Degrees Intervals Research Articles

Approximate Sampling and Counting of Graphs with Near-Regular Degree Intervals

Approximate Sampling and Counting of Graphs with Near-Regular Degree Intervals

Approximate Sampling of Graphs with Near-P-Stable Degree Intervals

The approximate uniform sampling of graph realizations with a given degree sequence is an everyday task in several social science, computer science, engineering etc. projects. One approach is using Markov chains. The best available current result about the well-studied switch Markov chain is that it is rapidly mixing on P-stable degree sequences (see DOI:10.1016/j.ejc.2021.103421). The switch Markov chain does not change any degree sequence. However, there are cases where degree intervals are specified rather than a single degree sequence. (A natural scenario where this problem arises is in hypothesis testing on social networks that are only partially observed.) Rechner, Strowick, and Müller–Hannemann introduced in 2018 the notion of degree interval Markov chain which uses three (separately well studied) local operations (switch, hinge-flip and toggle), and employing on degree sequence realizations where any two sequences under scrutiny have very small coordinate-wise distance. Recently, Amanatidis and Kleer published a beautiful paper (DOI:10.4230/LIPIcs.STACS.2023.7), showing that the degree interval Markov chain is rapidly mixing if the sequences are coming from a system of very thin intervals which are centered not far from a regular degree sequence. In this paper, we substantially extend their result, showing that the degree interval Markov chain is rapidly mixing if the intervals are centered at P-stable degree sequences.

Pediatric meniscus morphology varies with age: a cadaveric study.

In adolescent patients, meniscal tear injury can occur either in isolation (e.g., discoid lateral meniscus tears) or in association with other traumatic injuries including tibial eminence fracture or ACL tear. Damage to meniscal integrity has been shown to increase contact pressure in articular cartilage, increasing risk of early onset osteoarthritis. In symptomatic patients failing conservative management, surgical intervention via meniscus repair or meniscus transplant is indicated. The purpose of this study was to evaluate the radial dimensions of pediatric menisci throughout development. The hypothesis was that the average radial meniscus dimensions will increase as specimen age increases, and mean medial and lateral region measurements will increase at a linear rate. Seventy-eight skeletally immature knee cadaver specimens under age 12years were included in this study. The meniscal specimens were photographed in the axial view with ruler in the plane of the tibial plateau and analyzed using computer-aided design (CAD) software (Autodesk Fusion 360). Measurements were taken from inner to outer meniscus rims at five 45 degree intervals using the clockface as a reference (12:00, 1:30, 3:00, 4:30, 6:00), and total area of meniscus and tibial plateau was recorded. Generalized linear models were used to evaluate the associations of radial width measurements with age, tibial coverage, and lateral vs. medial meniscus widths. All radial width measurements increased significantly with specimen age (p ≤ 0.002), and all lateral-medial meniscal widths increased (p < 0.001). The anterior zones of the meniscus were found to increase at the slowest rate compared to other regions. Tibial plateau coverage was found to not significantly vary with age. Meniscus radial width and lateral-medial meniscus width are related to age. The anterior width of the meniscus varied least with age. Improved anatomic understanding may help surgeons more effectively plan for meniscus repair, discoid resection/saucerization/repair, and also support appropriate selection of meniscus allograft for transplantation.

A Numerical Study on the Performance Evaluation of a Semi-Type Floating Offshore Wind Turbine System According to the Direction of the Incoming Waves

In this study, the performance evaluation of a semi-type floating offshore wind turbine system according to the direction of the incoming waves is investigated. The target model in this this study is a DTU 10 MW reference wind turbine and a LIFES50+ OO-Star Wind Floater Semi 10 MW, which is the semisubmersible platform. Numerical simulation is performed using FAST developed by National Renewable Energy Laboratory (NREL), which is an aero-hydro-servo-elastic fully coupled simulation tool. The analysis condition used in this study is the misalignment condition, which is the wind direction fixed at 0 degree and the wave direction changed at 15 degrees intervals. In this study, two main contents could be confirmed. First, it is confirmed that sway, roll, and yaw motions occur even though the direction of the incoming waves is 0 degree. The cause of the platform’s motion such as sway, roll and yaw is the turbulent wind and gyroscope phenomenon. In addition, the optimal value for the nacelle–yaw angle that maximizes the rotor power and minimizes the tower load is confirmed by solving the multiobjective optimization problem. These results show the conclusion that setting the initial nacelle–yaw angle can reduce the tower load and get a higher generator power. Second, it is confirmed that the platform’s motion and loads may be underestimated depending on the interval angle of incidence of the wind and waves. In particular, through the load diagram results, it is confirmed that most of the results are asymmetric, and the blade and tower loads are especially spiky. Through these results, the importance of examining the interval angle of incidence of the wind and waves is confirmed. Unlike previous studies, this will be a more considerable issue as turbines become larger and platforms become more complex.

