0.2mL 8_Strip PCR Tube Caps
- Known as:
- 0.2mL 8_Strip PCR test kit Tube Caps
- Catalog number:
- C-028-Y
- Product Quantity:
- 125 ea
- Category:
- -
- Supplier:
- Bioner
- Gene target:
- 0.2mL 8_Strip PCR Tube Caps
Related genes to: 0.2mL 8_Strip PCR Tube Caps
- Gene:
- CAPS NIH gene
- Name:
- calcyphosine
- Previous symbol:
- -
- Synonyms:
- CAPS1, MGC126562
- Chromosome:
- 19p13.3
- Locus Type:
- gene with protein product
- Date approved:
- 1990-05-31
- Date modifiied:
- 2016-07-18
Related products to: 0.2mL 8_Strip PCR Tube Caps
Related articles to: 0.2mL 8_Strip PCR Tube Caps
- Atherosclerosis is responsible for arterial obstruction and the latter's clinical consequences and can be explored routinely with ultrasound techniques. Ultrasonographic indices (such as the degree of stenosis) have long been included in clinical guidelines on predicting the risk of harmful clinical events and guiding clinical decisions. Given the high availability of ultrasound imaging, a growing number of asymptomatic patients with atherosclerotic plaques (most commonly in the carotid or femoral arteries) are now being screened - often incidentally - and reclassified with regard to the cardiovascular risk. The distinct morphological traits of vulnerable plaques (such as intraplaque hemorrhage, large lipid-rich necrotic cores, thin fibrous caps, inflammatory activity, and neovascularization) enable their detection and characterization with noninvasive ultrasound methods. Recent technological advances have facilitated the detailed assessment of plaque morphological features (particularly in the carotid arteries) and thus have identified markers of vulnerability or rapid progression. Here, we review the recent literature on the noninvasive ultrasound assessment of atherosclerotic plaques, from anatomical foundations to recent advances. The review covers established morphological descriptors, emerging approaches (such as three-dimensional ultrasound, contrast-enhanced ultrasound, noninvasive vascular elastography, and microvascular flow imaging), current limitations, and future avenues for better cardiovascular risk stratification. - Source: PubMed
Publication date: 2026/04/22
Varennes OlivierGoudot GuillaumeSoudet SimonSevestre-Pietri Marie-Antoinette - Doping of calcium phosphates (CaPs) with bioinorganic ions is a widely used strategy to enhance their biological performance in bone regeneration. However, conventional methods for ionic incorporation in CaP scaffolds often require high-temperature treatments or involve multiple complex steps. Here, we present two simple strategies to dope 3D-printed CaP scaffolds via incorporation of ions into the apatitic phase during the hydrolysis of α-tricalcium phosphate (α-TCP) to calcium deficient hydroxyapatite (CDHA). In the first strategy, ions were incorporated directly into the printing ink, whereas in the second, undoped robocasted scaffolds were immersed in ionic solutions, allowing ion incorporation into precipitated CDHA during phase transformation. We investigated several ions, including strontium (Sr), magnesium (Mg), silicon (SiO ) and gallium (Ga). Sr and Ga were successfully incorporated into the scaffolds, either by direct ink doping (Sr) or by soaking in ionic solutions (Sr and Ga). Direct incorporation of Sr in the ink resulted in a higher ion loading and release, enhancing bone formation and bone quality, as evidenced by increased mineral-to-matrix ratio and Young's modulus, as well as osteoinductive properties relative to non-doped scaffolds. Furthermore, we demonstrated for the first time the osteoinductive capacity of Ga in an ectopic model. - Source: PubMed
Publication date: 2026/04/16
Lodoso-Torrecilla IreneMoreno DanielCiucci GaëlMateu-Sanz MiguelYoon Ji-YoungJimenez-Pique EmilioFranch JordiManzanares Maria-CristinaKonka JoannaEspanol MontserratGinebra Maria-Pau - The acetabular labrum contributes to hip joint stability and lubrication, yet its articular surface properties remain poorly characterized. Understanding and replicating these surface features is critical for developing functional labral grafts. - Source: PubMed
Publication date: 2026/04/07
Santschi Matthias X THuber StephanieBienz LukasKünzli SimonSchwank CasimirSnedeker Jess GLeunig MichaelFerguson Stephen J - The resilience of the East Antarctic Ice Sheet (EAIS) to anthropogenic climate change has critical implications for future global sea level. Constraining how the ice sheet has responded to past periods of naturally elevated carbon dioxide and global warmth can provide vital clues as to its future stability. Relic fluvial landscapes preserved beneath the EAIS have been used to place limits on retreat into the Aurora Subglacial Basin (ASB) in the warm Pliocene (approx. 3 million years ago). Here, we use high-resolution ice sheet model (ISM) simulations to better understand if the preservation of this landscape precludes significant glacial retreat in this sector in at least the past 3 million years. We apply a subglacial topography map that resolves mesoscale landscape features within the model and create an ensemble of simulations with varying retreat into the ASB. Nearly all simulations feature predominantly cold-based ice caps on the landforms through warm interglacial periods of the Pliocene, meaning the fluvial landscape could have been preserved, even with significant grounding line retreat into the ASB. This study highlights the utility of well-resolved subglacial landscapes when paired with numerical model simulations in informing past ice sheet retreat. This article is part of the Theo Murphy meeting issue 'Next generation ice-sheet bed measurements'. - Source: PubMed
Knight RebeccaGasson EdwardLittler KateNoble TarynHalberstadt Anna Ruth - The description of the bed topography under the Greenland and Antarctic Ice Sheets has greatly improved over the past decade through new field campaigns and mapping techniques, leading to BedMachine, a high-resolution gridded bed map widely used by the ice-sheet modelling community. Despite regular updates, BedMachine still suffers from uncertainty in ocean bathymetry and mapping artefacts in the ice-sheet interior. We describe here four recent improvements that address these limitations. In Greenland, we use ICESat-2 surface elevation time series to construct an ensemble of bed elevations that captures finer bed details. In Antarctica, we use Ice-Flow Perturbation Analysis in the interior. This approach provides an estimate of the bed topography using the surface expression of mesoscale bedforms. For periphery ice caps and the Antarctic Peninsula, we use the machine learning-based IceBoost approach, which is capable of inferring fine details based on surface features. Finally, over the continental shelf, we use a new gravity inversion product from the Antarctic Gravity Anomaly Grid, which provides significant refinements to the bathymetry around the entire ice sheet. Overall, these represent major improvements in the description of the bed topography and bathymetry for both ice sheets. This article is part of the Theo Murphy meeting issue 'Next generation ice-sheet bed measurements'. - Source: PubMed
Morlighem MathieuCharrassin RaphaelleMaffezzoli NiccoloMillan RomainOckenden HelenSchlegel Nicole-JeanneSeroussi HeleneWood Mike