Timely and accurate forecasts of tropical cyclones (TCs, i.e., hurricanes and typhoons) are of great importance for risk mitigation. Although in the past two decades there has been steady improvement ...in track prediction, improvement on intensity prediction is still highly challenging. Cooling of the upper ocean by TC‐induced mixing is an important process that impacts TC intensity. Based on detail in situ air‐deployed ocean and atmospheric measurement pairs collected during the Impact of Typhoons on the Ocean in the Pacific (ITOP) field campaign, we modify the widely used Sea Surface Temperature Potential Intensity (SST_PI) index by including information from the subsurface ocean temperature profile to form a new Ocean coupling Potential Intensity (OC_PI) index. Using OC_PI as a TC maximum intensity predictor and applied to a 14 year (1998–2011) western North Pacific TC archive, OC_PI reduces SST_PI‐based overestimation of archived maximum intensity by more than 50% and increases the correlation of maximum intensity estimation from r2 = 0.08 to 0.31. For slow‐moving TCs that cause the greatest cooling, r2 increases to 0.56 and the root‐mean square error in maximum intensity is 11 m s−1. As OC_PI can more realistically characterize the ocean contribution to TC intensity, it thus serves as an effective new index to improve estimation and prediction of TC maximum intensity.
Key Points
Current potential intensity index considers only ocean's surface contribution
Inclusion of ocean's subsurface information to improve estimation
Based on a valuable in situ data set from the ITOP field campaign
An optimized bidirectional pumping fiber amplifier is demonstrated to achieve low-frequency intensity noise suppression and effective power enhancement simultaneously. Based on the concept analysis ...of the gain saturation effect, the influence of input signal power and pump power on intensity noise suppression is investigated and optimized systematically. Further combining with the optimization of the pumping configuration to achieve the even-distribution gain, the relative intensity noise (RIN) of 1083 nm single-frequency fiber laser (SFFL) is suppressed with 9.1 dB in the frequency range below 10 kHz. Additionally, the laser power is boosted from 10.97 dBm to 25.02 dBm, and a power instability of ±0.31% is realized. This technology has contributed to simultaneously improving the power and noise performance of the 1083 nm SFFL, which can be applied to a multi-channel helium (He) optically pumping magnetometer. Furthermore, this technique has broken the mindset that power amplification of the conventional fiber amplifiers will inevitably cause the degradation of intensity noise property, and provided a valuable guidance for the development of high-performance SFFLs.
This paper proposes a novel and perfect absorber based on patterned graphene and vanadium dioxide hybrid metamaterial, which can not only achieve wide-band perfect absorption and dual-channel ...absorption in the terahertz band, but also realize their conversion by adjusting the temperature to control the metallic or insulating phase of VO
. Firstly, the absorption spectrum of the proposed structure is analyzed without graphene, where the absorption can reach as high as 100% at one frequency point (f = 5.956 THz) when VO
is in the metal phase. What merits attention is that the addition of graphene above the structure enhances the almost 100% absorption from one frequency point (f = 5.956 THz) to a wide frequency band, in which the broadband width records 1.683 THz. Secondly, when VO
is the insulating phase, the absorption of the metamaterial structure with graphene outperforms better, and two high absorption peaks are formed, logging 100% and 90.7% at f
= 5.545 THz and f
= 7.684 THz, respectively. Lastly, the adjustment of the Fermi level of graphene from 0.8 eV to 1.1 eV incurs an obvious blueshift of the absorption spectra, where an asynchronous optical switch can be achieved at fK
= 5.782 THz and fK
= 6.898 THz. Besides, the absorber exhibits polarization sensitivity at f
= 5.545 THz, and polarization insensitivity at f
= 7.684 THz with the shift in the polarization angle of incident light from 0° to 90°. Accordingly, this paper gives insights into the new method that increases the high absorption width, as well as the great potential in the multifunctional modulator.
Summary
A growing elderly population is expected worldwide, and the burden of hip fractures on health care system will continue to increase. By 2035, there will be a 2.7-fold increase in the number ...of hip fractures in Taiwan. The study provides quantitative basis for the future distribution of medical resources.
Introduction
Hip fractures have long been recognized as a major public health concern. The study aimed to determine time trends in the incidence of hip fractures and to forecast the number of hip fractures expected in Taiwan up to 2035.