Temporal evolution of threshold temperatures for extremely cold days in Spain

In contrast to research on heat waves, there are no studies in recent years that analyze the temporal evolution of threshold temperatures (Tthreshold) for extremely cold days (ECD). It is unknown whether threshold temperatures have increased more quickly than the minimum daily temperature (Tmin) in recent years.The objective of this study was to analyze the temporal evolution of the minimum daily temperature (Tmin) in a group of Spanish provinces and compare it with the evolution of threshold temperatures.An ecological, retrospective time series study was carried out using daily observations between January 1, 1983 and December 31, 2018 (36 years) in 10 provinces that are representative of the different climate territories in Spain. For each representative observatory in each province, the values of Tmin were obtained for the winter months (November–March). The value of Tthreshold was determined for each province and each year, using dispersion diagrams for the pre-whitened series, with daily mortality due to natural causes displayed on the Y axis (CIEX: A00-R99) and Tmin grouped by 10 degree intervals on the X axis. To determine the temporal evolution of Tmin and Tthreshold for each province, linear models were fitted, with time as the independent variable.During the winter months, Tmin increased at an average rate of 0.2 °C/decade (IC95: 0.1–0.3), while Tthreshold remained practically constant during the period, at 0.1 °C/decade (IC95% -0.1 0.3). These values are much lower than those obtained in the case of heat, both in terms of the evolution of maximum daily temperature and that of Tthreshold.In conclusion, the fact that this trend has been maintained across time in a scenario of climate change, with a slow increase in minimum daily temperatures and constant values of Threshold, suggests a decrease in the number of ECD.

Study of Flow by Varying the Position of Maximum Chamber Thickness on Aerofoil

Aerofoil is a design with a curved exterior that gives the most commendable ratio of lift to drag. The aerofoil which allows for the flow at a margin range of angle has a more remarkable impact on the power spawning from the turbine. The conception and examination for the airfoil Structure have been implemented in the current work to raise the behavior of the flow with a commendatory condition by varying the position of maximum chamber thickness position thereby varying the angle of attack with 5 degrees interval from 0-25 degrees. The best model is studied with surface modifications to increase the flow separation and efficiency of lift.

GROWTH OF THE PEDIATRIC KNEE MENISCUS: A CADAVERIC STUDY

Background:The menisci of the knee play a critical role in maintaining structural integrity, as well as in load bearing and shock absorption. In adolescent patients, meniscal tear is a very common sports injury, and is frequently associated with concomitant traumatic injuries including tibial eminence fracture or ACL tear. The incidence of pediatric meniscal tears is increasing, and anatomic studies to guide repair, saucerization and transplantation do not exist.Hypothesis/Purpose:This study’s purpose was to evaluate meniscus dimensions in the developing meniscus and provide anatomic parameters for repair, saucerization, resection, transplantation.Methods:From images of 29 dissected cadaveric knee specimens between 1 month and 132 months of age obtained on a copy stand (14 left knee, 15 right knee), we made direct length measurements from the inner to outer meniscus rim at 45 degree intervals (12, 1:30/10:30, 3:00/9:00, 4:30/7:30 o’clock, 6 o’clock) using Autodesk Fusion 360 software (Figure 1.1). We also measured width between the outer medial and lateral meniscus rims, as well as CT measurements of coronal and sagittal width of the tibial plateau using OsiriX DICOM software. Generalized linear models were used to evaluate the associations of meniscal length measurements with age, tibial width, and meniscal width measurements. All statistical analyses were completed with a two-sided level of significance of 0.05.Results:All radial length measurements were predicted to increase significantly with age (p < 0.01), as coronal tibial width increases (p < 0.05), and as lateral-medial meniscal width increases (p < 0.001) (Figure 1.2). Other than the lateral 3 o’clock measurement (p = 0.119), all radial measurements were predicted to increase significantly as sagittal tibial width increases (p < 0.05). The posterior zones of the medial meniscus (6:00, 4:30/7:30) were found to increase in radial length at a faster rate than the anterior zones. The anterior zones of the medial meniscus (12:00, 1:30/10:30) had the slowest rate of growth.Discussion/Conclusion:Meniscus radial length is related to age, tibial plateau width, and lateral-medial meniscus width. Radial dimensions from normal lateral menisci may allow the surgeon to obtain ideal size of resection, saucerization of discoid menisci. The growth of medial meniscus posterior zones is greater than the anterior zones. This may be attributed to increased posterior region load bearing which increases with ambulation in the developing child. Improved anatomic understanding may help surgeons plan for discoid resection/saucerization/repair, and also support appropriate selection of meniscus allograft for transplantation.Figure 1.1.Figure 1.2.

