biopsy, renal ultrasound and permanent vascular access) and intensive care unit. In addition to clinical training, a training centre of excellence should offer research facilities to allow trainees the opportunity to be involved in epidemiological, clinical, translational or basic scientific research. The training centres should ideally hold a certification of training accreditation. If the European and its Mediterranean border countries wish to guarantee a high standard of training in nephrology, their national health services need to recognize their responsibility towards the importance of doctor training, providing enough time for educational activities and investing in the resources required for high-standard specialist training

What should the characteristics and attributes of an accredited nephrology training programme be? looking for high standards: table 1.

The Renal Section of the European Union of Medical Specialists is working towards harmonization and optimization of nephrology training across Europe and its Mediterranean borders. In addition to the need for harmonization of the heterogeneous time dedicated to training, it is necessary to ensure that the learning environment is of a sufficiently high standard to develop skilled specialists. Thus, there is a need to review the core educational infrastructure and resources that should be provided to trainees in order to be considered centres of excellence for nephrology training. This review addresses most of the characteristics and attributes that constitute a high-calibre training centre of excellence, considering that a training centre might not represent a single institution, but a network of institutions that provide a coordinated and complete curriculum to the trainee. The training institution should provide, apart from the classical current nephrological facilities (clinical nephrology, haemodialysis, peritoneal dialysis and transplantation), a number of other complementary facilities, including immunology, nephropathology-with a dedicated and expert renal pathologist-all the specialities of general medicine and general surgery and, in particular, vascular surgery, radiology and interventional radiology specialist services (renal biopsy, renal ultrasound and permanent vascular access) and intensive care unit. In addition to clinical training, a training centre of excellence should offer research facilities to allow trainees the opportunity to be involved in epidemiological, clinical, translational or basic scientific research. The training centres should ideally hold a certification of training accreditation. If the European and its Mediterranean border countries wish to guarantee a high standard of training in nephrology, their national health services need to recognize their responsibility towards the importance of doctor training, providing enough time for educational activities and investing in the resources required for high-standard specialist training

What should the characteristics and attributes of an accredited nephrology training programme be? looking for high standards: table 1.

The Renal Section of the European Union of Medical Specialists is working towards harmonization and optimization of nephrology training across Europe and its Mediterranean borders. In addition to the need for harmonization of the heterogeneous time dedicated to training, it is necessary to ensure that the learning environment is of a sufficiently high standard to develop skilled specialists. Thus, there is a need to review the core educational infrastructure and resources that should be provided to trainees in order to be considered centres of excellence for nephrology training. This review addresses most of the characteristics and attributes that constitute a high-calibre training centre of excellence, considering that a training centre might not represent a single institution, but a network of institutions that provide a coordinated and complete curriculum to the trainee. The training institution should provide, apart from the classical current nephrological facilities (clinical nephrology, haemodialysis, peritoneal dialysis and transplantation), a number of other complementary facilities, including immunology, nephropathology-with a dedicated and expert renal pathologist-all the specialities of general medicine and general surgery and, in particular, vascular surgery, radiology and interventional radiology specialist services (renal biopsy, renal ultrasound and permanent vascular access) and intensive care unit. In addition to clinical training, a training centre of excellence should offer research facilities to allow trainees the opportunity to be involved in epidemiological, clinical, translational or basic scientific research. The training centres should ideally hold a certification of training accreditation. If the European and its Mediterranean border countries wish to guarantee a high standard of training in nephrology, their national health services need to recognize their responsibility towards the importance of doctor training, providing enough time for educational activities and investing in the resources required for high-standard specialist training