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Due to the lack of the corresponding calibration device and national calibration specification, center distance calipers cannot be effectively calibrated, which can lead to inaccuracy of the center distance calipers. To standardize the metrological calibration of center distance calipers, this article designs an adjustable center distance caliper calibration device, which is mainly composed of standard gauge blocks and specially designed accessories. The measurement range of the calibration device is (0∼2, 000) mm, with the maximum permissive error of ±(0.80+1.6×10 −5 L ) μm. Experimental results and uncertainty analysis show that the designed calibration device can completely meet the need of calibrating indication error of center distance calipers. The system is stable in performance and strong in repeated measurement ability, which is of great significance for the effective calibration and improvement research of center distance calipers.

Purpose Robotically-assisted total knee arthroplasty (TKA) has been shown to improve alignment and decrease outliers, an important goal in TKA procedures. The purpose of this cadaveric study was to compare the accuracy and reproducibility of a recently introduced TKA robotic system to conventional instrumentation for bone resections. Methods This cadaveric study compared 14 robotically-assisted TKA with 20 conventional TKAs. Four board-certified high volume arthroplasty surgeons with no prior experience in robotics (except one) performed the procedures with three different implant systems. Angle and level of bone resections obtained from optical navigation or calliper measurements were compared to the intra-operative plan to determine accuracy. Group comparison was performed using Student t test (mean) and F test (variance), with significance at p  < 0.05. Results The robotic group demonstrated statistically more accurate results ( p  < 0.05) and fewer outliers ( p  < 0.05) than conventional instrumentation when aiming for neutral alignment. Final limb alignment (HKA) had an accuracy of 0.8° ± 0.6° vs 2.0° ± 1.6°, with 100% vs 75% of cases within 3° and 93% vs 60% within 2°. For the robotically-assisted knees, the accuracy of bone resection angles was below 0.6° with standard deviations below 0.4°, except for the femur flexion (1.3° ± 1.0°), and below 0.7 mm with standard deviations below 0.7 mm for bone resection levels. Conclusion This in vitro study has demonstrated that this novel TKA robotic system produces more accurate and more reproducible bone resections than conventional instrumentation. It supports the clinical use of this new robotic system. Level of evidence Cadaveric study, Level V.

The inhibitory cascade model (ICM) predicts relative mammalian molar size and shows a relationship between relative molar size and diet. Bears do not follow the ICM. The aims of this study are to determine which bears, if any, adhere to the ICM, and to assess the evolution of dental development in bears to determine when and why their developmental pattern changed. Molars were measured with sliding callipers and occlusal surface area was taken as a proxy for molar size. An ICM morphospace was created with relative m2 and m3 size on the x‐ and y‐axes, respectively. Our findings indicate that there are two deviations from the ICM. The first takes place between Ursus boeckhi and Ursus minimus and is attributed to a reduction in inhibitors in m1. We suggest the term ‘partial ICM’ to describe the developmental pattern of bears following the first deviation, as their distribution in morphospace runs parallel to the ICM yet is shifted towards a disproportionately larger m2 associated with increased omnivory. The second break takes place between Ursus minimus and Ursus deningeri and is caused by a reduction in inhibitors in m2 resulting in a shift towards disproportionately larger m3 associated with increased herbivory. The two breaks in the established developmental pattern of the ICM are linked to dietary adaptations that can be traced to environmental change, showing the effects of the environment on development on evolutionary time scales. Bears deviate from the inhibitory cascade model (ICM) during molar size evolution, with two significant deviations linked to changes in diet: Ursus minimus and Ursus deningeri. Many bears exhibit a ‘partial ICM’, highlighting the relationship between relative molar size, dietary adaptations and dental development across different species. (Bear outlines adapted from DBCLS, CCBY4.0)