Short-Time Spot Communication Using COTS Stereo Speaker

In this paper, we construct the spot communication method using a stereo speaker. In our proposed method, one speaker transmits differential binary phase-shift keying (DBPSK) symbols for communication, and the other speaker transmits sine waves whose frequency is close to that of the DBPSK symbols for jamming. Inside the spot, the jamming signal is canceled by the orthogonality of the communication symbols and jamming signals. Outside the spot, the jamming signal inverts the differential phase of the communication symbols, which prevents normal DBPSK demodulation rendering the communication symbols concealed in the area. This enables correct demodulation only inside the spot. In the conventional method using a stereo speaker, the effect of the jamming signal is weak; thus, transmitting at least 11 symbols is required. In our proposed method, the effective jamming using the interference between sine waves of close frequencies enables spot communication by transmitting only 3 symbols. In the evaluation experiments, we generate the spot from -10 to 20 degrees in a real environment and measure the signals at 9 positions inside and outside the spot, from -40 to 40 degrees at 10 degree intervals. The measurements were conducted 100 times at each position. Through these experiments, we confirmed that demodulation errors occur only outside the spot. In the measurement results, some systematic errors of the differential phase were observed inside the spot, where theoretically this error should not occur. To discuss this error, we conducted additional experiments and revealed the causes.

Does the Symmetry of Patellar Morphology Matter When Matching Osteochondral Allografts for Osteochondral Defects Involving the Central Ridge of the Patella?