Methods
A nationwide survey was conducted using data from the Taiwan National Health Insurance Research Database from 2004 to 2011. A total of 141,397 hip fractures were identified, with a mean of 17,675 fractures/year. Annual incidences of hip fractures were calculated and tested for trends. Projections of the incidence rates of hip fractures and bed days associated with hip fractures were calculated using Poisson regression on the historical incidence rates in combination with population projections from 2012 to 2035.
Results
The incidence rates of hip fracture during 2004–2011 were 317 and 211 per 100,000 person-years among women and men, respectively. Over this 8-year period, the age-standardized incidence of hip fracture decreased by 13.4 % among women and 12.2 % among men. Despite the decline in the age-standardized incidence, the absolute number of hip fractures increased owing to the aging population. The number of hip fractures is expected to increase from 18,338 in 2010 to 50,421 in 2035—a 2.7-fold increase. The number of bed days for 2010 and 2035 was estimated at 161,248 and 501,995, respectively, representing a 3.1-fold increase.
Conclusions
The socioeconomic impact of hip fractures will be high in the near future. This study provides a quantitative basis for future policy decisions to serve this need.
Summary
Background
Inherited epidermodysplasia verruciformis (EV) is a rare skin disorder characterized by susceptibility to specific types of human papilloma virus (HPV) and is strongly associated ...with skin carcinomas. Inactivating mutations in EVER1/EVER2 account for most cases of EV. However, more phenotypes related to but distinct from EV have been reported with an immunodeficiency state but without EVER1/EVER2 mutation, and the genetic basis for these atypical EV cases is poorly understood.
Objectives
To identify the causative gene responsible for three siblings affected by atypical EV but without EVER1/EVER2 mutation.
Methods
Whole‐exome sequencing followed by Sanger sequencing was performed to identify the gene responsible for the patients with atypical EV enrolled in our study.
Results
A homozygous splicing mutation was detected in LCK (c.188‐2A>G). This mutation resulted in an exon 3 deletion T lymphocyte‐specific protein tyrosine kinase isoform, which further led to frameshift mutation and subsequent mRNA decay.
Conclusions
We demonstrate a novel mutation in LCK in a family affected by atypical EV with T‐cell defects, HPV infection and virus‐induced malignancy, providing new clues in the understanding of host defences against HPV and better genetic counselling of patients with the EV phenotype.
What's already known about this topic?
Epidermodysplasia verruciformis (EV) is an unusual genodermatosis characterized by an increased susceptibility to β‐human papillomavirus and is associated with a high risk of skin carcinoma.
Inactivating mutations in EVER1/EVER2 account for most cases of EV.
What does this study add?
Our study suggests an association between a novel splicing mutation in LCK and EV susceptibility.
What is the translational message?
Patients with EV should be tested for T lymphocyte‐specific protein tyrosine kinase deficiency and T‐cell function, which will help guide treatment.
Linked Comment: Uitto and Vahidnezhad. Br J Dermatol 2016; 175:1138–1139.
Objectives: To examine the prevalence of sarcopenia and sarcopenic obesity (SO) as defined by different indices, including appendicular skeletal muscle mass (ASM)/height2, skeletal muscle mass index ...(SMI) and residuals for Korean adults, and to explore the association between SO and metabolic syndrome. Methods: Our study sample included 526 participants (328 women, 198 men) for whom complete data on body composition were collected using available dual X-ray absorptiometry. Modified National Cholesterol Education Program Adult Treatment Panel III criteria were used to identify the individuals with metabolic syndrome. Results: The prevalence of sarcopenia and SO is higher in older adults. Using two s.d. of ASM/height2 below reference values from young, healthy adults as a definition of sarcopenia, the prevalence of sarcopenia and SO was 6.3% and 1.3% in older (60 years) men and 4.1% and 0.8% in older women, respectively. The prevalence of sarcopenia using the residuals method was 15.4% in older men and 22.3% in older women. In addition, using two s.d. of SMI, the prevalence of sarcopenia and SO was 5.1% and 5.1%, respectively, in older men and 14.2% and 12.5%, respectively, in older women. Among women, SO subjects defined by the SMI had three times the risk of metabolic syndrome (odds ratios (OR)=3.24, 95% confidence interval (CI)=1.21-8.66) and non-sarcopenic obese subjects had approximately twice the risk of metabolic syndrome (OR=2.17, 95% CI=1.22-3.88) compared with normal subjects. Similar trends were observed in men. Conclusion: The prevalence and cutoff values of sarcopenia and SO in the Korean population were evaluated using different methods. Among the different indices of sarcopenia and SO, SO only defined using the SMI was associated with the risk of metabolic syndrome. As the Korean population gets older and more obese, the problematics of SO need to be elucidate.