To compare cyclic fatigue resistance and bending for three different nickel-titanium (NiTi) rotary files. A sample of 90 NiTi instruments size (25.06) was divided into three groups with 30 files in each: Race Evo files (FKG Dentaire, Switzerland); Tia Tornado Blue files (TiaDent Inc., Texas- USA); One Curve files (Micro-Mega, France). Then each group was subdivided into two groups with 15 files in each; a bending test was performed for one group, and a dynamic cyclic fatigue test at body temperature was performed for the other group. Files fractured by cyclic fatigue were randomly picked from all tested groups for Scanning Electron Microscopy (SEM) (Jeol, Tokyo, Japan). In addition, the test included measuring the broken part of the files tested using (Electronic Micrometre Calliper with LCD Screen, Inch and Millimetre Conversion, Adoric- Taiwan). Data were statistically analyzed using a one-way ANOVA with Tukey-HSD post hoc test. It was found that maximum load [gf] was less (meaning more flexible) in the group of Tia Tornado Blue with a statistically significant difference in comparison with Race Evo and One Curve. The number of cycles to fracture (NCF) in the Race Evo group was significantly higher than the groups of One Curve and Tia Tornado Blue. Within the limitation of the study, it could be concluded that Race Evo files were more resistant to cyclic fatigue fracture and Tia Tornado Blue files were more flexible compared to the other tested files.

To quantitatively evaluate crack width of concrete structures surface, this paper presents a stereovision-based crack width detection method. Compared with the traditional visual inspection with single camera, this approach uses a pair of cameras to capture cracks images for recovering 3D coordinates of crack edge, and does not needs scale attached to concrete surface for converting measurement unit. A novel Canny-Zernike combination algorithm is utilized to obtain the image coordinates of crack edge in the left crack image, this combination algorithm can achieve 0.02 subpixel precision. The 3D coordinates of crack edge are acquired by projecting crack edge curve on concrete surface where cracks are located. The crack width is assessed by the minimum distance between two sides of crack edge. The detection tests are conducted on three concrete beams destroyed in static test, and the crack width of two inspection zones on each beam is acquired. Experimental results indicate that the stereovision-based crack width detection approach can accurately measure the crack width compared with the crack width gauge or the vernier calliper. This verifies the proposed method is applicable and useful for assessing the crack width of concrete surface.

Lagusia micracanthus , a species endemic to the freshwater systems of Sulawesi, Indonesia, was the subject of this study. The objective of the current research was to characterize the length-weight relationship (LWR) and condition factors of this fish. Sampling was conducted in the Ompo River, South Sulawesi, Indonesia, over a nine-month period from May 2018 to January 2019, utilizing electric fishing gear. Sample analysis was conducted in the fisheries laboratory, West Sulawesi University. The samples were measured with a digital calliper and dissected to determine their sex. A total of 146 specimens were collected, comprising 72 males and 74 females. Their total lengths (TL) ranged from 41.48 to 46.90 mm of total length (TL) and body weight (W) ranged from 1.60 to 1.80 g. The LWR of L. micracanthus in both rivers exhibited an isometric growth pattern (b = 3.0488, P <0.05). These findings indicate a high correlation in LWR (r > 95%). The relative condition factor was observed to range between 0.5423 and 1.6834, with females displaying better condition than males. The condition factor showed a decreasing trend as gonadal maturity progressed up to level III, followed by an increase at level IV maturity, and then a decrease again after spawning. This study offers fundamental data regarding the LWR and condition factors of L. micracanthus that can be used for fisheries management purposes.

Even in digital workflows, models are required for fitting during the fabrication of dental prostheses. This study examined the influence of different parameters on the dimensional accuracy of three-dimensionally printed models. A stereolithographic data record was generated from a master model (SOLL). With digital light processing (DLP) and stereolithography (SLA) printing systems, 126 models were produced in several printing runs—SolFlex350 (S) (DLP, n = 24), CaraPrint 4.0 (C) (DLP, n = 48) and Form2 (F) (SLA, n = 54)—and their accuracy was compared with plaster and milled polyurethane models. In addition to the positioning on the build platform, a distinction was made between parallel and across arrangement of the models to the printer’s front, solid and hollow models, and printing with and without support structures. For accuracy assessment, five measurement sections were defined on the model (A–E) and measured using a calibrated digital calliper and digital scans in combination with the GOM Inspect Professional software 2021. The mean deviation between the measurement methods for all distances was 79 µm. The mean deviation of the models from the digital SOLL model were 207.1 µm for the S series, 25.1 µm for the C series and 141.8 µm for the F series. While positioning did not have an influence, there were clinically relevant differences mainly regarding the choice of printer, but also individually in alignment, model structure and support structures.