Objectives:Osteochondral allografts of the patellar are currently matched solely based on tibial width. It is currently unknown whether matching by tibial width is a reasonable surrogate measurement to allow for optimum chondral surface matching or if patellar size and/or surface morphology (i.e., Wiberg classification) should be taken into account. This consideration may be especially important for chondral defects on the patellar apex. The purpose of this study was to use circumferential step-off height and chondral surface mapping to determine if differences in patellar surface morphology (i.e., Wiberg classification) play a role in the ability of donor patellar osteochondral allografts to match the native patellar surface when treating osteochondral defects involving the central ridge of the patella. The secondary purpose was to explore the relationship between tibial width and patellar size (width and height) to determine if tibial width strongly related to patellar size to allow it to act as a surrogate measure for patellar size.Methods:Twenty (10 Wiberg I and 10 Wiberg II/III) fresh frozen patellae were designated as the recipient. Each recipient was size-matched (within ± 2mm tibial width) to both a Wiberg I and a Wiberg II/III patellar donor to produce 20 size-matched trios. All patellas were classified as Wiberg I, II, or III by visual inspection. The patellar height and widths were also measured. The recipient patella underwent initial nanoCT scanning to quantify the native chondral surface morphology. A 16mm circular osteochondral “defect” centered on the central ridge of the patella was then created in the recipient patella. Within each set of three patellae, the donor Wiberg I and Wiberg II/III patellae were randomly assigned, using a random number generator, to be transplanted first or second. The randomly ordered donor Wiberg I or Wiberg II/III plug was harvested from a homologous location and transplanted into the recipient. The recipient was then nano-CT scanned, digitally reconstructed, registered to the initial nano-CT scan of the recipient patella. It was then processed in Dragon Fly to determine circumferential step-off heights between the native and donor surfaces at three degree intervals. This was calculated for the entire circumference and for each quadrant (superior, medial, inferior, lateral) to determine if the ste-off heights varied by locations. MATLAB was used to determine the height deviation (dRMS) between the native and donor surfaces at over 3000 surface points (Figure 1). The initial transplant was carefully removed and the process was then repeated for the other donor allograft. Pearson correlation coefficient, 2-way ANOVA with Tukey’s multiple comparison, and paired t-tests were used when appropriate. Sample size of 10 trios was determined based on previous work in our lab (clinically relevant difference of 0.75mm, SD = 0.5mm, α = 0.05, power 0.8; 7 samples per group).Results:There was no significant difference in mean step-off heights between matched and unmatched Wiberg allograft plugs (Table 1). When analyzing all patellas, the superior (p = 0.01) and lateral (p = 0.001) quadrants demonstrated step-off heights that were significantly greater compared to the inferior quadrant, however these findings were not clinically significant. There was a statistically significant difference in height deviation over the whole surface between native and donor plugs when comparing matched and unmatched Wiberg plugs (p=0.049), however this finding was not clinically significant (Table 2). There was no difference across individual quadrants. There was a linear correlation when comparing tibial width to patellar width (r = 0.82) and patellar height (r = 0.68).Conclusions:Differences in Wiberg classification did not lead to clinically relevant differences in step-off height or surface height deviations for the whole donor plug or by quadrant. Tibial width is a reasonable measure to predict patellar size (width and height). It is therefore reasonable to continue matching osteochondral allografts of the patella based on the easy to measure value of tibial width without consideration for patellar size or Wiberg classification.Table 1.Mean ± SD step-off height measurements (in mm) for the medial, lateral, superior, and inferior quadrants, and whole patella for matched (n = 20), unmatched (n = 20), and all (n = 40) patallas. Note that all patellas superior and lateral was statistically different than inferior (*0=0.01 +0=0.001)Circumferential Step-Off Height Matched Wiberg (n=20)Unmatched Wiberg (n=20)All Patellas (n=40)Medial0.44 ± 0.210.57 ± 0.350.51 ± 0.30Lateral0.54 ± 0.200.66 ± 0.42 0.60 ± 0.33* Superior0.57 ± 0.230.55 ± 0.21 0.56 ± 0.22+ Inferior0.32 ± 0.170.41 ± 0.190.36 ± 0.18Total0.55 ± 0.180.60 ± 0.260.57 ± 0.22Table 2.Mean ± SD surface deviation (in mm) for medial, lateral, superior, and inferior quadrants, and whole patella for matched (n =20) and unmatched (n = 20) Wiberg donor transplantsCircumferential Step-Off Height Matched Wiberg (n=20)Unmatched Wiberg (n=20) P Medial0.48 ± 0.200.51 ± 0.260.994Lateral0.42 ± 0.240.49 ± 0.220.889Superior0.48 ± 0.230.59 ± 0.300.576Inferior0.43 ± 0.240.58 ± 0.350.262Total0.50 ± 0.140.64 ± 0.25 0.049

The Presence of Patellar Apprehension in Higher Degrees of Flexion Identifies Patients with Patella Alta and or Severe Trochlear Dysplasia