We present the experimental realization and theoretical understanding of a membrane-type acoustic metamaterial with very simple construct, capable of breaking the mass density law of sound ...attenuation in the 100-1000 Hz regime by a significant margin ( approximately 200 times). Owing to the membrane's weak elastic moduli, there can be low-frequency oscillation patterns even in a small elastic film with fixed boundaries defined by a rigid grid. The vibrational eigenfrequencies can be tuned by placing a small mass at the center of the membrane sample. Near-total reflection is achieved at a frequency between two eigenmodes where the in-plane average of normal displacement is zero. By using finite element simulations, negative dynamic mass is explicitly demonstrated at frequencies around the total reflection frequency. Excellent agreement between theory and experiment is obtained.
Graphene oxide was prepared from graphite using Hummer's method. Pt nanoparticles with 1.8nm in average size are successfully obtained via in-situ Pt nanoparticles deposition onto graphene oxide (GO) ...using a microwave method, finally resulting in Pt-graphene (Pt-G). Water uptake of GO is increased with GO content in a Nafion/GO composite membrane due to the hydrophilic GO while that of Nafion/Pt-G composite membrane is much lower than that of Nafion/GO composite membrane. The MEAs fabricated with the Nafion/GO composite membrane show significant enhancement in cell performance: that is, 0.802A, 1.27A, 0.827A at 0.6V under 100% relative humidity (RH) for 0.5wt%, 3.0wt% and 4.5wt% of GO content in the composite membrane, respectively, compared to 0.435A for casting Nafion membrane. The Nafion/Pt-G composite membrane, however, does not show sufficient enhancement under various RHs. It is attributed to poor water retention ability of hydrophobic graphene and electron loss due to the formation of electrical network by too much Pt within the membrane. Constant open circuit voltage (OCV) down to low RH indicates that GO and graphene could be prospective as filler in low humidifying polymer electrolyte fuel cell.
•Nafion/GO composite membrane shows higher water uptake than that of casting Nafion.•Nafion/GO composite membrane shows enhanced cell performance under low humidity.•GO would be prospective fillers in composite membrane for low humidifying PEMFC.
•Cyclic uniaxial increasing-amplitude decreasing-frequency (CUIADF) loads on pre-flawed rock.•Rock bridge length affects strength, volumetric deformation AE b-value and failure modes.•A new damage ...variable is defined using AE accumulative energy and an inverted “S” shaped damage evolution model was proposed.•CT images highlight the coalescence pattern and three coalescence modes were identified.
Rock mass is often encountered with complicated stress disturbance, the cyclic or fatigue loading path with fixed loading frequency and amplitude are widely performed. To date, however, rock instability induced by cyclic uniaxial increasing-amplitude decreasing-frequency (CUIADF) loads was not well understood. In this work, granite samples containing a circular hole and two fissures with different rock bridge length were used to conduct CUIADF loading tests. The fatigue strength, deformation, AE output activities, damage propagation and crack coalescence were comprehensively investigated. Testing results show that the fatigue strength, volumetric deformation and fatigue lifetime increase with increasing rock bridge length. The AE-b value decreases as cyclic number grows and it is relatively large for rock having high rock bridge length. A new damage variable is defined using AE accumulative energy and an inverted “S” shaped damage evolution model was proposed to describe rock damage propagation in the entire process. Moreover, three failure modes of single tensile coalescence, single shear coalescence and double shear coalescence were revealed from the reconstructed CT images. It is suggested that the rock bridge length impacts the rock instability a lot, and the interactions between the hole and fissure are the weakest for a sample with long rock bridge.
Phosphatase and tensin homolog (PTEN), which negatively regulates tumorigenic phosphatidylinositol (3,4,5)-trisphosphate (PIP3) signaling, is a commonly mutated tumor suppressor. The majority of ...cancer-associated PTEN mutations block its essential PIP3 phosphatase activity. However, there is a group of clinically identified PTEN mutations that maintain enzymatic activity, and it is unknown how these mutations contribute to tumor pathogenesis. Here, we show that these enzymatically competent PTEN mutants fail to translocate to the plasma membrane where PTEN converts PIP3 to PI(4,5)P2. Artificial membrane tethering of the PTEN mutants effectively restores tumor suppressor activity and represses excess PIP3 signaling in cells. Thus, our findings reveal a novel mechanism of tumorigenic PTEN deficiency.