Nowadays, forest inventories are frequently carried out using a combination of field measurements and remote sensing data, often acquired with light detection and ranging (LiDAR) sensors. Several studies have investigated how three-dimensional laser scanning point clouds from different platforms can be used to acquire information traditionally collected with forest instruments, such as hypsometers and callipers to detect single-tree attributes like tree height and diameter at the breast height. The present study has tested the performances of the ZEB1 instrument, a type of hand-held mobile laser scanner, for single-tree attributes estimation in pure Castanea sativa Mill. stands cultivated for fruit production in Central Italy. In particular, the influence of walking scan path density on single-tree attributes estimation (number of trees, tree position, diameter at breast height, tree height, and crown base height) was investigated to test the efficiency of field measures. The point clouds were acquired by walking along straight lines drawn with different spacing: 10 and 15 m apart. A single-tree scan approach, which included walking with the instrument around each tree, was used as reference data. In order to evaluate the efficiency of the survey, the influence of the walking scan path was discussed in relation to the accuracy of single-tree attributes estimation, as well as the time and cost needed for data acquisition, pre-processing, and analysis. Our results show that the 10 m scan path provided the best results, with an omission error of 6%; the assessment of single-tree attributes was successful, with values of the coefficient of determination and the relative root mean square error similar to other studies. The 10 m scan path has also proved to decrease the costs by about €14 for data pre-processing, and a saving of time for data acquisition and data analysis of about 37 min compared to the reference data.

Background Colorectal cancer is primarily a condition of older adults, and surgery is the cornerstone of treatment. As life expectancy is increasing and surgical techniques and perioperative care are developing, curative surgery is often conducted even in ageing populations. However, the risk of morbidity, functional decline, and mortality following colorectal cancer resection surgery are known to increase with increasing age. This study aims to describe real-world data about postoperative mortality and morbidity after resection surgery for colorectal cancer in the elderly (≥ 70 years) compared to younger patients (< 70 years), in a Swedish setting. Methods A cohort study including all patients diagnosed with colorectal cancer in a Swedish region of 1.7 million inhabitants between January 2016 and May 2020. Patients were identified through the Swedish Colorectal Cancer Registry, and all baseline and outcome variables were extracted from the registry. The following outcome measures were compared between the two age groups: 90-day mortality rates, postoperative complications, postoperative intensive care, reoperations, readmissions, and 1-year mortality. To adjust the analyses for baseline confounders in the comparison of the outcome variables, the following methods were used: marginal matching, calliper (ID matching), and logistic regression adjusted for baseline confounders. Results The cohort consisted of 5246 patients, of which 3849 (73%) underwent resection surgery. Patients that underwent resection surgery were significantly younger than those who did not (mean ± SD, 70.9 ± 11.4 years vs 73.7 ± 12.8 years, p  < 0.001). Multivariable analyses revealed that both 90-day and 1-year mortality rates were higher in older patients that underwent resection surgery (90-day mortality OR 2.12 [95% CI 1.26–3.59], p  < 0.005). However, there were no significant differences in postoperative intensive care, postoperative complications, reoperations, or readmissions. Conclusion Elderly patients suffer increased postoperative mortality after resection surgery for colorectal cancer compared to younger individuals. Given the growing elderly population that will continue to require surgery for colorectal cancer, more efficient ways of determining and handling individual risk for older adults need to be implemented in clinical practice.

The cockle immerses in the substrate of the intertidal zone. Their conditions and growth factors are highly dependent on nutrients around the waters of Kendari Bay. Therefore, this study aims to determine the relationship between length, weight, and condition factors. The study was conducted in March 2016 to February 2017 at the intertidal zone of Kendari Bay. The samples were collected with a shovel in a 1x1 m square transect monthly. Furthermore, the length and weight of the shells were measured using a calliper and a digital scale with an accuracy of 0.5 cm and 0.001g, respectively. The cockle was oven-dried for 48 hours. Simple linear regression was used to analyze the relationship between length and weight, while the condition factors were examined using the Mann-Whitney test. The results showed that male and female cockle shells had b values in the negative allometric and isometric categories, which spread from the respective ranges of 2.31-3.06 and 2.21-3.23. The b values for males and females increased in March-September and then decreased in October-February. Meanwhile, the condition factors of male and female mussels based on size and time of observation were not significantly different and ranged from 3.24±1.33-7.07±0.43 and 2.94±0.54-6.63±1.09. The highest condition index was discovered in October, March, and August, respectively, while the lowest occurred in June and September.