Objectives:Recurrent patellar instability is frequently treated surgically with reconstruction of the medial patellofemoral ligament (MPFL). Patients with significant patella alta, trochlear dysplasia, and/or an elevated tibial tubercle-trochlear groove (TT-TG) distance may benefit from a concurrent bony procedure such as a tibial tubercle osteotomy or trochleoplasty. The indications to include such procedures are traditionally based on imaging criteria, but remain controversial. Patellar apprehension is common in patients with patellar instability but typically resolves in higher degrees of knee flexion. We hypothesis that the persistence of patellar apprehension at greater than 60 degrees of knee flexion is associated with patella alta, increased TT-TG distance, and trochlear dysplasia.Methods:Seventy-six patients with recurrent patellar instability were prospectively identified in a sports medicine clinic. Patellar apprehension was evaluated in each patient. Apprehension was defined as the patient reporting that the patella felt unstable to lateral patellar translation. Apprehension was first assessed at full knee extension and repeated assessed as the knee was flexed in 10 degrees intervals as measured with a goniometer. The degree of flexion at which patellar apprehension disappeared was recorded. Plain films and MRI were obtained in all patients. Patellar height was assessed with the Caton-Deschamps (CD) index and trochlear morphology was assessed through measurement of the sulcus angle and depth on MRI and classification with the Dejour classification system. Imaging measurements of patients in which apprehension resolved by 60 degrees of knee flexion were compared with measures for those with apprehension that persisted deeper into flexion.Results:Apprehension resolved by 60 degrees of flexion in 55 patients and persisted into deeper flexion in 21 patients. The patients with delayed resolution of apprehension demonstrated a higher CD Index, elevated TT-TG distance, increased higher sulcus angle, decreased trochlear depth, and a higher incidence of Dejour B, C, or D dysplasia (all p < 0.05, Table 1). Of the 21 patients with delayed resolution of apprehension, 18 had either Dejour B, C, or D dysplasia or a Caton-Deschamps Index of at least 1.3. Delayed resolution of apprehension was present in 11 of the 16 patients with Dejour B, C, or D dysplasia.Conclusion:The presence of patellar apprehension in higher degrees of knee flexion is associated with patella alta, increased TT-TG distance, and more severe trochlear dysplasia. Further work is needed to evaluate utility of this exam finding to inform surgical decision-making in this population.

Growth of The Pediatric Knee Meniscus: A Cadaveric Study

Objectives:The menisci of the knee (Figure 1) play a critical role in maintaining structural integrity, as well as in load bearing and shock absorption. In adolescent patients, meniscal tear is a very common sports injury, and is frequently associated with concomitant traumatic injuries including tibial eminence fracture or ACL tear. Depending on the severity of meniscal tear, surgical treatment options include arthroscopic partial or total meniscectomy, with a reported 78-88% success rate. Given the high incidence of pediatric meniscal injuries and reliance on landmarks to guide arthroscopic meniscus repair, surprisingly few human pediatric cadaveric studies are reported in the current literature. The primary purpose of our research was to evaluate the rates at which different zones of the meniscus rim lengthen with age during early adolescence. Our null hypothesis was that meniscus rim length is unrelated to patient age, tibial plateau width, or to lateral-medial meniscus width.Methods:From images of 29 dissected cadaveric knee specimens between 1 month and 132 months of age obtained on a copy stand (14 left knee, 15 right knee), we made direct length measurements from the inner to outer meniscus rim at 45 degree intervals (12, 1:30/10:30, 3:00/9:00, 4:30/7:30 o’clock, 6 o’clock) using Autodesk Fusion 360 software (Figure 2). We also measured width between the outer medial and lateral meniscus rims, as well as CT measurements of coronal and sagittal width of the tibial plateau using OsiriX DICOM software. Generalized linear models were used to evaluate the associations of meniscal length measurements with age, tibial width, and meniscal width measurements. All statistical analyses were completed with a two-sided level of significance of 0.05.Results:All meniscal length measurements were predicted to increase significantly as age increases (p < 0.01 for all), as coronal tibial width increases (p < 0.05 for all), and as lateral-medial meniscal width increases (p < 0.001 for all). Other than the lateral 3 o’clock measurement (p = 0.119), all meniscal length measurements were predicted to increase significantly as sagittal tibial width increases (p < 0.05 for the rest). Interestingly, the posterior zones of the medial meniscus (6 o’clock and 4:30/7:30 o’clock) were found to increase in length at a faster rate than the anterior zones (Figure 3), which supports our hypothesis that increased weight bearing is correlated with meniscus growth. The same length correlation was not identified in the lateral meniscus. Furthermore, the anterior zones of the medial meniscus (12 o’clock and 1:30/10:30 o’clock) were found to have the slowest rate of growth, presumably due to reduced weight bearing function anteriorly.Conclusions:We reject our null hypothesis that meniscus rim length is unrelated to age, tibial plateau width, or to lateral-medial meniscus width. Surprisingly, the posterior zones of the medial meniscus were found to grow at a faster rate with age compared to the anterior zones, which we attribute to the effect of increased weight bearing experienced by the posterior zones during knee bending exercise. Additionally, the anterior, lesser-weight bearing regions of the medial meniscus were found to develop at the slowest rate out of all zones measured. Further studies are underway to generalize these observations to all adolescent patients. This information will be useful for meniscus repair and transplantation surgical planning.

A Novel Three-Phase Tubular Switched Reluctance Linear Machine With Transverse-Flux Path

Several tubular switched reluctance linear machines (TSRLMs) with transverse flux are proposed for improving thrust density recently. Owing to the particularity of the structure of transverse-flux TSRLMs, how to maximize the electrical utilization becomes a key to improve these machines’ performance. A novel three-phase transverse-flux TSRLM is proposed in this paper, whose stator sleeve is composed of six ferromagnetic rings and five spacer rings. And the mover is composed of an aluminum tube and several fan-shaped poles. The adjacent fan-shaped poles are placed at 120 degree intervals. In the novel structure, each half of the windings corresponding to a phase constitute a single coil without the need of intermediate connections. This winding way avoids the limitation of stator ferromagnetic ring spacing, and increases the space for wire placement compared with the other existing transverse-flux TSRLMs. In order to verify the superiority of the novel TSRLM, a conventional transverse-flux TSRLM which has the same volume and main dimensions is presented to compare their performances. Finally, the finite element calculation results show that the average thrust per unit core mass of proposed TSRLM is greater than conventional TSRLM, which shows its superiority for speed control systems. It proves that the novel structure can help increasing the use of TSRLMs.

1113 ASSESSMENT OF CAPSULE ENDOSCOPY UTILIZING CAPSOCAM PLUS® IN PATIENTS WITH SUSPECTED SMALL BOWEL DISEASE INCLUDING PILOT STUDY WITH REMOTE ACCESS PATIENTS

Capsule endoscopy (CE) has been widely utilized for the assessment of patients with known/suspected small bowel disease. The CapsoCam Plus® capsule is unique in that it utilizes four cameras at sequential 90 degree intervals in its mid-section permitting a 360-degree panoramic perspective with a 15+ hour battery life. A panoramic view has been suggested to improve overall visualization of the small bowel (SB) therefore potentially improving diagnostic yield. Unlike other small bowel capsules, it must be retrieved upon excretion (utilizing a magnetic kit) since the images are stored on the device. To assess the use of CapsoCam Plus in patients referred for suspected small bowel disease, including pilot assessments for patients in remote locations. A retrospective chart review (01/16 – 10/19) assessing consecutive capsule procedures utilizing this device was performed. Information acquired included basic demographics, indication, extent of examination, gastric transit time, small bowel transit time, yield, adverse events, capsule retention, recovery rates and recommendations for follow up. A pilot study was also initiated for patients in rural centers to access capsule testing remotely through mail courier without attendance/travel to the primary dispensing site. Acquired data included 65 patients receiving CapsoCam Plus®. Indications: 86% obscure gastrointestinal bleeding, 5% abdominal pain and 1% for IBD. 92% of studies were completed to cecal visualization. Mean gastric and small bowel transit time were 0:48:03 and 3:53:00. 95% were retrieved using retrieval kits provided to patients. 1.5% retrieved endoscopically from the stomach (retained due to pyloric stenosis), 1.5% retained in terminal ileum (previously undiagnosed stricture) and 1.5% not retrieved due to failure of patient to use retrieval kit. 74% of studies were normal SB, 12% contained SB ulceration/erosive disease and 8% did not demonstrate the entire small bowel. Recommendations for follow up included supportive therapy (52%), more aggressive iron supplementation (1%), repeat capsules (17%), further endoscopic evaluation (11%) and 12% for routine office follow up and discussion. All four capsules mailed to patients in remote communities were completed successfully. CapsoCam Plus® had a high retrieval rate of 95% demonstrating that with appropriate patient selection, recovery rates are very high. Only 3% of patients had retained capsules. Most patients in this study had a normal small bowel, however; images and completion rates were adequate to assess small bowel in the vast majority of patients. Success was obtained with mailing this capsule to remote sites sparing the patient travel to the dispensing site.

A151 ASSESSMENT OF CAPSULE ENDOSCOPY UTILIZING CAPSOCAM PLUS® IN PATIENTS WITH SUSPECTED SMALL BOWEL DISEASE INCLUDING PILOT STUDY WITH REMOTE ACCESS PATIENTS

Abstract Background Capsule endoscopy (CE) has been widely utilized for the assessment of patients with known/suspected small bowel disease. The CapsoCam Plus® capsule is unique in that it utilizes four cameras at sequential 90 degree intervals in its mid-section permitting a 360-degree panoramic perspective with a 15+ hour battery life. A panoramic view has been suggested to improve overall visualization of the small bowel (SB) therefore potentially improving diagnostic yield. Unlike other small bowel capsules, it must be retrieved upon excretion (utilizing a magnetic kit) since the images are stored on the device. Aims To assess the use of CapsoCam Plus in patients referred for suspected small bowel disease, including pilot assessments for patients in remote locations. Methods A retrospective chart review (01/16 – 09/19) assessing consecutive capsule procedures utilizing this device was performed. Information acquired included basic demographics, indication, extent of examination, gastric transit time, small bowel transit time, yield, adverse events, capsule retention, recovery rates and recommendations for follow up. A pilot study was also initiated for patients in rural centers to access capsule testing remotely through mail courier without attendance/travel to the primary dispensing site. Results Acquired data included 63 patients receiving CapsoCam Plus®. Indications: 32% obscure gastrointestinal bleeding, 52% iron deficiency anemia, 2% abdominal pain and 6% for IBD. 92% of studies were completed to cecal visualization. Mean gastric and small bowel transit time were 0:48:17 and 3:54:29. 94% were retrieved using retrieval kits provided to patients. 2% retrieved endoscopically from the stomach (retained due to pyloric stenosis), 2% retained in terminal ileum (previously undiagnosed stricture) and 2% not retrieved due to failure of patient to use retrieval kit. 73% of studies were normal SB, 13% contained SB ulceration/erosive disease and 8% did not demonstrate the entire small bowel. Recommendations for follow up included supportive therapy (47%), more aggressive iron supplementation (1%), repeat capsules (19%) and 14% for routine office follow up and discussion. All three capsules mailed to patients in remote communities were completed successfully. Conclusions CapsoCam Plus® had a high retrieval rate of 97% demonstrating that with appropriate patient selection, recovery rates are very high. Only 3% of patients had retained capsules. Most patients in this study had a normal small bowel, however; images and completion rates were adequate to assess small bowel in the vast majority of patients. Success was obtained with mailing this capsule to remote sites sparing the patient travel to the dispensing site. Funding Agencies None

Sun Load Analysis and Testing on Automotive Front Lighting Products

The purpose of this research is to reach good correlation between sun load simulation and solar focusing test for exterior automotive lighting products. Light coming from sun is highly collimated (parallel rays) and focusable from lenses with concave structure. Focusing incidence leads to a hot spot on lens surrounding plastic parts which may cause melting failures at high temperature zones. Sun load simulation is performing to eliminate risk of discoloration, deformation, out gassing, coating failures and fire with prolonged exposure from field. Irradiance values in W/m2 defined in simulation as heat source depending of an angle of incidence of the sun radiation. At first step, simulation is performing with 5 degree intervals to define the critical zones then intervals decreased to 2 degree to detect the critical azimuth and inclination angles. Critical azimuth and inclination angles is checking with ray trace analysis to check the bouncing of sun rays and possible solution to eliminate focuses with design solutions. After numerical analysis to release and validate the automotive lighting products regarding the sun load test, measurement with first parts is necessary. Measurement is performing for all critical angles which have been detected at simulation with thermal camera under ultra high-collimation solar simulator. Measured temperatures are settled according to environment conditions and correlation is checking with simulations.

Effects of Micro jets on the Flow Field of the Duct with Sudden Expansion

This paper presents the results of an experimental investigation to study the effectiveness of the control jets to control base pressure in rapidly expanded circular tubes. Four tiny jets of 1 mm orifice diameter located at ninety degrees interval in cross shape along a pitch circle diameter of 1.3. The Mach number, the L/D ratio, and the area ratio of the study were 2.8, from 1 to 10, and 4.84, respectively. The nature of the flow field, the development of the flow in the duct, as well as the static wall pressure distribution in the duct was measured and discussed. The results indicate that the tiny jets can be used as an active dynamic controller for the base pressure. The wall pressure distribution is not adversely influenced by the small jets. From the present investigation, it is evident that for a given Mach number and nozzle pressure ratio one can identify the minimum duct L/D needed for the flow remained attached with the wall of the duct. The trend for the duct length L = 5D seems to show different results, due to the influence of back pressure and the peak pressure values are also less than that those were for higher L/D ratios, especially in respect of L/D = 5. Further, the flow field has smoothened in the duct, and wall pressure values with and without micro jets are identical. This trend continues until L/D = 4, then later for lower L/Ds like L/D = 3, the flow seems to be attached at higher NPRs. But for lower NPRs the flow is not attached

Influence of Control Mechanism on the Flow field of Duct at Mach 1.2 for Area Ratio 2.56

In this paper, the outcome of the experimental investigation and the flow field development in the duct at supersonic Mach number of 1.2 is presented. The experiments were conducted at various NPR which covers the condition of correct expansion and under expansion. A Convergent-divergent (C-D) nozzle which is connected with the suddenly expanded duct of the diameter of 16 mm of area ratio 2.56. The recirculation zone is controlled by using the microjets of 1 mm of orifice diameter which are placed at 90 degrees interval at 6.5 mm from the central axis of the main jet. The L/D of the duct was used in the investigation was from 1 to 10, and the NPR at which the experiments were conducted considered are in the range from 3, 5, 7, 9 and 11.

Molecular Modeling and Opioid Receptor Binding Affinity of New Substituted Morphine Derivatives

In this paper, the outcome of the experimental investigation and the flow field development in the duct at supersonic Mach number of 1.2 is presented. The experiments were conducted at various NPR which covers the condition of correct expansion and under expansion. A Convergent-divergent (C-D) nozzle which is connected with the suddenly expanded duct of the diameter of 16 mm of area ratio 2.56. The recirculation zone is controlled by using the microjets of 1 mm of orifice diameter which are placed at 90 degrees interval at 6.5 mm from the central axis of the main jet. The L/D of the duct was used in the investigation was from 1 to 10, and the NPR at which the experiments were conducted considered are in the range from 3, 5, 7, 9 and 11

Su1333 ASSESSMENT OF CAPSULE ENDOSCOPY UTILIZING CAPSOCAM PLUS® SV-3 IN PATIENTS WITH SUSPECTED SMALL BOWEL DISEASE

Capsule endoscopy (CE) has been widely utilized for the diagnostic assessment of patients with known/suspected small bowel disease.The newly developed CapsoCam Plus® capsule utilizes four cameras at sequential 90 degree intervals in its mid-section thus permitting a 360-degree panoramic perspective of the small bowel (SB) mucosa with a 15+ battery life. A panoramic view has been suggested to improve overall visualization of the small bowel (SB) therefore potentially improving diagnostic yield. This capsule, unlike other small bowel capsules must be retrieved upon excretion utilizing a magnetic kit.

High‐quality X‐ray computed tomography reconstruction using projected and interpolated images

Recent advances in computation power have allowed computed tomography (CT) to utilise iterative reconstruction (IR) algorithms. The IR technique can handle noisy data and reconstructs optimal CT images from limited projected images. As of cyclic image processing, IR improves the quality of CT images. This approach requires a minimum number of projections to reconstruct an image; however, decreasing the number of projections to 90 can create artefacts and degrade reconstruction quality. To overcome this limitation, the optical flow technique can compute flow vectors between two consecutive projections to generate projected images between frames. Here, optical flow-based frame interpolation combined with the ordered subset-modified iterative technique is proposed to reduce computation time, lower the number of projections, and increase reconstruction quality of CT images. The proposed technique can be used to reconstruct a CT image from 90 projections at 4 degree intervals between projection sequences. This approach produces a much better quality reconstruction compared to that produced by an analytical algorithm, which uses 360 projections. The inclusion of an ordered subset reconstructs CT images quickly by accelerating streaming architecture.